Exicatory Contraction Coupling Flashcards
Dantrolene method of action
Inhibits ryanodine receptors in the sarcoplasmic reticulum and blocks the release of calcium
Used to treat malignant hyperthermia that occurs after exposure to succinylcholine; (succinylcholine can cause excessive Ca release from SR causing skeletal muscle contractions, rapid increase in temperature, renal failure)
What happens after skeletal muscle cell is stimulated at the NMJ
AP spreads over surface and down T tubules
Causes DHP receptors to physically alter the state of ryanodine receptors, causing Ca channels to open
Ca diffuses out of SR and binds to troponin
This interaction causes tropomyosin to pull off of binding sites of actin, allowing myosin to bind
Each myosin molecule is associated with _ actin molecules
6
Nebulin
Long molecule which helps align actin
Titan
Large/long elastic protein associated with myosin and anchors it within the sarcomere. Also helps return a stretched sarcomere to its resting length
Dystrophin
Huge protein that connects the muscle cell cytoskeleton including actin to the EC matrix and CT
Works like a shock absorber during contraction
Stabilizes the sarcolemma and prevents contraction induced injury. Without dystrophin- muscle fibers are easily injured
Myosin/Actin interaction process during contraction
Myosin, bound to ADP and Pi, bind the actin site
Pi is released causing myosin head to pull actin past it
ADP is replaced by ATP, causing myosin head to unbind
ATP hydrolyzed, causing the myosin head to recock
Cycle continues until Ca is resequestered into the SR
Peripheral fatigue
Contraction requires the availability of ATP
Central fatigue
Perception of fatigue or loss of motivation possibly brought on by increasing levels of byproducts of contraction such as lactic acid or free hydrogen ion
Force of contraction
Dependent on the starting length of sarcomere
Maximum force can be generated near middle of length extremes, which is where you get most efficient binding of actin/myosin
Force is depended on how fast the fiber is stimulated by nerve
Length-tension dependent force
If sarcomere is very short, the myosin cannot pull the actin very far before it hits the Z-line.
If sarcomere is very long, many myosin heads will have been pulled away from proximity of the actin molecule- bigger H-zone
Stimulation dependent force of contraction
If second twitch is initiated before complete relaxation, the second twitch generates a larger force
The greater the frequency of stimulation, the greater the potential force
Overlap of twitches without complete relaxation is referred to as tetanus
A neuron that innervates more fibers will generate a greater or lesser force than one that innervates fewer fibers
Greater
Actin polymerization and ATP
ATP is not required for polymerization, but it occurs faster when it is present instead of ADP
Rate of actin subunit association/dissociation in relation to monomer concentration
Rate of association is proportional to the concentration of free monomers, while the rate if dissociation is independent of concentration
