exam 1 lecture 5 muscle metabolism

Question 1

The equilibrium potential for A+ is +50 mV, the concentration inside of the cell is 10 mM, and the concentration outside of the cell is 100 mM. 
The equilibrium potential for B+ is -100 mV, the concentration inside of the cell is 130 mM, and the concentration outside of the cell is 7 mM.  
The resting membrane potential for the cell is -70 mV 

Q: The cell is at rest and then a ligand gated A+ channel opens. Which way will the A+ ions move? 

Answer 1

into the cell

Question 2

HYPP impressive syndrome

Answer 2

mutation in Na channel.

Na allowed to enter cell, causing depolarization and action potential of the muscle- leads to trembling, weakness and collapse

triggered by stress and made worse by hyperkalemia (too much potassium)

Question 3

how does hyperkalemia make HYPP worse?

Answer 3

too much potassium outside of cell

gradient between inside and outside less, potassium will not want to move out of cell as quickly, action potential will be slower to repolarize

Question 4

what is rigor mortis?

Answer 4

no ATP available so cross bridges cant let go of the actin, muscle stays contracted

Question 5

Myasthenia Gravis is in an autoimmune disease that attacks nAChRs in the NMJ of skeletal muscle.

What symptoms might you expect to see?

What do you think could be some potential mechanisms/targets for a treatment?

Answer 5

nicotinic cholingeric receptor → binds to ACh and lets K and Na into and out of cell

if this doesn’t work action potential does not start in muscle= no contraction

increase amount of ACh, decrease the amount of acetylcholinesterase

Question 6

how to test for myathenia gravis

Answer 6

myathenia gravis is when nicotinic cholinergic receptors don’t work correctly

Tensilon (edrophonium chloride) – an acetylcholinesterase inhibitor which blocks acetylcholine breakdown in the NMJ

• Accumulated ACh prolongs muscle stimulation and so increases muscle strength temporarily
• Oral form (pyridostigmine) is used for long term treatment.

Question 7

___ is the mechanical response resulting from a single action potential

Answer 7

muscle twitch

Question 8

the speed of a muscle twitch differs depending on muscle fiber type and ___

Answer 8

load

Question 9

How do Ca²⁺ levels change during the different phases of a twitch?

Answer 9

latent period: action potential moving across sarcolemma and down T tubules, getting ready to release Calcium

contraction: calcium released

relaxation: calcium taken back up into the SR

Question 10

___ the muscle length is unchanged during contraction

Answer 10

isometric (carrying beer)

Question 11

___ is when the muscle changes length under a constant load during contraction

Answer 11

isotonic

can be concentric or eccentric

Question 12

___ is when the muscle shortens during contraction

Answer 12

concentric

type of isotonic contraction

(bicep curl, bring beer to your face)

Question 13

___ is when muscle lengthens during contraction

Answer 13

eccentric

type of isotonic contraction

lowering beer to the ground

Question 14

why no plateau?

Answer 14

muscle not strong enough the lift 20 g thing, can not contract, will stay the same size (isometric contraction)

Question 15

The force generated in muscle fibers depends on the number of exposed myosin binding sites on actin and the number of active ___

Answer 15

crossbridges

Question 16

How do you think a muscle cell can increase the number of crossbridges?

Answer 16

increase the speed at which calcium is taken up into the SR so that the calcium is then ready to be used again to bind to troponin, move tropomyosin and allow myosin to bind to actin

Question 17

explain how frequency of stimulation from a twitch generates force

Answer 17

the twitch will build on to each other until all fibers are filled (tetanus)

additive effect of increased stimulation rate

Question 18

larger diameter fibers have more ___ which leads to more cross bridges and more force-generating capacity

Answer 18

myofibrils

Question 19

Hypertrophy

Answer 19

increasing the diameter of the muscle cell by increasing the number of myofibrils

Question 20

hyperplasia

Answer 20

increasing the number of muscle cells. Not Common

Question 21

total number of skeletal muscle cells is fixed during development by ___

Answer 21

myostatin

Question 22

inactivating of myostatin examples

Answer 22

mightly mice and double muscling in belgian blue bulls

Question 23

active tension

Answer 23

Due to contractile interaction between actin and myosin

cross bridging, changes in fiber length

Question 24

passive tension

Answer 24

due to “other” elastic elements

• Series elastic component- tendons and titan (stretchy bits)
• Parallel elastic component (plasma membrane and connective tissue-over the entire fiber)

Question 25

length-tension relationship

Answer 25

•Sarcomere length (pre-stimulus) affects the possible number of cross bridges

if too stretched or squished cant reach 100% of its strength

Question 26

how can we increase the distance a muscle can shorten

Answer 26

increase the number of sarcomeres

•As we increase the length of the fiber by adding sarcomeres, a given stretch or shortening from the rest length will be distributed over a greater number of sarcomeres.

makes each sarcomere work less for the same amount of distance- smaller change in the length of each sarcomere

Question 27

what does this show

Answer 27

longer fibers have more sarcomere so they have a larger range at which they can work at 100% because the work is divided into a bunch of sarcomeres

a shorter fiber would have to work much harder to get the same distance

Question 28

Is There A Disadvantage To Having Long Fibers?

Answer 28

Yes: Increasing the number of sarcomeres in series does not increase the maximum tension, but it does increase the amount of energy required.

Question 29

increasing the muscle fiber width vs length will do what?

Answer 29

width= makes it stronger

length= makes it easier to contract longer distance. can contract more.

Question 30

Magnitude of the load: The load on the muscle influences the ___of the crossbridge cycle

Answer 30

kinetics

heavier load= takes longer to shorten

Question 31

longer muscle fibers have ___ shortening ranges and ___ shortening rates

Answer 31

larger

faster

Can contract more because it has more sarcomeres, faster at contracting then smaller muscle fibers

Question 32

v_s of 1 fiber = (v_s of 1 sarcomere) x (# of sarcomeres in series)

what does this show

Answer 32

muscle fiber length determines how far it can shorten and how fast it shortens.

longer muscle fibers shorten faster and shorten more then shorter muscle fibers

Question 33

•Velocity of contraction is dependent on the rate of myosin ___activity

Answer 33

ATPase

how fast ATP can hydrolyzed into ADP and Pi

Question 34

Fast twitch muscles are quicker to remove ___ from the sarcoplasm and energy is more quickly available in fast twist

Answer 34

calcium

Question 35

how does creatine phosphate act as an energy source for contraction?

Answer 35

creatine phosphate → creatine + ATP

ATP is released during the dephosphorylation of creatine phosphate into creatine

reversible reaction dependent of creatine kinase (happens in the intermembrane space of the mitochondria)

Question 36

muscle cells store glycogen which can be broken down into __

Answer 36

glucose-6-phosphate → pyruvate

skeletal muscle lacks glucose-6-phosphatase can’t move glucose-6-phosphate → glucose

Question 37

skeletal muscle lacks glucose-6-phosphatase. What does this mean

Answer 37

can’t move glucose-6-phosphate → glucose

glycogen in skeletal muscle does not contribute to blood sugar, needs the glucose for itself.

Question 38

how do muscle cells get glucose into the cell?

Answer 38

insulin receptors activate glucose transports onto cell membrane and bring glucose in.

also exercise causes contractions which also brings glucose transports onto cell membrane and bring glucose in

Question 39

during prolonged exercise how do muscle cells get energy

Answer 39

fatty acids in blood or stored triglycerides

provided much more ATP per molecule than glucose

Question 40

oxygen debt

Answer 40

body needs oxygen to return things to normal- this is why we are out of breath after exercise

–Pools of creatine phosphate and glycogen need to be replenished

–Any lactate accumulated from anaerobic metabolism needs to be metabolized

–Interstitial oxygen levels need to be rebalanced to normal levels

Question 41

why do muscle fatigue?

Answer 41

energy reserve depletion

buildup of metabolic waste- lactate- decrease pH

reduced blood flow during strong contractions

neuromuscular fatigue- ACh runs out

Calcium uptake slower, decreased sensitivity to actin by myosin decreasing the number of cross bridges

Question 42

•Basis for skeletal muscle classification are maximum velocity of ___ and primary pathway utilized to garner ___

Answer 42

contraction (different isomers of ATPase go faster)

ATP

Question 43

fast twitch would use what for ATP?

Answer 43

aerobic- oxidative phosphylation- lot more ATP, but slower

anaerobic- glycolysis, not as much ATP, but faster

Question 44

slow twitch fibers get ATP by??

Answer 44

aerobic- oxidative phosphylation- lot more ATP, but slower

anaerobic- glycolysis, not as much ATP, but faster

Question 45

what are the major skeletal muscle fiber types

Answer 45

–Slow oxidative (I)

–Fast oxidative-glycolytic (IIA)

–Fast glycolytic (IIB)

–Other fiber types do exist (IIX)

Question 46

maximum velocity of contraction of a muscle is dependent on the rate of ___ activity

Answer 46

myosin ATPase

Question 47

•Glycolytic fibers primarily utilize ___ to generate ATP

Answer 47

glycolysis

Question 48

•Oxidative fibers primarily utilize ___ to generate ATP

Answer 48

oxidative phosphorylation

Question 49

what are some structural/compositional differences that you might expect to see between the glycolytic and oxidative fiber types?

Answer 49

oxidative: more mitochondria, fibers are smaller in diameter- increases accessibility to blood. myoglobin (makes fibers appear darker)

glycolytic: larger stores of glycogen, larger in diameter

Question 50

with training, we can alter the primary mode of ___ production in a muscle fiber

Answer 50

ATP

oxidative phosphorylation to glycolytic

Question 51

can a muscle change from fast to slow twitch with training?

Answer 51

no

can’t change isomer of myosin a cell has.

a fiber can have both but can’t start making new isomer