Term
Major differences among myosin isoenzymes |
|
Definition
intrinsic ATPase activity |
|
|
Term
What is the myosin tail responsible for? |
|
Definition
The assembly of myosin molecules into thick flaments |
|
|
Term
How do thick filaments assemble? |
|
Definition
tail-to-tail in the center, and head-to-tail from then on. thus no heads project from the center. they are then staggered within the bundle and arranged as a helix. |
|
|
Term
How many actins can a single myosin filament interact with? |
|
Definition
|
|
Term
What is meant by actin-activated myosin ATPase activity? |
|
Definition
when actin and myosin binding occures, the atpase activity of myosin increases dramatically. |
|
|
Term
How are the thick filaments linked together in the center of the A band? |
|
Definition
the M line protein, myomesin |
|
|
Term
How is the thick filament tehered to the Z line? |
|
Definition
the elastic protein, titin (acts as a spring) |
|
|
Term
How do the thin filaments insert into the Z line? |
|
Definition
|
|
Term
What is the working distance of a crossbridge? |
|
Definition
100 angstroms, thus repeated cycling is necessary to account for all shortening |
|
|
Term
What is the motion of a crossbridge? |
|
Definition
|
|
Term
What does the sliding filament mechanism of contraction predict? |
|
Definition
the degree of actin and myosin filament overlap will determine the force developed upon stimulation |
|
|
Term
|
Definition
The optimum length for force production |
|
|
Term
What is the long, rod-shaped molecule that lies in the goove formed by the helix of the actin filament? |
|
Definition
|
|
Term
What are the three subunits of troponin? |
|
Definition
TnT: site of attachment of troponin to tropomyosin TnI: inhibits actin activation of myosin ATPase TnC: calcium binding site |
|
|
Term
How does calcium initiate contraction in skeletal muscle? |
|
Definition
reverses the inhibitory effect of the troponin-tropomyosin complex |
|
|
Term
What is the function of T-tubules? |
|
Definition
extension of the sarcolemma, provides a pathway for the conduction of electrical signals deep into the muscle fiber to the sarcoplasmic reticulm. the t-tubules encircle each myofibril |
|
|
Term
What is the terminal cisternae? |
|
Definition
part of the SR which store and release calcium |
|
|
Term
What are longitudinal tubules? |
|
Definition
part of the SR, the membranes of which contain a Ca++ ATPase for the reuptake of calcium from the cytoplasm into the SR. |
|
|
Term
Where is the SR in relation to myofibrils and T-tubules? |
|
Definition
The SR encircles each myofibril. the T-tubules which are continuous with the sarcolemma, surround each SR-shrouded myofibril. |
|
|
Term
What is the triad in skeletal muscle? |
|
Definition
the anatomic site of coupling of excitation at the t-tubule with the release of calcium from the SR in skeletal muscle. consists of the T-tubule and its two neighboring terminal cisternae. |
|
|
Term
What does functional interaction between the t-tubules and the SR involve? |
|
Definition
dihydropyridine receptors in the T-tubules and the ryanodine receptors in the terminal cisternae of the SR. |
|
|
Term
What is the dihydropyridine receptor? |
|
Definition
a voltage-sensor protein in the t-tubule membrane that controls the permeability of Ca++ release channels (ryanodine receptors in the SR) |
|
|
Term
Why isn't the force response of skeletal muscle after a single stimulus not maximal? |
|
Definition
the free calcium and clacium bound to troponin begins to decrease much beore peak force is reached |
|
|
Term
What causes the slow rise in force and sub-maximal force output? |
|
Definition
the troponin-tropmyosin complex undergoes conformation change before crossbridges can attach to actin, crossbridges attach to actin and then undergo the conformational change to a force generating state, series elastic elements need to yield, calcium actively pumped back into the SR. |
|
|
Term
How can force production by skeletal mucles be graded? |
|
Definition
varying the frequency of stimulation, the number of motor units simultaneously activated, and the size of motor units simultaneously activated |
|
|
Term
|
Definition
the mechanical response to a single stimulus consisting of a period of force development and relaxation |
|
|
Term
What is summation of force? |
|
Definition
occurs if a muscle is stimulated repetitively so that the second stimulus is applied before the muscle has relaxed |
|
|
Term
|
Definition
the maximum force the muscle can produce, fully activated. |
|
|
Term
What percentage of tetanus force is a twitch in general? |
|
Definition
|
|
Term
The maximum frequency at which a membrane can be excited is set by what? |
|
Definition
the duration of its refractory period |
|
|
Term
Why can't cardiac muscles be tetanized? |
|
Definition
electrical and mechanical events follow similar, overlapping time courses (unlike skeltal and smooth where they are are temporally separate); so the refractory period of the sarcolemma persists until the muscle has nearly completely relaxed. |
|
|
Term
|
Definition
the increase in the number of motor neurons firing and activating multiple motor units. |
|
|
Term
How are the t-tubules arranged in cardiac muscle? |
|
Definition
diads- one cistern and a t-tubule) |
|
|
Term
In a cardiac ventricular fiber, when does calcium enter? |
|
Definition
during the plateau phase of an action potential |
|
|
Term
How is cacium induced contraction different in cardiac muscle compared to skeletal? |
|
Definition
in cardiac there is trigger calcium that enters during the action potential and activator calcium which is derived from the SR. in skeletal mucle contraction depends entirely on Ca++ released from the SR |
|
|
Term
How does calcium enter the myoplasm? |
|
Definition
through L-type channels in the sarcolemma and T-tubules. dihydropyridine receptors associated with them mediate a small influx of Ca++ |
|
|
Term
What is Calcium-induced-Calcium-Relase? |
|
Definition
the calcium that entered during the action potential binds to the SR calcium release channels (RyRy2) triggering their opening, allowing the release of a much larger amount of caclium into the myoplasm which is sufficient to activate contraction. |
|
|
Term
How do changes in the duration of the action potential affect cardiac muscle? |
|
Definition
affect the strength of the subsequent beat. |
|
|
Term
How is calcium removed from cardiac muscles? |
|
Definition
primarily by the SR Ca++ATPase on the longitudinal tubules of the SR; also the Na+/Ca++ exchanger and the Ca++ ATPase on the sarcolemma |
|
|
Term
|
Definition
an integral SR membrane phosphopreotein, phosphorylation of it stimulates Ca++ transport. acts on the SR-Ca-ATPase pump |
|
|
Term
What are two factors that can modulate the contractile state of the heart on a beat-to-beat basis? |
|
Definition
length changes that increase the force of contraction at a given calcium concentration, mechanisms by which calcium increases or decreases the magnitude and rate of force production at a given muscle length. |
|
|
Term
What can increase calcium sensitivity in cardiac muscle? |
|
Definition
Increasing muscle lengths from lengths < Lo, brings it closer to the ideal conformation for force production |
|
|
Term
What are two determinants of contractility in cardiac muscle? |
|
Definition
the availability of calcium to the myofilaments, the regulatory processes that control actin-myosin interaction |
|
|
Term
What are three factors that affect the availability of calcium to the myofilaments? |
|
Definition
time course of the action potential, extracellular [Ca], frequency of stimulation |
|
|
Term
What does thyroid hormone do to muscles? |
|
Definition
Alters the kinetics of the crossbridge cycle, resulting in a positive inotropic action |
|
|
Term
How is intracellular calcium modulated in cardiac muscle? |
|
Definition
cyclic AMP typically following Beta1 receptor activation |
|
|
Term
What are the sites of phosphorylation resulting from beta 1 adrenergic stimulation? |
|
Definition
voltage dependent ca channels increasing their open time, RyR2 receptors increasing open time, phospholamban causing an increase in teh rate of reuptake of calcium, troponin I leading to a decreased sensitivity to Ca++ and an increased rate of dissociation (increased relaxation) |
|
|
Term
What are the functional consequences of stimulation of autonomic sympathetic nerves to the heart? |
|
Definition
increased rate and magnitude of force production, and increased rate of relaxation |
|
|
Term
How does parasympathetic stimulation on the heart work? |
|
Definition
can block sympathetic effects by limiting production of cAMP and activation of protein kinase A |
|
|
Term
|
Definition
slack length, or the muscle length at which passive force is just detectable. maximum length that a resting muscle will assume
|
|
|
Term
What is the foce observed on stretching a resting muscle due to? |
|
Definition
passive elastic elements (no crossbridges attached) |
|
|
Term
What is an important source of passive tension? |
|
Definition
titin, will resist stretch when muscle is extended. there are a larger porportion of stiff components in cardiac titin so it is more resistant to stretch. |
|
|
Term
At long muscle lengths, what is the force due to? |
|
Definition
passive and active, but active force actually decreases because filament overlap decreases. |
|
|
Term
|
Definition
the maximum active force produced at Lo |
|
|
Term
What is the range as a percent of Lo that skeletal muscle can produce force? |
|
Definition
|
|
Term
What function does the high passive force have in cardiac muscle? |
|
Definition
it prevents over-distention during filling, the muscle performs on the ascending line of its active-force curve |
|
|
Term
|
Definition
a state where no atp, adp or pi is bound to myosin |
|
|
Term
What is the most important ATP recovery reaction? |
|
Definition
phospocreatine + adp -> atp + creatine |
|
|
Term
What is the myokinase recovery reaction? |
|
Definition
|
|
Term
What reaction is catalyzed by adenylate deaminase? |
|
Definition
|
|
Term
How long does it take for glycolysis to be turned on? Oxidative phosphorylation? |
|
Definition
|
|
Term
What is the fatigue associated with high intensity exercise usually due to? |
|
Definition
a large build up of lactate and an associated fall in pH |
|
|
Term
|
Definition
force times velocity= work/time |
|
|
Term
When is power output maximum? |
|
Definition
|
|
Term
What is energy used for during crossbridge cycling? |
|
Definition
70% in cycle, 30% in calcium pump |
|
|
Term
What force can a muscle resist? |
|
Definition
|
|
Term
What are the characteristics of a slow twitch muscle? |
|
Definition
type I, very high oxidative enzyme content (red), good for continuous activities |
|
|
Term
What are the characteristics of slow twitch muscles? |
|
Definition
Type IIx, high glycolytic enzyme content (white), large cross section, rapid fatique, spurt activities. |
|
|
Term
What is muscle hypertrophy? |
|
Definition
an increase in the amount of contractile material, a result of an increase in size and subsequent splitting of myofibrils. this results in an increase int he overall diameter of the mucle fiber, but maintains the close spatial relationship between the Sr and the contractile proteins. |
|
|
Term
What muscles selectively hypertrophy? |
|
Definition
|
|
Term
What happens if a muscle is denervated? |
|
Definition
Ach receptors spread over the entire muscle membrane and the muscle tries to catch another motor nerve and form a new neuromuscular junction |
|
|
Term
What do actin filaments of smooth muscle insert into? |
|
Definition
dense bodies which are connected by intermediate filaments |
|
|
Term
What does smooth muscle have instead of T-tubules? |
|
Definition
surface couplings which link the plasma membrane to adjacent elements of the SR |
|
|
Term
What is tonic contractile activity? |
|
Definition
sustained contractile responses, characteristic of multi-unit smooth muscles. |
|
|
Term
what is phasic contractile activity? |
|
Definition
twitch-like contractions which are ideal for propulsion. characteristic of single-unit smooth muscles. |
|
|
Term
What happens upon depolarization n single-unit smooth muscle? |
|
Definition
opens voltage operated Ca2+ channels to trigger contraction (also CICR from RyR receptors in the SR) |
|
|
Term
How do multi-unit smooth muscles behave in response to autonomic nerve stimulation? |
|
Definition
show graded depolarization, binding of neurotransmitter to a cell membrane receptor results in the opening of receptor-operated channels, resulting in ion fluxes, depolarization and CICR |
|
|
Term
What happens with pharmacomechanical coupling? |
|
Definition
agonists iteract with plasma membrane receptors leading to the production of the second messentger inositol triphosphate which causes the release of calcium from the SR |
|
|
Term
|
Definition
calcium activated K+ channel, which causes repolarization following excitation via VOCC |
|
|
Term
|
Definition
store operated calcium channels, respond to decreased calcium in the SR to allow ion entry |
|
|
Term
What determines the amplitude of depolarization in smooth muscle? |
|
Definition
the quantity of transmitter interacting with the receptors whihc is determined by the number of nerves activated as well as their firing frequency |
|
|
Term
How does electrical activity spread in single-unit smooth muscle? |
|
Definition
|
|
Term
What two types of electrical activity occur in single unit smooth muslces? |
|
Definition
slow waves and action potentials. |
|
|
Term
Where do slow waves initiate? |
|
Definition
Interstitial cells of cajal |
|
|
Term
How can a slow wave lead to a muscle contration? |
|
Definition
if the peak amplitude of the slow wave occurring in the muscle reaches the excitation threshold, actions potentials are generated and the muscel contracts, magnitude is dependent on the frequency of action potentials. |
|
|
Term
What type of cell produces an active contractile response after a large stretch? |
|
Definition
phasic, single-unit smooth muscle |
|
|
Term
What does the gastric slow wave consist of? |
|
Definition
an initial spike like depolarization phase based on Na/Ca conductances followed by a plateau phase based on Ca and K conductances. |
|
|
Term
What triggers contraction in a gastric slow wave? |
|
Definition
inward Ca conducatance, graded depolarization, not an action potential |
|
|
Term
What happens in the distal stomach to give rise to contractons? |
|
Definition
action potentials are superimposed upon slow waves so both include calcium currents that give rise to contractions. |
|
|
Term
Why is the force production of smooth muscle about equal to that of skeletal muscle even though the myosin content is much smaller? |
|
Definition
myosin filaments of smooth muscles are longer putting more crossbridges in parallel, the crossbridge cycle is slower so they are attached for a longer period of time. |
|
|
Term
How much can smooth muscles shorten? |
|
Definition
|
|
Term
How is smooth muscle myosin activated? |
|
Definition
phosphoylation at myosin regulatory light chain |
|
|
Term
How does calcium lead to myosin activation? |
|
Definition
4 ca bind calmodulin. this associates with the tail region of myosin light chain kinase which phosphorylates the regulatory light chain of myosin. |
|
|
Term
what deactivates the myosin? |
|
Definition
myosin phosphatase dephosphoylates the light chain |
|
|
Term
What reduces phosphatase activity? |
|
Definition
phosphorylation of mypt1 and an inhibitory protein cpi-17; additionally inhibited in response to actiationof protein kinase C and RhoA-activated kinase. |
|
|
Term
What can mediate smooth muscle relaxation? How? |
|
Definition
elevation of cAMP or cGMP dependent kinases. both target Ca signal pathway and reduce cellular ca concentration |
|
|
Term
How does epinephrine affect smooth muscle? |
|
Definition
Binds beta adrenergic receptor and mediates activation of adenylyl cyclase which forms cAMP, which activates cAMP dependent kinase |
|
|
Term
How do Ach and NO affect smooth muscle? |
|
Definition
activates guanylyl cyclase and prodcues cGMP |
|
|
Term
By what 3 pathways do cAK and cGK block both Ca influx and release? |
|
Definition
1 activate BKca that induces hyperpholarization and inhibits VOC (outward channel) 2 phos phospholamban which activates SR Ca ATPase 3 phos IRAG wich inhibits IP3R and blocks Ca release from SR |
|
|
Term
What do inhibitors of phosphodiesterase do? |
|
Definition
increase cellular cyclic nucleotide level and induce smooth muscle relaxation |
|
|
Term
What are the neurotransmitters primarily responsible for the ascending contraction in the gut? |
|
Definition
Ach, substance P (tachykinin) also serotonin |
|
|
Term
What neurotransmitters are primarily responsible for the descending relaxation in the gut? |
|
Definition
|
|
Term
Which part of the gut exhibits tonic or sustained contraction? |
|
Definition
sphincters, the proximal stomach, and the gall bladder |
|
|
Term
What is the normal contractive pattern of the alimentary tract? |
|
Definition
propagated contractions or peristalsis |
|
|
Term
What is the normal motility pattern of the small intestine and colon? |
|
Definition
segmental contractions (localized for mixing contents), peristalsis also seen |
|
|
Term
What is the submucosal enteric nerve plexus? |
|
Definition
|
|
Term
What eneric nerve plexus is located between the circular and longitudinal muscular layers in the gut? |
|
Definition
|
|
Term
Why does each smooth muscle not need to be innervated in the gut? |
|
Definition
axons have varicosities with neurotransmitter-containing vesicles (no specialized neuromuscular junctions), gap junctions in between |
|
|
Term
What inhibits gastric slow waves from reaching the threshold for depolarization? |
|
Definition
|
|
Term
What physical feature are slow waves believed to be generated by? What is the evidence for this? |
|
Definition
an oscillating electrogenic sodium pump inhibited by ouabain |
|
|
Term
What is the speed of slow waves in the stomach? the duodenum? the illeum? the colon? |
|
Definition
3/min 11/min 8/min 3-6/min |
|
|
Term
What would happen if there were no neural input to the gut? |
|
Definition
each myogenic slow wave would activate muscle contraction |
|
|
Term
What is the difference between primary and secondary peristalsis in the esophagus? |
|
Definition
primary is peristalsis induced by a swallow, secondaryis initiated by esophageal distension in the absence of a swallow and is important in clearing the esophagus of material refluxed up from the stomach |
|
|
Term
What is the main function of the lower esophageal sphinctor? |
|
Definition
to prevent the reflux of gastric contents into the esophagus, must relax during swallowing to allow the passage of ingested material from the esophagus into the stomach |
|
|
Term
What are common factors changing lower esophageal pressure? |
|
Definition
high protein meals increase high fat meals, alcohol, chocolate, and peppermint decrease high progesterone (as during pregnancy or with birth control) decreases |
|
|
Term
What is the effect of parasympathetic and sympathetic stimulation to the lower esophageal sphintor? |
|
Definition
parasympathetic- both excitatory and inhibitory sympathetic- increase LES pressure |
|
|
Term
|
Definition
sensation of food getting stuck, a symptom of esophageal disfunction |
|
|
Term
|
Definition
incomplete LES relaxation with swallows and aperistalsis of the esophageal body. lead to the impairment of esophageal emptying. primarily due to the loss of intrinsic inhibitory innervation of the LES |
|
|
Term
What is diffuse esophageal spasm? |
|
Definition
contractions in the esophageal body that are simultaneous rather than peristaltic, can cause dysphagia or chest pain |
|
|
Term
What is scleroderma esophagus? |
|
Definition
a dramatic decrease in the resting LES tone, lack of propulsive force in the smooth muscle portion of the esophagus |
|
|
Term
In what part of the stomach does the majority of mixing occur? |
|
Definition
|
|
Term
What is the migrating myoelectric complex (MMC)? |
|
Definition
in the fasting state, the antrum is quiescent for 1-2 hours followed by a short period of intense electrical and mechanical activity tht lasts for 10-20 minutes. this activity is characterized by strong contractions of the antrum with a relaxed pylorus. serves a housekeeping function. this pattern of cyclical contractile acticity is knows as MMC. |
|
|
Term
Where is the pacemaker region of the stomach? |
|
Definition
on the greater curvature near the middle of the body |
|
|
Term
What stimulates gastic contractility? How? |
|
Definition
Ach and gastrin increase the amplitude and duration of the plateau phase of the gastric slow wave. |
|
|
Term
What decreases the frequency of the gastric slow wave? |
|
Definition
secretin, norepinephrine and neurotensin |
|
|
Term
What are four factors that cause slowing of gastric emptying? |
|
Definition
duodenal acidification, presence of fatty acids in the duodenum and jejunum, hypertonicity of duodenal contents, presence of peptides and amino aids in the duodenum |
|
|
Term
What is released in response to the presence of acid in the duodenum? What does it do? |
|
Definition
secretin diminishes the gastric emptying rate by inhibiting antral contractions, stimulating contraction of the pyloric sphincter, and stimulating the output of the bicrabonate-rich secretions of the panreas and liver. |
|
|
Term
What hormones cause contraction of the pyloric sphinctor? |
|
Definition
CCK, gastrin, GIP, and secretin |
|
|
Term
What is the intestinointestinal reflex? |
|
Definition
overextension of one region relaxes the rest |
|
|
Term
What is the ileogastric reflex? |
|
Definition
inhibition of gastric emptying by nutrients in ileum |
|
|
Term
What is the gastroileal reflex? |
|
Definition
increased gastric secretory and motor activity increases ileal empyting through the ileocecal valve |
|
|
Term
What are the three phases of the MMC? |
|
Definition
I- the quiescent phase is characterized by slow waves with very few action potentials and very few contractions II- characterized by irregular action potentials and contractions and gradually increase in intensity and frequency III- a period of intense electrical and contractile activity lasting 3-6 minutes (sweeps small intestine clean and empties its contents into the cecum, inhibits migration of colonic bacteria into the distal illeum) |
|
|
Term
How can hyperthyroidism cause diarrhea? |
|
Definition
the slow wave frequency is increased causing rapid transit |
|
|
Term
What is chronic idiopathic intestinal pseudo-obstruction? |
|
Definition
a rare disorder of GI tract motility characterized by symptoms of severe intestinal obstruction and grossly dilated loops of intesting in the absence of mechanical obstruction |
|
|
Term
What are the three contraction patterns of the colon? |
|
Definition
mixing, haustral, mass movements |
|
|
Term
What is the colonocolonic reflex? |
|
Definition
When distension of one part of the colon elicits reflex relaxation of other parts of the colon |
|
|
Term
What is the gastrocolic reflex? |
|
Definition
when the motility of proximal and distal colon and the frequency of mass movements increase after the entry of food in the stomach |
|
|
Term
What reflex occurs upon filling of the rectum? |
|
Definition
relaxation of the internal anal sphictor and contraction of the external anal sphintor; produces the urge to defecate and protects continence |
|
|
Term
What is Hirshprung's disease? |
|
Definition
congenital absence of enteric neurons and tonic contraction of the colonic circular muscle that lead to obstruction of the colon |
|
|
Term
|
Definition
stimulates gastric acid secretion, stomach emptying and increases mucosal growth. it is stimulated by feeding, gastric distension, and digested protein. |
|
|
Term
What does cholecystokinin (CCK) do? |
|
Definition
stimulates pancreatic enzyme secretion and synergizes with secretin to enhance HCO3- secrection. it is stimulated by digested proteins and fats, and also decreases stomach emptying and gallbladder contraction |
|
|
Term
|
Definition
stimulates pancreatic H2O and HCO3- secretion from the pancreas and liver and can potentiate CCK activity, stimulated by digested fats and low pH. also decreases acid secretion and emptying of the stomach |
|
|
Term
What is saliva made up of? |
|
Definition
lysozyme, lactoferrin, secretory IgA, alpha-amylase, lingual lipase, mucins |
|
|
Term
What regulates salivary gland secretion? |
|
Definition
parasympathetic nervous stimulation releasing Ach |
|
|
Term
|
Definition
epithelial invaginations composed of several secretory cell types that can accommodate increased secretory requirements. |
|
|
Term
How do the striated and exretory ducts modify the composition of the primary saliva secretion? |
|
Definition
Na and Cl removed, K and HCO3 levels increase; becomes more hypotonic and basic relative to the plasma |
|
|
Term
What is the funciton of HCl in the stomach? |
|
Definition
activates pepsinogen to pepsin and is bacericidal |
|
|
Term
What is the function of pepsin in the stomach? |
|
Definition
protease that functions optimally at pH 3 and initiates digestion of proteins. can degrade the mucous gel that coats the surface of the stomach |
|
|
Term
|
Definition
mucous tetrames (monomers crosslinked by disulfide bonds) which protect the stomach lining from mechanical and chemical damage. |
|
|
Term
What is intrinsic factor? |
|
Definition
binding protein that is absolutely required for absorption of vitamin B12 by ileal mucosa. |
|
|
Term
What is the oxyntic glandular region of the stomach? |
|
Definition
comprises the upper 80% of the stomach and is the site of acid secretion. |
|
|
Term
What is the pyloric glandular region of the stomach? |
|
Definition
in the antrum, although predominantly made up of mucous cells, it is the location of the G cells that secrete gastrin |
|
|
Term
What is necessary for acid production? |
|
Definition
H+K+ ATPase and carbonic anhydrase in the tubulovesicular membrane of the parietal cell |
|
|
Term
What stimulates pareital cells to secrete acid? What happens after stimulation? |
|
Definition
gastrin, Ach, histamine the tubulovesicles fuse with the intracellular canaliculus which greatly expands the apical membrane surface of the cell. also causes the release of intrinsic factor |
|
|
Term
What reaction produces the H+ in parietal cells? |
|
Definition
CO2+H2O -> H2CO3 -> H+ + HCO3- mediated by carbonic anhydrase |
|
|
Term
|
Definition
irreversible inhibitor of the H+ K+ATPase, thus blocking H+ ion transport. |
|
|
Term
What is histomine released from? How can it be blocked? |
|
Definition
enterochromaffin cells H2 antagonists like cimetidine |
|
|
Term
What blocks Ach release in the stomach? |
|
Definition
muscarinic antagonist like atropine |
|
|
Term
What blocks gastrin release? |
|
Definition
somatostatin and increased concentrations of H+ |
|
|
Term
What stimulates pepsinogen secretion by chief cells? |
|
Definition
vagal activation and the release of Ach. acid activates the enteric nervous system reflexes |
|
|
Term
What are the 3 phases of gastric secretion? |
|
Definition
cephalic, gastric, intestinal |
|
|
Term
What happens during the cephalic phase of gastric secretion. |
|
Definition
vagal nerves stimulated by sensory perception of food. releases ach which can stimulate parietal and gastrin releasing peptide |
|
|
Term
What happens during the gastric phase of gastic secretion? |
|
Definition
when most acid secretion occurs, when food frst enters the stomach it neutralizes the stomach acid, allows gastrin release by different effectors. induced by presence of food in the stomach |
|
|
Term
What happens during the intestinal phase of gastric secretion? |
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Definition
acid secretion stimulated by the presence of protein digests in duodenum, a region rich in gastrin-producing G cells. |
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Term
What are the proteases in pancreatic juice and what are they activated by? |
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Definition
trypsinogen - enterokinase or trypsin chymotrypsin- trypsin procarboxypeptidase - trypsin |
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Term
What does trypsin inhibitor do? |
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Definition
prevents activation of trypsinogen within the pancreas |
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Term
How is HCO3- moved into the lumen from the pancreas? |
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Definition
exchanged for Cl-, Na+ moved in as a counter ion, this creates an osmotic gradient moving water in as well |
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Term
What does the ion composition of pancreatic juice depend on? |
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Definition
secretion rate: active pancreas -> Na+/HCO3- predominate resting pancreas -> NaCl predominates |
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Term
What inhbits HCO3 secretion? What stimulates it? |
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Definition
inhibit -> somatostatin, glucagon, pancreatic peptide stimulate: secretin |
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Term
What is critical micellar concentration? |
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Definition
the concentration when the molecules aggregate, the hydrophobic regions interacting with each other and the hydrophilic regions interacting with water |
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Term
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Definition
bile acids phospholipids (lecithins) cholesterol bile pigments inorganic ions (Na, K Ca, Cl, HCO3) |
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Term
What regulates bile secretion? |
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Definition
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Term
How is bile released from the gall bladder? |
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Definition
igested food stimulates CCK secretion, CCK casuses gall bladder contraction and the opening of the sphincter of oddi which allows the contents of the gall bladder to be emptied into the duodenum |
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Term
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Definition
usually due to cholesterol present in bile in greater quantities than can be solubilized in the bile acid-phospholipid mixed micelles. bile pigment stones are formed from the calcium slat of unconjugated bilirubin. |
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Term
How are bile acids recycled? |
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Definition
absorbed in the distal ileum and travel in portal blood to the liver and taken up by hepatocytes |
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Term
Where are calcium and iron preferentially absorbed? |
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Definition
duodenum and proximal jejunum |
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Term
How are glucose and galactose absorbed into the epithelial cell? How does it leave? |
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Definition
a sodium dependent cotransport system (SGLT1) leaves through GLUT2 |
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Term
How is fructose transported into the epithelial cell? |
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Definition
facilitated diffusion via the GLUT5 carrier protein |
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Term
Which amino acids do not depend on sodium for uptake? |
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Definition
hydrophobic neutral and basic |
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Term
How are phospholipids hydrolyzed? What is the product of this? |
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Definition
phopholipase A2 lysophosphatides |
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Term
Where are folic acid and B12 absorbed? |
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Definition
folic acid -> active in the duodenum and jejunum B12 -> complexed with intrinsic factor is taken up in the brush border of the ileum |
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Term
What is the number of sodium channels in the large intestine regulated by? |
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Definition
aldosterone (increases during sodium deprivation) |
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Term
What form of free iron is most readily absorbed? What assists this absorption? |
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Definition
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Term
How is Fe++ transported into the cell from the brush border? |
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Definition
binds to mobilferrin which moves the iron to the basolateral membrane where it is transferred to the protein transferrin. then it is released to the extracellular fluid |
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Term
How is heme iron taken up? |
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Definition
enters the epithelial cell via facilitated diffusion and heme oxygenase removes the iron. then binds mobilferrin |
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Term
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Definition
prevents excess absorption of iron. iron bound to ferritin is not available for transport into the basolateral space. eventually is lost in the lumen and then the feces |
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Term
How is calcium absorbed? What assists its absorption? |
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Definition
moves down its electrochemical gradient through calcium channels into the cell. then bound to calbindin or CaBP. extruded into the basolateral space by a ca-dependent atpase and the na/ca exchanger. some transported through the cell in vesicles which fuse with the basolateral membrane and relesa the calcium into the basolateral space. vitamin D stimulates ca absorption by intestinal epithelial cells |
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Term
What cells secrete solute and water into the intestine/ |
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Definition
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Term
What is secretory diarrhea? |
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Definition
toxin binds to the secreting cells in the small intestine and increase the permeability of the luminal wall to chloride. water osmotically drawn into intestine |
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Term
What is osmotic diarrhea? |
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Definition
occurs when there is some substance in the intestine which is not absorbed and which exerts an osmotic force to keep fluid in the intestine. can also result from ingestion of a large quantity of poorly absorbed salts such as mgso4 (epsom salts) |
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Term
What are nicotinic receptors? |
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Definition
ligand gated ion channels located on the membrane of the postganglionic neurons for both the PNS and SNS |
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Term
What are adrenergic receptors? |
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Definition
located on the membrane of cells/organs innervated by postganglionic sympathetic neruons. activated by epinephrine |
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Term
What are muscarinic receptors? |
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Definition
located on the membrane of cells/organs innervated by postganglionic parasympathetic nerons and in the sweat glands, which are innervated by the pregangionic sympathetic neurons. respond to Ach |
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Term
What is the effect of epinephrine on blood vessels? |
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Definition
epinephrine has a higher affinity for the beta 2 receptors but there are more alpha receptors. thus at low concentration epinephrine activates the beta receptors and causes dilation while at high concentration it binds more alpha receptors and the net effect is constriction |
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Term
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Definition
located at the neuromuscular junction, its activation generates the end plate current and is responsble for skeletal muscle contraction |
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Term
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Definition
located on the membrane of the postganglionic neurons, its activation generates the postsynaptic current and action potentials in the postganglionic neuron |
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Term
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Definition
found in autonomic ganglia. its activation produces slow espss which can modulate the fast EPSPs generated by the N2-R |
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Term
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Definition
found in the heart. activates K channels through the G protein betagamma subunits. primary functions are reduction of heart rate, reduction of action potential duration, decreased conduction velocity and reduced contraction |
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Term
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Definition
found in smooth muscle and secretory glands, its activation causes smooth muscle contraction and increases secretion of secretory glands |
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Term
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Definition
found primarily on the membrane of the target organs. its activation results in contraction of vascular smooth muscle, and relaxation of intestinal smooth muscle. |
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Term
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Definition
found on the membrane of the presynaptic neurons. its activation by NE serves as a negative feedback mechanism to reduce transmitter release though the inhibition of voltage gated Ca channels |
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Term
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Definition
found primarily in the heart. its activation increases the heart rate, conduction velocity and contraction |
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Term
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Definition
found in smooth muscle. its activation causes relaxation |
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Term
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Definition
found in adipose tissue. its activation is responsible for regulation of metabolism such as glycogenolysis |
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Term
What are four types of cholinergic synapses? |
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Definition
postganglionic nerves and sweat glands sympathetic and parasympathetic gaglion cells autonomic preganglionic nerves and adrenal medulla motor end plates on skeletal muscles |
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Term
Name four sites where nicotinic receptors occur |
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Definition
adrenal medulla neuromuscular junction central nervous system autonomic ganglia |
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Term
What is the most important mechanism for terminating the activity of norepinephrine released from the presynaptic nerve terminal? |
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Definition
reuptake into the nerve terminal |
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Term
What are the major ions in the ECF? The ICF? |
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Definition
ECF -> Na, Cl, HCO3 ICF -> K, Mg (balanced with proteins and inorganic phosphates) |
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Term
What markers can you use to determine total body water? |
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Definition
D2O, tritiated water, antipyrine |
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Term
What markers can you use to measure extracellular fluid? |
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Definition
sulfate, mannnitol, innulin |
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Term
What marker can you use to measure the plasma fluid? |
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Definition
Radioiodinated serum albumin, Evan's blue |
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Term
What percent of ECF is plasma? interstitial fluid? |
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Definition
plasma 20% interstitial fluid 75% rest is transcellular |
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Term
In an average male, what percent of body weight is total body water? |
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Definition
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Term
What percentage of total body water is ICF? ECF? |
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Definition
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Term
What does adding isotonic saline to the body do? |
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Definition
expands the ECF without affecting the ICF |
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Term
What will infusing hypertonic NaCL do? |
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Definition
net movement of water from ICF to ECF |
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Term
What happens to osmolarity and volume during secretory diarrhea? |
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Definition
osmolarity the same, ECF volume decreases |
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Term
What happens to osmolarity and volume during water deprivation? |
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Definition
ICF and ECF osmolarity increase equally, both lose water volume |
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Term
What is regulatory volume increase? |
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Definition
response to shrinkage, increase in intracellular osmole that draws water into the cell to restore cell volume toward normal |
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Term
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Definition
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Term
What is malignant hyperthermia? |
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Definition
patients have a mutation in the RyR1 such that the opening of the Ca release channel is hypersensitive to certain stimuli, these stimuli include potent inhalation anaesthetics such as halothane and the muslce relaxant succinlycholine, potentially lethal pharmacogenetic disorder |
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Term
How can you save people with malignant hyperthermia? |
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Definition
dantrolene binds to RyR1 and stabilize the ca channel in the closed state. supresses channel dysfunction |
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Term
What are signs of malignant hyperthermia? |
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Definition
strong: muscle rigidity, increased co2, rhabdomyolysis, temp elevation, dark urine non-specific: tachycardia, tachypnea, acidosis, hyperkalemia |
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Term
Summation of force in skeletal muscle is a process that involves what? |
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Definition
the response of the muscle to increased frequency of stimulation |
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Term
If muscle glycogenolysis is impaired, how would that affect long duration, high intensity exercise? |
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Definition
it would be very difficult |
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Term
Potentiation of gastric acid secretion is caused by what? |
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Definition
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Term
What effect does somatostatin have on the exocrine pancreas? |
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Definition
causes it to produce much less NaHCO3 |
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Term
What does bile concentration in the gallbladder depend upon? |
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Definition
the active pumping of ions out of the gallblader and the removal of water down the osmotic gradient |
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Term
How do drugs and toxins that increase the cAMP content of intestinal mucosa cause diarrhea? |
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Definition
increase Cl- secretion into the intestinal lumen |
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Term
Where is water permeability of the paracellular pathway highest? |
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Definition
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Term
Why is fecal fluid Na+ concentration less in osmotic than in secretory diarrhea? |
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Definition
the excess fluid in secretory diarrhea results from water movement associated with active salt secretion |
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Term
How does potassium ion absorption from the intestine occur? |
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Definition
mostly through diffusion down its electrochemical gradient from the lumen to the plasma |
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