Term
|
Definition
When cells begin to stop dividing after about 50 cell divisions on average aka finite capacity for cell division. |
|
|
Term
What forces the cell into senescence? |
|
Definition
Insufficient telomerase activity by limiting the number of mitotic divisions. |
|
|
Term
What do human tumors express that confers endless growth? |
|
Definition
human telomerease reverse transcriptase (hTERT). |
|
|
Term
What are the 3 steps in preparing tissue for study with light microscope? |
|
Definition
1) fixation by chemical to preserve tissue structure 2) infiltrated with embedding medium for sectioning 3) stain with H&E for examination |
|
|
Term
What is tissue fixation used for? (4) |
|
Definition
1) terminate cell metabolism 2) prevent enzymatic degradation of cells and tissues by autolysis 3) kill pathogenic microorganisms such as bacteria, fungi, or viruses 4) harden tissue as a result of either cross-linking or denaturing protein molecules |
|
|
Term
What is the main chemical used in fixation and what does it do? |
|
Definition
formalin, preserves general structure of the cell and extracellular components by reacting with amino groups of proteins, which can maintain their ability to react with specific antibodies. |
|
|
Term
What sorts of molecules are preserved in tissue after fixation and why? |
|
Definition
Large molecules that do not readily dissolve such as nucleoproteins, intracellular cytoskeletal proteins, extracellular proteins and membrane phospholipid-protein complexes |
|
|
Term
What are some examples of large molecules lost during routine fixation? |
|
Definition
glycogen, proteoglycans and glycosaminoglycans, and soluble components |
|
|
Term
|
Definition
ability of anion groups to react with a basic dye |
|
|
Term
What does the reaction of anionic groups for staining vary upon? |
|
Definition
|
|
Term
|
Definition
reaction of cationic groups with an acidic dye |
|
|
Term
Which substances display basophilia? |
|
Definition
heterochromatin, nucleoli, cytoplasmic components, extracellular materials |
|
|
Term
Which substances display acidophilia? |
|
Definition
cytoplasmic filaments, intracellular membranous components, extracellular fibers |
|
|
Term
What is metachromasia and the underlying mechanism? |
|
Definition
absorbance change where certain basic dyes react with tissue components that shift their normal color from blue to red; due to presence of polyanions within tissue |
|
|
Term
What structures exhibit metachromasia? |
|
Definition
cartilage, heparin-containing granules of mast cells, RER of plasma cells, where high concentrations of ionized sulfate and phosphate groups are found |
|
|
Term
|
Definition
carbohydrates, glycogen in cells, mucus in various cells and tissues, basement membrane that underlies epithelia and reticular fibers in connective tissue |
|
|
Term
What is the basis of PAS and Feulgen reactions? |
|
Definition
ability of bleached basic fuchsin to react with aldehyde groups that results in a red color |
|
|
Term
What is used to stain DNA? |
|
Definition
Feulgen reaction, which relies on mild hydrochloric acid hydrolysis |
|
|
Term
What are the 3 steps to preparing tissue for frozen section? |
|
Definition
1) freezing the tissue sample 2) sectioning frozen tissue inside a cryostat 3) staining cut sections with H&E, methylene blue or PAS |
|
|
Term
Why would one do enzyme digestion when examining an adjacent section? |
|
Definition
to confirm the identity of the stained material |
|
|
Term
What can be visualized when mild aldehyde fixation is used to identify and localize enzymes? |
|
Definition
Reaction product of the enzyme activity is visualized; a capture reagent traps the reaction product of the enzyme by precipitation |
|
|
Term
What are the 2 types of antibodies used in immunocytochemistry? |
|
Definition
polyclonal and monoclonal antibodies |
|
|
Term
What is the underlying basis of immunocytochemistry? |
|
Definition
specificity of a reaction between an antigen and an antibody |
|
|
Term
What is the difference between poly- and monoclonal antibodies? |
|
Definition
Polyclonal represent mixtures of different antibodies produced by many clones of B lymphocytes; monoclonal are those produced by an antibody-producing cell line consisting of a single group of identical B lymphocytes |
|
|
Term
What is the difference between direct and indirect immunofluorescence? |
|
Definition
When fluorescein is conjugated directly with the specific primary antibody, the method is direct (1-step); when it is conjugated with a secondary antibody, the method is indirect (2-step). |
|
|
Term
What are the advantages of indirect immunofluorescence? |
|
Definition
1) enhances fluorescence signal emission from tissue 2) single secondary antibody can be used to localize the tissue-specific binding of several different primary antibodies |
|
|
Term
What is the FISH procedure? |
|
Definition
When fluorescent dyes have been combined with nucleotide probes, making it possible to visualize multiple probes at the same time |
|
|
Term
Define hybridization and which nucleic acid bonds are strongest? weakest? |
|
Definition
ability of ss RNA or DNA to interact with complementary sequences; strongest bonds are DNA:DNA and weakest are RNA:RNA. |
|
|
Term
What does autoradiography do? |
|
Definition
Makes use of a photographic emulsion placed over a tissue section to localize radioactive material within tissues. |
|
|
Term
How does the TEM produce an image? |
|
Definition
By interacting a beam of electrons with a specimen; beam is passed through the specimen |
|
|
Term
What makes a portion of a specimen dark under TEM? |
|
Definition
areas where the tissue has absorbed or scattered electrons because of their inherent density or because of heavy metals added during specimen preparation |
|
|
Term
What can TEM do that light microscopy can't do? |
|
Definition
Increase resolution; light microscopy can only magnify |
|
|
Term
Describe the nucleus under light microscopy? |
|
Definition
largest organelle w/in cell with distinct boundary; often visible nucleoli and chromatin pattern regions |
|
|
Term
Describe the nucleolus under light microscopy? |
|
Definition
roughly circular, basophilic region w/in nucleus |
|
|
Term
Describe the PM under light microscopy? |
|
Definition
|
|
Term
Describe the rER under light microscopy? |
|
Definition
basophilic region of cytoplasm referred to as ergastoplasm |
|
|
Term
Describe the sER under light microscopy? |
|
Definition
not visible; cytoplasm in region of sER may exhibit distinct eosinophilia |
|
|
Term
Describe the Golgi apparatus under light microscopy? |
|
Definition
sometimes seen as "negative-staining" region; appears as network in heavy metal stained preps |
|
|
Term
Describe the secretory vesicles under light microscopy? |
|
Definition
only when they are large (ie zymogen granules in pancreas) |
|
|
Term
Describe the mitochondria under light microscopy? |
|
Definition
very small, dark dots; visible in living cells stained with vital dyes |
|
|
Term
Describe the endosomes under light microscopy? |
|
Definition
|
|
Term
Describe the lysosomes under light microscopy? |
|
Definition
visible only after special enzyme histochemical staining |
|
|
Term
Describe the peroxisomes under light microscopy? |
|
Definition
visible only after special enzyme histochemical staining |
|
|
Term
Describe the cytoskeletal elements under light microscopy? |
|
Definition
only when organized into large structures |
|
|
Term
Describe the ribosomes under light microscopy? |
|
Definition
|
|
Term
Describe the glycogen under light microscopy? |
|
Definition
"purple haze" region of cytoplasm with toluidine blue-stained specimen |
|
|
Term
Describe the lipid droplets under light microscopy? |
|
Definition
readily visible when very large |
|
|
Term
Describe the nucleus under EM? |
|
Definition
surrounded by two membranes containing NPC and perinuclear cisternal space; regions with condensed and diffuse chromatin pattern |
|
|
Term
Describe the nucleolus under EM? |
|
Definition
dense, nonmembranous structure containing fibrillar and granular material |
|
|
Term
Describe the PM under EM? |
|
Definition
external membrane and membranes surrounding membranous organelles of cell; two inner and outer electron-dense layers separated by an intermediate electron-lucent layer |
|
|
Term
Describe the rER under EM? |
|
Definition
flattened sheets, sacs, and tubes of membranes with attached ribosomes |
|
|
Term
Describe the sER under EM? |
|
Definition
flattened sheets, sacs, and tubes of membranes WITHOUT attached ribosomes |
|
|
Term
Describe the Golgi under EM? |
|
Definition
stack of flattened membrane sheets, often adjacent to one side of nucleus |
|
|
Term
Describe the secretory vesicles under EM? |
|
Definition
relatively small, membrane-bounded vesicles of uniform diameter, often polarized on one side of cell |
|
|
Term
Describe the mitochondria under EM? |
|
Definition
two-membrane system: outer membrane and inner membrane arranged in numerous folds (cristae) |
|
|
Term
Describe the endosomes under EM? |
|
Definition
tubulovesicular structures with subdivided lumen containing electron-lucent material or other smaller vesicles |
|
|
Term
Describe the lysosomes under EM? |
|
Definition
membrane-bounded vesicles, often electron dense |
|
|
Term
Describe the peroxisomes under EM? |
|
Definition
membrane-bounded vesicles, often with electron-dense crystalloid inclusions |
|
|
Term
Describe the cytoskeletal elements under EM? |
|
Definition
long, linear staining pattern with width and features characteristic of each filament type |
|
|
Term
Describe the ribosomes under EM? |
|
Definition
very small dark dots, often assoc with rER |
|
|
Term
Describe the glycogen under EM? |
|
Definition
nonmembranous, very dense grapelike inclusions |
|
|
Term
Describe the lipid droplets under EM? |
|
Definition
nonmembranous inclusions; generally appear as a void |
|
|
Term
What is the protein that interacts most with the PM in vesicle formation? |
|
Definition
Clathrin; some endocytosis is clathrin-independent |
|
|
Term
What are the 3 mechanisms of endocytosis in the cell? |
|
Definition
1) pinocytosis 2) phagocytosis 3) receptor-mediated endocytosis |
|
|
Term
|
Definition
nonspecific ingestion of fluid and small protein molecules via small vesicles; constitutive; visible with TEM; clathrin-independent |
|
|
Term
|
Definition
ingestion of large particles; nonselective; clathrin-independent |
|
|
Term
Describe pathway of receptor-mediated endocytosis. |
|
Definition
cargo receptors accumulate in area of membrane; lipid raft region becomes coated pit; clathrin interacts with cargo receptor via adaptin; dynamin mediates liberation of forming clathrin-coated vesicles from PM |
|
|
Term
Which endocytotic mechanism is clathrin-DEPENDENT? |
|
Definition
receptor-mediated endocytosis |
|
|
Term
What are the 2 general pathways for exocytosis? |
|
Definition
constitutive and regulated secretory |
|
|
Term
What is the difference between the constitutive and regulated secretory pathway? |
|
Definition
constitutive: substances are continuously delivered to transport vesicles at PM and that there are no secretory granules regulated: regulatory event must be activated for secretion to occur and contents are stored in secretory vesicles |
|
|
Term
|
Definition
bounds to the traveling vesicle and recognizes the "address" where vesicle needs to go and binds to tethering proteins of target membrane |
|
|
Term
What happens after the docking complex between Rab-GTPase and its receptor has immobilized at the target membrane? |
|
Definition
cis-SNARE complex guarantee the specificity of interaction between a particular vesicle and its target membrane and also promote membrane fusion |
|
|
Term
How are SNARE complexes dismantled? |
|
Definition
With the help of NSF/alpha-SNAP protein complex |
|
|
Term
Describe early endosomes. |
|
Definition
compartments that are restricted to a portion of the cytoplasm near the cell membrane where vesicles originating from cell membrane fuse |
|
|
Term
Where do vesicles go from the early endosome? |
|
Definition
Return to PM or travel to deeper structures called late endosomes, which become lysosomes |
|
|
Term
What are the two models that explain the original and formation of endosomal compartments in the cell? |
|
Definition
1) stable compartment model 2) maturation model |
|
|
Term
Describe the stable compartment model. |
|
Definition
early and late endosomes are connected by vesicular transport with external environment of cell and with Golgi |
|
|
Term
Describe the maturation model. |
|
Definition
early endosomes are formed de novo from endocytotic vesicles from PM and matured into late endosomes |
|
|
Term
Where are M6P receptors present? |
|
Definition
early and late endosomes, lysosomes and Golgi |
|
|
Term
What is another word for late endosomes? |
|
Definition
pre-lysosomes bc they mature into lysosomes |
|
|
Term
Compare early and late endosomes wrt structure and pH |
|
Definition
early endosomes have a tubulovesicular structure with a slightly more acidic environment than the cytoplasm; late endosomes have a more complex structure with onionlike internal membranes, their pH is more acidic |
|
|
Term
What is the pathway for delivery of newly synthesized lysosomal enzymes? |
|
Definition
1) synthesized and glycosylated at rER 2) enzyme folds so signal patch is formed, M6P added for further modification 3) allows enzyme to be targeted to specific proteins that possess M6P receptor activity 4) goes to TGN where it is sorted/packaged and sent to early or late endosomes |
|
|
Term
What are multivesicular bodies (MVB)? |
|
Definition
vesicles that are highly selective transporters between early and late endosomes |
|
|
Term
What is the major function of early endosomes? |
|
Definition
sort and recycle proteins internalized by endocytotic pathways |
|
|
Term
How does pH decrease from early to late endosomes then to lysosomes? |
|
Definition
By increased active transport of protons into endosomal compartments |
|
|
Term
What are 4 pathways for processing internalized ligand-and-receptor complexes? |
|
Definition
1) receptor recycled and ligand degraded 2) both receptor and ligand recycled 3) both receptor and ligand degraded 4) both receptor and ligand transported through cell |
|
|
Term
What are the 3 classes of lysosomal membrane proteins? |
|
Definition
|
|
Term
What protects lysosomes from digestion by hydrolytic enzymes? |
|
Definition
sugar molecules covering almost the entire luminal surface of these proteins. |
|
|
Term
Describe generally the structure of the lysosomal membrane. |
|
Definition
phospholipid structure containing cholesterol and lyso-bisphosphatidic acid |
|
|
Term
What are the two pathways for lysosome biogenesis? |
|
Definition
1) constitutive secretory 2) Golgi-derived coated vesicle secretory |
|
|
Term
What are the 3 pathways for delivering material for intracellular digestion in lysosomes? |
|
Definition
1) extracellular large particles are engulfed via phagocytosis and fuse with lysosome to create phagolysosome 2) extracellular small particles enter via endocytosis and follow pathway of early to late endosomes which finally go to lysosomes 3) intracellular particles are isolated in the cytoplasm by ER membranes and tranported to lysosomes for autophagy |
|
|
Term
What are the 3 autophagic pathways for degradation of cytoplasmic constituents? |
|
Definition
1) macroautophagy: nonspecific, ER forms a membrane around substance to form double-membrane autophagosome vacuole, which fuses with lysosome 2) microautophagy: nonspecific, internalized by invagination of lysosomal membrane 3) chaperone-mediated direct transport: selective, requires help from hsc73 which binds to protein and helps transport into lysosome lumen |
|
|
Term
How is the hydrolytic breakdown of lysosomal contents related to cellular aging? |
|
Definition
production of debris-filled vacuole called residual body remain in the cell indefinitely; aka lipofuscin granules |
|
|
Term
|
Definition
portion of cytoplasm that stains with basic dye |
|
|
Term
Why does cytoplasm of some cells stain intensely with basic dyes? |
|
Definition
Bc they are engaged chiefly in protein synthesis; the presence of P groups on RNA is reason for basophilic staining |
|
|
Term
|
Definition
polyribosome complex comprised of a single mRNA bound to many ribosomes |
|
|
Term
Where are secretory proteins synthesized? |
|
Definition
exclusively by ribosomes of rER |
|
|
Term
What do signal proteins attached to secretory and integral proteins do? |
|
Definition
Instructs the newly formed peptide to pass through the membrane into the lumen of the rER cisterna |
|
|
Term
What is the process of cotranslational insertion of protein into rER? |
|
Definition
when hydrophobic signal domain of a forming secretory protein attaches to a receptor on membrane of rER |
|
|
Term
How does the rER act as a quality check point in protein production? |
|
Definition
if newly synthesized protein is not properly modified, it cannot exit the rER. |
|
|
Term
Describe action of COP-1. |
|
Definition
retrograde transport from CGN back to rER as part of salvage operation |
|
|
Term
Describe action of COP-II. |
|
Definition
anterograde transport forming rER transport vesicles desgined for the CGN |
|
|
Term
How do cells with large amount of sER exhibit when viewed under the light microscope? |
|
Definition
distinct eosinophilia (acidophilia) due to lack of ribosomes |
|
|
Term
What does sER do in the liver? |
|
Definition
detoxify enzymes with cytochrome P450 by chemically converting them into water-soluble conjugated products that can be eliminated from body |
|
|
Term
What happens as proteins and lipids travel through the Golgi stacks? |
|
Definition
undergo a series of posttranslational modifications that involve remodeling N-linked oligosaccharides previously added in the rER |
|
|
Term
From the TGN, proteins exit to four possible locations. What are they? |
|
Definition
1) apical PM 2) basolateral PM 3) endosomes or lysosomes 4) apical cytoplasm |
|
|
Term
What are the 2 protein complexes that help bring newly synthesized polypeptides into the mitochondrial cytoplasm? |
|
Definition
1) TOM complexes 2) TIM complexes |
|
|
Term
How do substances pass through the OMM? |
|
Definition
voltage-dependent anion channels aka mitochondrial porins |
|
|
Term
Name three enzymes on the OMM. |
|
Definition
phospholipase A2, monoamine oxidase, acyl coA synthetase |
|
|
Term
The IMM is rich with what phospholipid? |
|
Definition
cardiolipin, which makes the membrane impermeable to ions |
|
|
Term
What are the 3 main functions of proteins on the mit cristae? |
|
Definition
1) perform oxidation reactions of respiratory ETC 2) synthesize ATP 3) regulated transport of metabolites into and out of matrix |
|
|
Term
What are the 2 major products of the mit matrix that act as the source of electrons for ETC? |
|
Definition
|
|
Term
What do mit matrix granules do? |
|
Definition
store Ca and other divalent and trivalent cations |
|
|
Term
What is chemiosmotic coupling? |
|
Definition
Movement of protons back to the mit matrix that drives the synthesis of ATP |
|
|
Term
What happens to the newly formed ATP? |
|
Definition
transported from matrix to intermembrane space by voltage gradient-driven ATP/ADP exchange protein located at IMM; ATP leaves OMM to enter cytoplasm |
|
|
Term
Mitochondria is found in 2 configurations which are... |
|
Definition
1) orthodox where cristae are prominent and matrix occupies a large part of volume 2) condensed where cristae are not easily recognized |
|
|
Term
orthodox and condensed configurations of mitchondria relate to what? |
|
Definition
orthodox to low level of oxidative phosphorylation and condensed to high level of oxidative phosphorylation |
|
|
Term
How does the mit determine cell death (apoptosis)? |
|
Definition
release of cyt c from intermembrane space into cell cytoplasm is regulated by Bcl-2 protein family; cascade effect initiated to result in apoptosis |
|
|
Term
Describe pos and neg ends of microtubule assembly. |
|
Definition
+ end is growing end to which tubulin dimers bound to GTP are incorporated; - end contains gamma tubulin and capping proteins, tubulin dimers are bound to GDP |
|
|
Term
Which intermediate filaments are found in all epithelial cells? |
|
Definition
The two keratin filaments, acidic and basic cytokeratins |
|
|
Term
Which intermediate filaments are found in muscle cells? |
|
Definition
desmin, synemin, paranemin and nestin |
|
|
Term
Which intermediate filaments are found in neurons? |
|
Definition
peripherin, GFAP and all in the neurofilaments class |
|
|
Term
Where are the lamins intermediate filaments found? |
|
Definition
in most differentiated cells and all nucleated cells |
|
|
Term
|
Definition
|
|
Term
What is the order in diameter size of actin, intermediate filaments and MTs? |
|
Definition
actin filaments < intermediate filaments < MTs |
|
|
Term
What is the shape of actin filaments? |
|
Definition
|
|
Term
What is the shape of intermediate filaments? |
|
Definition
|
|
Term
What is the shape of MTs? |
|
Definition
nonbranching long hollow cylinders |
|
|
Term
What is the basic protein subunit of actin filaments? |
|
Definition
|
|
Term
What is the basic protein subunit of intermediate filaments? |
|
Definition
various intermediate filament proteins |
|
|
Term
What is the basic subunit of MTs? |
|
Definition
dimers of alpha and beta tubulin |
|
|
Term
What is the enzymatic activity of actin filaments? |
|
Definition
|
|
Term
What is the enzymatic activity of intermediate filaments? |
|
Definition
|
|
Term
What is the enzymatic activity of MTs? |
|
Definition
|
|
Term
Which cytoskeletal elements have polarity? |
|
Definition
actin filaments and MTs; NOT intermediate filaments |
|
|
Term
Describe polarity of actin filaments |
|
Definition
- end is slow growing and pointed; + end is fast growing and barbed |
|
|
Term
Describe polarity of MTs. |
|
Definition
- is nongrowing and embedded in MTOC; + is growing end |
|
|
Term
Where are actin filaments located? |
|
Definition
core of MV; terminal web; beneath PM; contractile elements of muscles and dividing cells |
|
|
Term
Where are intermediate filaments located? |
|
Definition
across cytoplasm connecting desmosomes and hemidesmosomes; beneath inner nuclear membrane |
|
|
Term
|
Definition
core of cilia; mitotic spindle and centrosome |
|
|
Term
What are major functions of actin filaments? |
|
Definition
provide essential components to contractile elements of muscle cells |
|
|
Term
What are major functions of intermediate filaments? |
|
Definition
provide mechanical strength and resistance to shearing forces |
|
|
Term
What are major functions of MTs? |
|
Definition
provide network "railroad tracks" for movement of organelles within the cell; provide movement for cilia and chromosomes during cell division |
|
|
Term
Describe 9+2 arrangement in cilia |
|
Definition
9 MTs at periphery of cilia surround 2 central MTs |
|
|
Term
How are MTs arranged in basal bodies? |
|
Definition
9 triplets at the periphery of the basal body with no central pair |
|
|
Term
How are intermediate filaments different from actin filaments and MTs? |
|
Definition
no enzymatic activity, nonpolar, do not typically disappear and reform, have tissue specificity |
|
|
Term
What do dyneins do in mitosis? |
|
Definition
move chromosomes along MTs of mitotic spindle |
|
|
Term
Functions of centrioles are divided into what two categories? |
|
Definition
1) basal body formation 2) mitotic spindle formation |
|
|
Term
What is the purpose of basal bodies? |
|
Definition
to help assemble cilia and flagella; formed by replication of centrioles giving rise to procentrioles, which becomes a basal body; acts as organizing center for cilium |
|
|
Term
What do centrioles do in mitosis? |
|
Definition
position the mitotic spindle properly by recruiting the MTOC from which astral MTs can grow and establish the axis for developing spindle |
|
|
Term
Which appear denser in TEM: basal bodies or cilia? |
|
Definition
|
|
Term
What does each cilium need? |
|
Definition
|
|
Term
|
Definition
cytoplasmic or nuclear structures with characteristic staining properties formed from metabolic products of cell |
|
|
Term
What are 5 common inclusions? |
|
Definition
1) lipofuscin 2) hemosiderin 3) glycogen 4) lipid inclusions (fat droplets) 5) crystalline inclusions |
|
|
Term
How does lipofuscin stain and where? |
|
Definition
brownish-gold pigment; seen in nondividing cells (neurons, skeletal and cardiac muscle) |
|
|
Term
How does hemosiderin stain and where? |
|
Definition
deep brown granule; cytoplasm of most cells |
|
|
Term
How does glycogen stain and where? |
|
Definition
clusters of granules typically unstained; liver and striated muscle |
|
|
Term
How will glycogen compare to ribosomes when studied in a micrograph? |
|
Definition
glycogen is considerably denser than ribosomes |
|
|
Term
Compare euchromatin to heterochromatin. |
|
Definition
Hetero is highly condensed chromatin (inactive) and densely staining; eu is dispersed form (active) and lightly staining, not visible in light microscope |
|
|
Term
What are nuclear lamina formed from? |
|
Definition
meshwork of intermediate filaments (lamins) that are arranged in a square lattice |
|
|
Term
How are cells classified according to mitotic activity? |
|
Definition
1) static 2) stable 3) renewing (slowly and rapidly) |
|
|
Term
Generally, what is characteristic of renewing cell populations? |
|
Definition
display regular mitotic activity; 2 daughter cells result |
|
|
Term
Which cells are slowly renewing? |
|
Definition
smooth muscle cells of hollow organs, fibroblasts of uterine wall, epithelial cell of eye lens |
|
|
Term
Which cells are rapidly renewing? |
|
Definition
blood cells, epithelial cells, dermal fibroblasts of skin |
|
|
Term
What are the 4 basic tissue types? |
|
Definition
1) epithelium 2) connective 3) muscle 4) nerve |
|
|
Term
How are epithelia classified? |
|
Definition
shapes (squamous, cuboidal and columnar) and layers (simple or stratified) |
|
|
Term
What are the two classifications of connective tissue? |
|
Definition
Loose (found in close association with most epithelia) and dense |
|
|
Term
How are epithelia and connective tissue different? |
|
Definition
epithelia are always continguous with one another and connective tissue are often separated from one another mixed with ECM |
|
|
Term
What do all muscle types have in common? |
|
Definition
bulk of cytoplasm consists of contractile proteins actin and myosin |
|
|
Term
What is the structure of a neuron? |
|
Definition
a single, long axon carries impulses away from cell body, which contains the neuron's nucleus; dendrites receive impulses and carry them toward cell body; axon terminates at a neuronal junction called a synapse and transfer impulses via neuromediators |
|
|
Term
What are neurons called in the CNS and PNS? |
|
Definition
CNS: neuroglial cells PNS: Schwann cells and satellite cells |
|
|
Term
How can one differentiate between loose and dense connective tissue in a micrograph? |
|
Definition
Loose tend to vary in size and shape while dense show less nuclei, packed fibers and thick collagen bundles that stain more intensely with blue dye |
|
|
Term
What are 3 main characteristics of epithelia? |
|
Definition
1) closely apposed and adhere to one another by means of specific cell-to-cell adhesion molecules that form specialized cell junctions 2) exhibit functional and morphologic polarity 3) basal surface is attached to an underlying basement membrane |
|
|
Term
What are the three morphologic surface domains of epithelia? |
|
Definition
1) apical (free surface) 2) lateral 3) basal |
|
|
Term
What are epithelioid tissues? |
|
Definition
cell aggregates that have characteristics of epithelia except absence of an apical domain |
|
|
Term
How does one classify the shape for stratified epithelia? |
|
Definition
Only the shape of cells that form the SURFACE LAYER is used to classify it |
|
|
Term
What are the 2 special classificiations of epithelia? |
|
Definition
pseudostratified and transitional |
|
|
Term
Describe pseudostratified epithelium. |
|
Definition
appears stratified but some of the cells do not reach the free surface and all rest on the basement membrane |
|
|
Term
Describe transitional epithelium. |
|
Definition
stratified epithelium that changes in appearance according to degree of distension of bladder |
|
|
Term
|
Definition
epithelial lining of blood and lymphatic vessels |
|
|
Term
|
Definition
epithelial lining of ventricles and atria of heart |
|
|
Term
|
Definition
epithelium that lines the walls and covers the contents of closed cavities of body |
|
|
Term
What types of epithelia cells are found at endothelium, endocardium and mesothelium? |
|
Definition
|
|
Term
What are the 5 possible functions of epithelia? |
|
Definition
1) secretion 2) absorption 3) transport 4) protection 5) receptor function |
|
|
Term
What are 3 structures found on the surface of the apical domain? |
|
Definition
1) MV 2) stereocilia 3) cilia |
|
|
Term
What does the number and shape of MV correlate with? |
|
Definition
|
|
Term
What are the actin-bundling proteins that cross-link actin filaments inside the MV? |
|
Definition
|
|
Term
Describe the structure of actin inside MV. |
|
Definition
Actin filaments make up the core that is anchored to villin located in the tip of the MV and extend down into the apical cytoplasm where they interact with the terminal web located below the base of the MV |
|
|
Term
|
Definition
molecule that binds actin filament to PM of MV |
|
|
Term
What is the terminal web composed of? |
|
Definition
actin filaments stabilized by spectrin; myosin II and tropomyosin allows it to contract |
|
|
Term
Where are stereocilia found? |
|
Definition
limited to epididymis and the sensory cells of the ear |
|
|
Term
Although stereocilia are long version of MVs, how are they different? |
|
Definition
a plasma membrane associated molecule called EZRIN anchors the actin filaments to the PM of stereocilia; also stereocilia lack villin |
|
|
Term
|
Definition
motile cytoplasmic structures that move fluid and particles along epithelial surfaces |
|
|
Term
Which part of the 9+2 MT arrangement in cilia connect to the basal body? |
|
Definition
|
|
Term
How is cilia visualized in EM? |
|
Definition
thin, dark staining band is seen at the base of the cilia to represent basal bodies; overall gives a crew-cut appearance |
|
|
Term
Describe the metachronal rhythm of cilia. |
|
Definition
wave that is responsible for moving mucus over epithelial surfaces or facilitating flow of fluid and other substances through tubular organs and ducts |
|
|
Term
What initiates ciliary movement? |
|
Definition
|
|
Term
Describe the two strokes of the cilium. |
|
Definition
effective stroke: rapid forward movement recovery stroke: bend toward lateral side on the slower return movement |
|
|
Term
How are the major functions of stratified and simple epithelia different? |
|
Definition
simple epithelia are for absorption and secretion while stratified are for barrier and protection |
|
|
Term
Compare the transcellular and paracellular pathways for transport across epithelia. |
|
Definition
Transcellular occurs across PM of epithelia and represent active transport system; paracellular occurs across zonula occludens between two cells |
|
|
Term
What are the 3 transmembrane proteins that form zonula occluden? |
|
Definition
occludin, claudin and junctional adhesion molecule (JAM) |
|
|
Term
What binding can be found between cell adhesion molecules (CAM)? |
|
Definition
heterotypic between different types of CAMs and homotypic between same types of CAMs |
|
|
Term
What is the molecular structure of zonula adherens? |
|
Definition
actin filaments of adjacent cells are attached to the E-cadherin-catenin complex by alpha-actinin and vinculin. |
|
|
Term
What is the major function of gap junctions? |
|
Definition
creates a conduit bw two adjacent cells for passage of small ions and informational micromolecules |
|
|
Term
What is the major link protein between cells of a gap junction? |
|
Definition
|
|
Term
What are the junctional features that anchor the epithelia to the ECM? |
|
Definition
focal adhesion and hemidesmosomes |
|
|
Term
What is the difference between focal adhesions and hemidesmosomes? |
|
Definition
focal anchors actin filaments while hemidesmosomes anchor intermediate filaments |
|
|
Term
What are the two junctional features that anchor two epithelia on the lateral domain? |
|
Definition
zonula adherens and macula adherens aka desmosome |
|
|
Term
What do desmosomes (macula adherens) and hemidesmosomes have in common? |
|
Definition
both anchor intermediate filaments |
|
|
Term
What is the difference between zonula adherens and macula adherens (desmosome)? |
|
Definition
zonula couples actin filaments of two cells while macula couples intermediate filaments of two cells |
|
|
Term
What is the location and function of zonula occludens? |
|
Definition
Located on apical side that seals adjacent cells together by connecting actin filaments with occludins, claudins and JAMs |
|
|
Term
How does the basement membrane exhibit? |
|
Definition
as a homogenous layer immediately below the epithelia |
|
|
Term
What is the difference in terminology bw basal lamina and basement membrane? |
|
Definition
Basal lamina is used for EM and basement membrane is for light microscopy |
|
|
Term
Describe exocrine glands. |
|
Definition
secret products directly to surface or through epithelial ducts |
|
|
Term
Describe endocrine glands. |
|
Definition
lack a duct system and secret into connective tissue which enter bloodstream; products are called hormones |
|
|
Term
|
Definition
secretory activity where cells secret a substance that does not reach the bloodstream but affects other cells within the same epithelium |
|
|
Term
What are the 3 release mechanisms for exocrine glands? |
|
Definition
1) merocrine 2) apocrine 3) holocrine |
|
|
Term
|
Definition
secretory product is delivered in membrane-bounded vesicles to apical surface of cell; vesicles fuse with PM and extrude contents via exocytosis |
|
|
Term
|
Definition
secretory product is released into apical portion of cell, surrounded by a thin layer of cytoplasm within an envelope of PM |
|
|
Term
|
Definition
secretory product accumulates within maturing cell, which undergoes programmed cell death and is discharged into lumen of gland |
|
|
Term
How are exocrine glands classified structurally? |
|
Definition
unicellular: secretory component consists of single cells ie globlet multicellulr: composed of more than one cell |
|
|
Term
What is the difference between simple and compound ducts? |
|
Definition
If duct is unbranched--simple; if duct is branched--compound |
|
|
Term
Compare tubular, alveolar (acinar) and tubuloalveolar. |
|
Definition
Tubular: secretory portion shaped like a tube Acinar/Alveolar: secretory portion shaped like a flask Tubuloalveolar: secretory portion shaped like a saclike dilation |
|
|
Term
What are the contents of mucous gland products? |
|
Definition
viscous, slimy, extensively glycosylated constituent proteins with anionic oligosaccharides hence, PAS POSITIVE |
|
|
Term
What are the contents of serous gland products? |
|
Definition
watery, poorly glycosylated protein secretions |
|
|
Term
In tissue preparation, what is the shape of nuclei and serous cells from the lumen of acinus? |
|
Definition
nuclei are round or oval in the basal portion of the cell; demilunes or crescents |
|
|
Term
Where are mucous glands typically found? |
|
Definition
goblet cells, secretory cells of sublingual salivary glands, surface cells of stomach |
|
|
Term
What is visible in the acinar cells that are serous-secreting? |
|
Definition
zymogen granules as small round objects |
|
|
Term
Where do mucous and serous MEMBRANES line? |
|
Definition
mucous: cavities that connect with outside of body serous: peritoneal, pericardial and pleural cavities |
|
|
Term
What are structural components of mucous MEMBRANES? |
|
Definition
surface epithelium, lamina propria, basement membrane separating the epithelium from lamina propria and sometimes a deep muscularis mucosae |
|
|
Term
What are the structural components of serous MEMBRANES? |
|
Definition
lining epithelium, mesothelium, supporting connective tissue and a basement membrane between the two |
|
|
Term
How are epithelia replacement cells produced? |
|
Definition
mitotic activity of cells in the basal layer of epithelia |
|
|
Term
What functions are related most to simple epithelia? |
|
Definition
transport, absorption and secretion such as intestine, vascular system, digestive glands, exocrine glands, kidney |
|
|
Term
What functions are related most to stratified epithelia? |
|
Definition
frictional stress such as skin, oral mucosa, esophagus and vagina |
|
|
Term
What is acinus and its structural shape? |
|
Definition
functional group of secretory cells, each pyramidal in shape, overall spherical with lumen in center |
|
|
Term
As a rule, where should one look if there are varying thickness of epithelium to determine the true organization? |
|
Definition
always examine the thinnest area of an epithelium |
|
|
Term
Where does one typically find epithelioid tissues? |
|
Definition
|
|
Term
EM is mainly used to display what? |
|
Definition
cell and tissue ultrastructure |
|
|
Term
What are the phrases electron dense and lucent used to indicate? |
|
Definition
relative darkness and lightness |
|
|
Term
What are two histochemical techniques and how are they different? |
|
Definition
enzyme histochemistry stains substrates or end products of enzymes seen in both EM and LM immunohistochemistry uses antibodies conjugated to specific cellular components with a visual marker for LM or EM |
|
|
Term
What structures dye purplish blue with the basic dye haematoxylin? |
|
Definition
Acidic structures such as nuclei, ribosomes, RER due to DNA and RNA |
|
|
Term
Which structures dye red or pink with the acidic dye eosin? |
|
Definition
Basic substances such as cytoplasmic proteins and mitochondria |
|
|
Term
What are 3 possible nitrogenous compounds conjugated to glycerol via phosphate bridge? |
|
Definition
choline, ethanolamine, serine |
|
|
Term
What is the role of cholesterol at the PM? |
|
Definition
stabilize and regulate fluidity of phospholipid bilayer by preventing overly dense packing while filling gaps between 'kinks' of unsaturated FA tails |
|
|
Term
What are roles of the glycocalyx and what does it constitute? |
|
Definition
cell recognition phenomena, formation of intercellular adhesions, adsorption of molecules to cell surface, protection constitutes glycoproteins and glycolipids forming an outer coating of PM |
|
|
Term
What are nucleoproteins and where are they synthesized? |
|
Definition
histone proteins or non-histone proteins which help with DNA activity in the nucleus; synthesized in cytoplasm and brought in |
|
|
Term
Where can one find heterochromatin? |
|
Definition
|
|
Term
|
Definition
ribosomal RNA synthesis and ribosome assembly |
|
|
Term
What is lcoated on the inner nuclear membrane and what does it do? |
|
Definition
nuclear lamina, which is an electron-dense layer of intermediate filaments and they link inner membrane proteins and heterochromatin |
|
|
Term
What are the principal functions of sER? |
|
Definition
lipid biosynthesis and membrane synthesis and repair |
|
|
Term
What happens as proteins go through the Golgi from the rER? |
|
Definition
Protein is glycosylated by sequential addition of sugar residues and proteins are packaged for transport to final destination |
|
|
Term
How does the visualization of secretory granules change as they approach the lumen? |
|
Definition
become increasingly electron dense |
|
|
Term
Why are lysosomal degradative enzymes collectively called acid hydrolases? |
|
Definition
Because they are optimally active at pH of 5. |
|
|
Term
What enzymes are found in peroxisomes? |
|
Definition
oxidases for catabolic pathways, catalase |
|
|
Term
What does the presence of lipofuscin signify? |
|
Definition
insoluble degradation product of organelle turnover |
|
|
Term
What do mit matrix granules do? |
|
Definition
|
|
Term
Where can one easily see glycogen granules and what form does it assume? |
|
Definition
Present in large amounts in hepatocytes as glycogen inclusions and glycogen rosettes (flower shape); slightly bigger than ribosomes |
|
|
Term
How can one identify lipid droplets in EM? |
|
Definition
homogeneous, rounded globules |
|
|
Term
What directions do dynein and kinesin move along the tubules? |
|
Definition
towards and away from the cell center respectively |
|
|
Term
How do MTs look in longitudinal and tranverse sections? |
|
Definition
straight, unbranched structures and hollow for transverse |
|
|
Term
What constitutes the centrosome? |
|
Definition
pair of centrioles and the centrosome matrix |
|
|
Term
What is the role of centrosome? |
|
Definition
pair of centrioles duplicates and migrates to ends of cell prior to cell division to act as MTOC |
|
|
Term
What are the roles of basement membrane? |
|
Definition
provides metabolic support since epithelium is devoid of blood vessels, control of epithelial growth and differentiation forming a barrier to downward growth, regulates permeability |
|
|
Term
What are the main constituents of basement membranes and external lamina? |
|
Definition
heparan sulphate, collagen type IV, structural glycoproteins (fibronectin, laminin, entactin) |
|
|
Term
What are the 3 layers of the basement membrane from the top? |
|
Definition
lamina lucida, lamina densa, lamina fibroreticularis |
|
|
Term
How does the basement membrane associate structurally with epithelia? |
|
Definition
passes uninterrupted beneath the intercellular space between two epithelial cells |
|
|
Term
Describe the structure of an adipocyte cell under microscopy. |
|
Definition
nucleus is compressed and displaced to one side; cytoplasm is reduced to a small rim around the periphery; lipid droplets have no membrane |
|
|
Term
What structures are characteristic of brown adipose tissue? |
|
Definition
large nuclei surrounded by strongly eosinophilic cytoplasm, rich network of capillaries, crammed with mitochondria, rich in cytochromes, stored lipids in multiple droplets |
|
|
Term
What other classification of epithelia are there besides number and shape? |
|
Definition
presence of surface specialisations such as cilia and keratin |
|
|
Term
Describe how pseudostratified epithelia appear? |
|
Definition
nuclei of cells are disposed at different levels creating illusion of stratification even though all cells are resting on basement membrane |
|
|
Term
What is the function of various cells in a transitional epithelium? |
|
Definition
Basal cells are continuously dividing stem cells, polygonal cells are in the intermediately layers which migrate to surface where they are ultimately shed |
|
|
Term
What is keratinisation and where does it occur? |
|
Definition
during maturation, the epithelial cells accumulate cross-linked cytokeratin intermediate filaments resulting in a tough, non-living surface layer of squames; nuclei disappear (pyknotic; typically occurs at stratified squamous epithelium |
|
|
Term
Describe lining of a non-distended bladder and distended bladder in terms of transitional epithelia. |
|
Definition
Non-distended epithelia appears to be about 4-5 cell layers thick and basal cells are cuboidal; distended epithelia appear to be 2-3 cell layers thick and intermediate and surface layers are extremely flattened |
|
|
Term
What 3 parts make up a junctional complex? |
|
Definition
1) zonula occludens 2) zonula adherens 3) macula adherentes (desmosomes) |
|
|
Term
What are fascia occludens and where can they be found? |
|
Definition
discontinuous strips of tight junction; found between endothelial cells lining blood vessels except in the brain |
|
|
Term
What are 3 components of the ADHERING junction? |
|
Definition
1) transmembrane proteins 2) anchoring proteins 3) cytoskeleton |
|
|
Term
What is the difference between connexon and connexin? |
|
Definition
6 connexins make up 1 connexon, which is a transmembrane channel that make up the gap junction |
|
|
Term
What does ciliary action result from? |
|
Definition
dynein-catalysed conversion of ATP to ADP |
|
|
Term
What do goblet cells secret and describe their structure. |
|
Definition
secret mucus, which is a mix of neutral and acidic proteoglycans; modified columnar epithelial cells with dense aggregate of mucigen granules |
|
|
Term
Besides tubular or acinar, what other classification exists for the secretory component? |
|
Definition
|
|
Term
What is the arrangement of endocrine glands? |
|
Definition
clusters of secretory cells surrounded by rich network of small blood vessels; each cluster of endocrine cells surrounded by a basement membrane |
|
|
Term
How do hepatocytes appear in micrograph? |
|
Definition
large polyhedral cells with round nuclei, peripherally dispersed chromatin and prominent nucleoli; grainy glycogen inclusions and lipofuscin |
|
|
Term
What are the responses to insulin secretion? |
|
Definition
increase glucose uptake, increase glycogenesis, increase lipogenesis, decrease gluconeogenesis |
|
|
Term
Describe convergence signaling. |
|
Definition
signals from a variety of unrelated receptors, each bind to its own ligand can converge to activate a common effector |
|
|
Term
Describe divergent signaling. |
|
Definition
signals from the same ligand can diverge to activate a variety of different effectors leading to diverse cellular response |
|
|
Term
Describe cross-talk signaling. |
|
Definition
signals can be passed back and forth between different pathways |
|
|
Term
Give an example of a convergence signaling pathway for MAP kinase cascade. |
|
Definition
GPCR, integrins and RTKs all bind to very different ligands but can lead to formation of phosphotyrosine docking sites for the SH2 domain of the adaptor protein Grb2 which results in activation of Ras and transmission of signals down MAP kinase. |
|
|
Term
How are different stimuli able to evoke distinct responses even though they utilize similar pathways? |
|
Definition
Contrasting cellular responses may be due to differences in protein composition of different cell types; different cells may have different isoforms of various proteins |
|
|
Term
Explain how cAMP is involved in cross-talk signaling. |
|
Definition
It can bind to cAMP dependent kinase PKA to block transmission of signals from Ras to Raf inhibiting the MAP kinase cascade. At the same time, PKA and MAP kinase cascade phosphorylate the transcription factor CREB, which is then activated for binding to specific sites on DNA. |
|
|
Term
|
Definition
simple epithelium lining blood and lymphatic vessels |
|
|
Term
|
Definition
simple epithelium lining all body cavities |
|
|
Term
Which is more likely to exhibit nuclei: moderately or highly keratinized cell types? |
|
Definition
|
|
Term
What's another term for the transitional epithelium of urinary passages? |
|
Definition
|
|
Term
What anchors the basal bodies to the apical portion of the cytoplasm? |
|
Definition
|
|
Term
What is the MT arrangement in cilia called? Where else is this found besides cilia? |
|
Definition
axoneme; flagellum of sperm |
|
|
Term
What are the two classes of cell adhesion molecules? |
|
Definition
1) Ca-dependent molecules (cadherins and selectins) 2) Ca-independent molecules (CAMs and integrins) |
|
|
Term
|
Definition
Bind to ECM and the internal cytoskeleton |
|
|
Term
What binds the cytoplasmic domain of cadherins to actin? |
|
Definition
catenin complex, which includes actin-binding proteins |
|
|
Term
What are the 3 roles of the catenin complex? |
|
Definition
1) mediate a direct link to dilamentous actin 2) interact with regulatory molecules of the actin cytoskeleton 3) control adhesive state of extracellular domain of cadherins |
|
|
Term
What are selectins and what do they do? |
|
Definition
Ca-dependent cell adhesion molecules; bind to carbohydrates and belong to group of lectins |
|
|
Term
|
Definition
mechanism that enables leukocytes to escape from blood circulation and reach sites of inflammation |
|
|
Term
How are integrins different from cadherins, selectins and CAMs? |
|
Definition
|
|
Term
How is control different for transcellular and paracellular pathways? |
|
Definition
transcellular controlled by numerous channels and transporters; paracellular regulated by continuous intercellular contact or cell junction |
|
|
Term
Which proteins are connecting adjacent zonula and macula adherens? |
|
Definition
desmogleins, desmocollins, desmoplakin, plakoglobin and plakophilin |
|
|
Term
What are the 2 components of hemidesmosomes? |
|
Definition
1) inner cytoplasmic plate 2) outer membrane plaque |
|
|
Term
Which junction is responsible for chemical and electrical coupling between cells? |
|
Definition
|
|
Term
What are the 2 components of basement membrane? |
|
Definition
1) basal lamina 2) reticular lamina |
|
|
Term
What is laminin made of and what does it bind to? |
|
Definition
made of 3 disulfide-linked polypeptide chains; bind to cell surface receptors and adhesion molecules; self-associate to form part of basal lamina |
|
|
Term
What is fibronectin and what is it made from? |
|
Definition
glycoprotein formed by two identical chains joined by disulfide linkages close to C-terminal; comes from fibroblasts; main adhesion molecule in ECM |
|
|
Term
Describe treadmilling for actin polymerization. |
|
Definition
G-actin monomers added on the barbed end of the filament move, or treadmill, along filament until lost by depolymerization at the pointed end |
|
|
Term
What the 4 proteins that control treadmilling? |
|
Definition
thymosin, profilin, cofilin and gelsolin |
|
|
Term
What are the main components of microfilaments and microtubules? |
|
Definition
actin and tubulin dimers respectively |
|
|
Term
What are the 3 steps of dynamic instability that individual MTs undergo? |
|
Definition
1) polymerization phase 2) release of hydrolyzed phosphate 3) depolymerization phase |
|
|
Term
What are the 3 types of MTs extending from the centrosome? |
|
Definition
1) radiating aka astral 2) kinetochore 3) polar |
|
|
Term
What does the Fuelgen reaction specific for? |
|
Definition
|
|
Term
Which components of the epithelia have a beltlike distribution? |
|
Definition
tight junctions and zonula adherens |
|
|
Term
Describe the structure of a hemidesmosome on both sides of the cell. |
|
Definition
inner cytoplasmic plate is connected to keratin intermediate filaments; adjacent to plate is plaque which links the hemidesmosome to the basal lamina by anchoring filaments (laminin) and integrin |
|
|
Term
Describe structure of macula adherens aka desmosomes. |
|
Definition
adjacent plaques are connected by cadherins; desmoplakin, plakoglobin and plakophilin proteins on plaque connect to cytoplasmic keratin intermediate filaments |
|
|
Term
What are the 4 layers of the epidermis? |
|
Definition
1) stratum corneum 2) stratum granulosum 3) stratum spinosum 4) stratum basale |
|
|
Term
How does a blister form at the skin? |
|
Definition
Antibodies to BPAG1 and BPAG2 trigger a response to induce mast cells to release eosinophil chemotactic factor, causing breakdown of attachment plaque of the hemidesmosome to the basal lamina |
|
|
Term
What are the elements that connect the basal lamina to the intermediate filaments? |
|
Definition
BPAG1, BPAG2, plectin and integrin |
|
|
Term
|
Definition
process allowing leukocytes to leave blood vessels and mediate inflammatory responses |
|
|
Term
How does the rER know to retain certain proteins? |
|
Definition
Contain targeting sequence KDEL at the C-terminal; otherwise they are transported to the Golgi |
|
|
Term
Where do proteins synthesized on free ribosomes go? |
|
Definition
nucleus, mitochondria and peroxisomes |
|
|
Term
Where do proteins synthesized on ER ribosomes go? |
|
Definition
|
|
Term
What is the main function of Golgi? |
|
Definition
addition of oligosaccharides to proteins and lipids |
|
|
Term
What determines the functional differences between cis, medial and trans Golgi? |
|
Definition
presence of specific glycosyltransferases |
|
|
Term
How are lysosomal hydrolases sorted to become a primary lysosome? |
|
Definition
1) insertion of M6P into oligosaccharides attached to glycoproteins destined to lysosomes 2) presence of transmembrane M6P receptor protein in transporting vesicle |
|
|
Term
What is the role of adaptins? |
|
Definition
bind clathrin to vesicular membrane as well as select specific moles to be trapped in a vesicle |
|
|
Term
Which phosphilipids are found on the outer leaflet of a PM? |
|
Definition
phosphatidylcholine, sphingomyelin and phosphtaidylethanolamine |
|
|
Term
Which phosphilipids are found on the inner leaflet of a PM? |
|
Definition
phosphatidylserine, phosphatidylinositol, phosphatidylethanolamine |
|
|
Term
What is the glycocalyx made of and what does it do? |
|
Definition
carbohydrates; protects cell surface and facilitates cell-cell interaction such as homing |
|
|
Term
|
Definition
structure containing partially digested material |
|
|
Term
The membrane of a lysosome has what 3 characteristics? |
|
Definition
1) separates hydrolytic enzymes from cytosol 2) harbors transport proteins that translocate breakdown products from lysosome into cytosol 3) contains ATP-dependent H+ pump to maintain pH of 5 |
|
|
Term
Describe cholesterol uptake in 6 steps. |
|
Definition
1) ligand receptor complex aggregate in coated pit 2) internalization of complex 3) internalized complex within a coated vesicle 4) clathrin coat detaches 5) primary lysosome fuses with endosome containing complex--early and late endosomes are formed 6) free receptor is recycled back to the PM |
|
|
Term
Describe vesicular transport with clathrin. |
|
Definition
Clathrin assembles on cytosolic side of membranes into basket like lattice. Adaptin mediates clathrin binding to vesicular membrane |
|
|
Term
Describe vesicular transport with COP. |
|
Definition
1) ARF bound to GTP associates with membrane of Golgi stacks to promote binding of coatomer, leading to vesicle budding 2) Hydrolysis of bound GTP changes ARF to GDP-bound leading to disassembly of vesicle coat before vesicle fuses with target membrane |
|
|
Term
What are the 2 steps of vesicle fusion? |
|
Definition
1) recognition of appropriate target membrane by a receptors v-SNARE (vesicle) and t-SNARE (membrane) 2) fusion induced by NSF and SNAPs |
|
|
Term
What do proteins targeted to the mitochondria have? |
|
Definition
1) contain terminal positively charged AA presequence 2) associated with cytosolic protein HSP70 3) recognized by receptor on mitochondrial surface 4) translocated inside mitochondria through receptors on OMM and IMM |
|
|
Term
What is the major protein of the peroxisome? |
|
Definition
Catalase, which decomposes hydrogen peroxide into water |
|
|
Term
What is the MOA of steroid hormones? |
|
Definition
1) hydrophobic steroid hormone diffuses across PM 2) steroid binds to cytosol receptor 3) steroid-cytosol receptor complex translocates into nucleus, binds to DNA and activates gene expression |
|
|
Term
What do endocrine, paracrine and autocrine cells secrete? |
|
Definition
endocrine: polypeptide or steroid hormone paracrine/autocrine: hormones or growth factor |
|
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Term
What is neuroendocrine signaling? |
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Definition
in response to a neural signal, neuroendocrine cells secret a hormone into the blood |
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Term
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Definition
from AA L-arginine in a reaction that requires oxygen and NADPH and catalyzed by enzyme nitric oxide synthase (NOS) |
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Term
How does NO act in paracrine signaling? |
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Definition
increases activity of second messenger cGMP in smooth muscle cells, which cause cell muscle relaxation and blood vessel dilation |
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Term
What are 3 types of signaling molecules? |
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Definition
1) peptides 2) neurotransmitters 3) eicosanoids |
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Term
What is autocrine signaling? |
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Definition
cells respond to signaling molecules that they themselves produce |
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Term
What is paracrine signaling? |
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Definition
signaling molecule acting locally to regulate the behavior of a nearby cell |
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Term
Where do eicosanoids come from and what do they bind to? |
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Definition
synthesized from arachidonic acid and bind to cell surface receptors |
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Term
What members are part of eicosanoids? |
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Definition
prostaglandins, prostacyclin, thromboxanes and leukotrienes |
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Term
What are 3 general classes of intracellular signaling molecules? |
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Definition
1) GPCR 2) RTK 3) cytokine receptors |
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Term
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Definition
1) alpha subunit regulates G protein activity; at rest, GDP is bound to the alpha subunit in a complex with beta and gamma 2) G protein transmits a cell surface signal to an effector 3) hormone binding stimulates release of GDP in exchange for GTP; alpha-GTP dissociates from beta and gamma and interacts with target to activate response |
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Term
How does tyrosine kinase receptor work? |
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Definition
binding of a signaling molecule triggers receptor dimerization and autophosphorylation; downstream signaling molecules with SH2 domain bind to phosphotyrosine-containing peptides with activated receptor; imatinib mesylate binds to ATP-binding domain and prevents downstream signaling. |
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Term
What do cytokine receptors stimulate? |
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Definition
intracellular protein tyrosine kinases, which are not intrinsic components of the receptor |
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Term
What are the 2 classes of cytokine receptor-associated tyrosine kinases? |
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Definition
1) Src family 2) JAK family |
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Term
Describe the cAMP pathway. |
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Definition
1) ligand binds to cell receptor 2) adenylyl cyclase, activated by GTP bound-alpha G protein, forms cAMP from ATP 3) cAMP binds to PKA and releases catalytic subunits 4) cAMP is degraded by cAMP dependent phosphodiesterase 5) activated catalytic subunit translocates into nucleus and phosphorylates transcription factor CREB bound to CRE 6) specific gene expression occurs |
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Term
Describe the phospholipase-Ca pathway. |
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Definition
1) signaling molecule binds and activates the protein kinase domains of a dimerized receptor 2) PLC-gamma contains SH domain that mediates its association with activated receptor protein tyrosine kinases 3) PLC-gamma catalyzes hydrolysis of PIP2 to produce DAG and IP3 4) DAG activates PKC 5) IP3 signals release of Ca from intracellular storage sites |
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Term
Describe the NF-kB transcription factor pathway. |
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Definition
1) NF-kB associates with inhibitory subunit I-kB to form an inactive complex present in cytoplasm 2) PKC is stimulated and I-kB is phosphorylated to undergo phosphorylation-dependent degradation after ubiquitinzation 3) removal of I-kB uncovers the nuclear localization sites of the NF-kB heterodimer that translocates into the nucleus and regulates gene expression |
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Term
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Definition
protein serine and threonine kinases activated by growth factors and other signaling molecules |
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Term
Describe the ERK-MAP kinase pathway. |
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Definition
1) ligand binding to a growth factor receptor activates Ras which interacts with Raf protein kinase 2) Raf phosphorylates and activates MEK which activates ERK by phosphorylation of tyrosine and threonine residues 3) activated ERK translocates into nucleus where it phosphorylates Elk-1 4) activated Elk-1 binds to SRE forming a complex with SRF 5) gene induction |
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Term
Describe the JAK-STAT dimer pathway |
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Definition
1) ligand binding to a cytokine receptor leads to attachment of the inactive transcription factor STAT to receptor-associated JAK protein tyrosine kinase via their SH2 domains 2) phosphorylated STAT dimerizes 3) phosphorylated STAT dimer translocates to the nucleus where it activates transcription of target genes |
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Term
Describe keratinocytes of the stratum spinsoum. |
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Definition
replaced by those of stratum basale, flattened polygonal shape with distinct ovoid nucleus, lamellar bodies and tonofibrils present |
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Term
Describe keratinocytes of stratum granulosum. |
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Definition
lamellar bodies are more numerous, product of keratinocytes (filaggrin) induce aggregation of keratins |
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Term
Describe keratinocytes of stratum lucidum/corneum. |
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Definition
keratinocytes have no nuclei and cytoplasm contain IF of keratin cross-linked with filaggrin, cell flattens |
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Term
What are the targets of autoantibodies causing blisters? |
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Definition
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