Lecture 6+7: Muscle Physiology

Question 1

steps in neuromuscular transmission?

Answer 1

1. AP at neuromuscular junction
2. Ca+ release
3. myosin and actin interaction
4. muscle contraction
5. Ca+ removed
6. Relaxation

Question 2

the neuromuscular junction is what type of synapse?

Answer 2

Chemical

Question 2

opening of ACh receptors results in what?

Answer 2

end plate potential (EPP)

Question 2

each vesicle release of ACh causes a miniature _____

Answer 2

miniature EPP

Question 3

what effect does end plate potential cause

Answer 3

EPP depolarizes the membrane and initiates APs

Question 3

the summation of multiple miniature EPPs produces an _____

Answer 3

EPP

Question 4

EPP is a _______ localized to the motor end plate

Answer 4

EPP is a GRADED POTENTIAL

Question 5

what does EPP magnitude depend on

Answer 5

the amount of and duration of ACh at the end plate

Question 6

what factors affect the magnitude of the EPP

Answer 6

• voltage gated Ca+ channel function
• amount of ACh released
• rate of ACh breakdown
• Ach receptor agonists and antagonists

Question 7

site of Calcium storage inside the muscle

Answer 7

Sarcoplasmic reticulum (SR)
- Ca is released for contraction

Question 8

what does tropomyosin (Tm) do

Answer 8

tropomyosin inhibits the binding of myosin to actin

Question 9

what does Troponin (Tn) do

Answer 9

Troponin is a Calcium sensitive molecular switch
— the presence of Ca causes troponin to interact with tropomyosin and make binding sites for the myosin heads available

Question 10

what is the role of calcium in the regulation of myosin binding to actin

Answer 10

Ca binding to troponin complex allows for the repositioning of the tropomyosin filament, this repositioning exposes the mysoin binding sites on actin molecules

Question 11

The sliding of actin along the myosin filament results in the _____ of the sarcomere

Answer 11

shortening (contraction)

Question 12

what are the steps in neuromuscular transmission?

Answer 12

1. An AP arrives in the presynaptic motorneuron axon terminal
2. opening of voltage-gated Ca+ channels & entry of Ca into axon terminal
3. release of ACh from synaptic vesicles into the synaptic cleft
4. ACh diffuses into sarcolemma
5. ACh binds to its receptors on the motor end plate within the sarcolemma, increasing the conductance of the motor plate for Na and K, resulting in an EPP
6. Depolarization of the muscle membrane adjacent to the motor end plate reaches threshold & opens voltage-gated channels that initiate an AP on the sarcolemma
7. degradation of acetylcholine by acetylcholinesterase (AChE)

Question 13

what is a myosin molecule (thick filament) composed of

Answer 13

two proteins twisted together forming a tail with two heads (cross-bridge)

A single thick filament consists of many myosin molecules

Question 14

what is an actin (thin filament) in a sarcomere composed of

Answer 14

3 types of proteins: actin, tropomyosin, troponin

Question 15

the power stroke of myosin results in filament sliding and muscle _____

Answer 15

contraction

Question 16

what is the role of Ca in muscle contraction?

Answer 16

1. AP arrives at axon terminal of motorneuron
   - opening of voltage gated Ca channels and entry of Ca into axon terminal
   - release of ACh into synaptic cleft
2. Upon activation, Ca is released for contraction
   - membrane depolarization opens L-type Ca channels
3. Mechanical coupling b/w L-type Ca channel and the Ca release channel causes Ca release channels to open
4. Ca leaves the SR via the Ca releasing channel and activated troponin
   
   • Ca binding to troponin complex causes the physical repositioning of the tropomyosin filament, which exposes the myosin binding site on actin molecules

Question 17

what removes Ca from the ICF back into the SR and why does this happen

Answer 17

the sarcoplasmic reticulum Ca+ ATPase (SERCA pump)

this occurs for the purpose of relaxation / to prepare for the next contraction

Question 18

how is Ca removed from ICF to the ECF

Answer 18

by sarcolemmal Ca+ ATPase and a Ca/Na exchanger

Question 19

the Ca/Na exchanger is an example of 2ndary active transport because….

Answer 19

it uses the gradient for Na to

Question 20

an action potential travels through the entire sarcolemma and into the ______

Answer 20

transverse (T) tubules

Question 21

when Ca is released into muscle fiber, it causes a ______ of the T-tubules

Answer 21

depolarization

Question 22

what are cardiac muscle fibers interconnected by

Answer 22

intercalated discs and form functional syncytium

Question 23

what are the two kinds of membrane junctions found within intercalated discs

Answer 23

Desmosomes
- mechanical junctions
Gap junctions
- electrical junctions which allow the spread of AP

Question 24

where does Ca+ come from in cardiac muscle

Answer 24

the SR and the outside (via L-type Ca+ channels)

Question 25

there is a decrease in contractile force when the concentration of ____ decreases

Answer 25

calcium

Question 26

what can cytostolic calcium concentrations decrease from

Answer 26

the return of Ca into the SR via the SR Ca ATPase (SERCA)

Question 27

where is smooth muscle found?

Answer 27

in the walls of organs and tubes

• arteries and veins
• trachea and bronchioles
• GI tract
• uterus, bladder

Question 28

type of muscle that lacks T tubules and has poorly developed SR

Answer 28

smooth muscle

Question 29

what are the types of smooth muscle

Answer 29

MULTIUNIT (Neurogenic)
- electrically isolated, can contract independently

SINGLE UNIT (UNITARY/VISCERAL)
- have gap junctions b/w cells (= functional syncytium)

VASCULAR SM
- combination of unitary and multiunit SM

Question 30

where multiunit SM is found

Answer 30

eye, skin hair follicles, large blood vessels, small airway, vas deferens

Question 31

where single unit (unitary) SM is found

Answer 31

GI tract, bladder, small blood vessels, uterus and ureter

Question 32

what types of filaments are in SM

Answer 32

thick myosin filaments are longer in SM than skeletal

Thin actin contains tropomyosin but LACKS troponin

Question 33

What is the purpose of dense bodies

Answer 33

• attachment for actin
• serve the same role as Z discs do in skeletal muscle
• some dense bodies are attached to cell membrane