Sarcomere Structure

Question 1

What is the structure of striated muscle?

Answer 1

• Whole muscle is made up of bundles of fascicles
• Each fascicle is made up of a series of fibres
• Each fibre made up of elements called
myofibrils
• Each myofibril made up of repeating units (sarcomeres) consisting of interdigitating filaments (myofilaments)

Question 2

Discuss muscle development

Answer 2

• Myosatellite cells (mesenchymal cells) in each myotome give rise to myoblasts (mononuclear skeletal muscle precursors) , which mature into myocytes (multinucleated cells)
• Myotubes synthesise contractile proteins to form myofilaments
• Myostatin inhibits this process of differentiation

Question 3

Discuss the structure of sarcomere

Answer 3

• Sarcomeres are highly organised within skeletal & cardiac muscle and give a striped appearance – striated muscle
• A sarcomere is the portion of a myofibril that lies between two successive Z disks
• Contractile proteins

Question 4

What contractile proteins are present in sarcomeres?

Answer 4

• Thin filaments (actin protein - 5-8nm dia; 1
μm length)
• Thick filaments (myosin protein - 10nm dia, 1.6 μm length)
• I band (isotropic) represents actin filaments
• A band (anisotropic) represents myosin filaments

Question 5

What are the structural proteins of sarcomere?

Answer 5

• α-actinin
• Titin
• Nebulin
• Dystrophin

Question 6

What role does α-actinin play in sarcomere?

Answer 6

– Part of spectrin family of actin-binding proteins

– Binds end of thin filaments to Z discs

Question 7

What role does titin play in sarcomere?

Answer 7

– largest known protein (approx. 25,000 aa)
– Binds end of thick filaments (M line) to Z discs
– different titin isoforms
- leads to different elasticity of different muscle types

Question 8

What role does nebulin play in sarcomere?

Answer 8

– actin-binding protein which is localized to the I-
band
– large protein (600-900 kDa) and binds as many as 200 actin monomers
– thin filament “ruler” and regulates thin filament length during sarcomere assembly

Question 9

What role does dystrophin play in sarcomere?

Answer 9

– Large protein associated with Z disks

– Helps align Z disks with disks in adjacent myofibrils

Question 10

What is present in the I band of a sarcomere?

Answer 10

thin filaments only

Question 11

What is present in the H zone of a sarcomere?

Answer 11

thick filaments only

Question 12

What is present in the M line of a sarcomere?

Answer 12

thick filaments linked with accessory proteins

Question 13

What is present in the outer edge of the A band of a sarcomere?

Answer 13

thick and thin filaments overlap

Question 14

What are thin filaments in sarcomere made of?

Answer 14

• Thin filaments consist of 3 proteins
– Actin
– Tropomyosin
– Troponin

Question 15

What is the structure of thin filaments in sarcomere?

Answer 15

• Backbone is double-stranded α-helical polymer of actin molecules (F-actin)
• Tropomyosin molecules consist of 2 identical α-helices, coil around groove formed by actin

Question 16

What is tropomyosin?

Answer 16

– Regulatory protein

– Overlaps binding sites on actin for myosin and inhibits interaction when in the relaxed state

Question 17

What is troponin?

Answer 17

a heterotrimer
– Troponin T (binds to tropomyosin)
– Troponin I (binds to actin and inhibits contraction
– Troponin C (binds Ca2+)

– Ca2+ binding to troponin regulates skeletal muscle contraction because it moves the tropomyosin away and allows myosin to interact with the actin

Question 18

What does Ca2+ binding to troponin do?

Answer 18

regulates skeletal muscle contraction because it moves the tropomyosin away and allows myosin to interact with the actin

Question 19

What are thick filaments in sarcomere?

Answer 19

• Thick filaments are bipolar assemblies of multiple myosin-II molecules

Question 20

What is myosin-II made of?

Answer 20

• Each myosin-II molecule consists of
– 2 intertwined heavy chains
– 2 regulatory light chains (MLC-2) (regulates ATPase activity of myosin)
– 2 essential light chains (MLC-1) (stabilizes myosin head)
– Structural related to calmodulin siperfamily

Question 21

How does Ca2+ modulate contraction?

Answer 21

through regulatory proteins rather than direct interaction with contractile proteins

Question 22

What occurs to regulatory proteins in cross bridge cycling without Ca2+?

Answer 22

regulatory proteins act to inhibit actin-myosin interactions

Question 23

What role does troponin C play in the initiation of cross bridge cycling?

Answer 23

• Troponin C is key Ca2+ sensitive regulator
– 2 high affinity binding sites (help in binding troponin C to thin filament)
– 2 low affinity binding sites (binding of Ca2+ to these sites brings about conformational change in troponin complex)

Question 24

Describe the initiation of cross bridge cycling

Answer 24

• When [Ca2+]i rises and Ca2+ binds to TnC a conformational change of proteins occurs
• Troponin I moves away from actin filament
• Troponin T pushes tropomyosin away from actin binding site
• As long as Ca2+ is present, multiple cross-bridges cycles can occur and muscle shortens
• When [Ca2+]i falls, Ca2+ dissociates from TnC leading to a reversal of the conformational change

Question 25

What areas of the sarcomere move during contraction?

Answer 25

Both the H zone and I band shorten

Question 26

What first initiates contraction of muscle?

Answer 26

cerebral cortex which acts via α-motor neurons

Question 27

What occurs to motor neurons in the neuromuscular junction?

Answer 27

Motor neurons flattened to form motor endplate

Question 28

What neurotransmitters are used at the motor endplate in contraction?

Answer 28

• Acetylcholine (Ach) released into synaptic cleft
• Ach attaches to Nicotinic Ach receptors (nAchR)
• Acetylcholinesterase rapidly breaks down Ach in synaptic cleft

Question 29

What propagates an electrical signal from the motor endplate to the muscle?

Answer 29

• Plasma membrane of muscle cells invaginates into muscle cell – transverse tubules that store Ca2+ (T tubules)
• These are highly organised and penetrate muscle at 2 points in each sarcomere at junctions of I and A band

Question 30

How do transverse tubules in muscle propagate an electrical signal?

Answer 30

• Along T tubule length is associated 2 cisternae of sarcoplasmic reticulum
• Sarcoplasmic reticulum acts as storage organelle for [Ca2+]I
• T tubule and 2 cisternae referred to as Triad

Question 31

Describe excitation-contraction coupling

Answer 31

• Action potential from motor end plate propagates along skeletal muscle membrane and down T tubules
• Depolarisation opens voltage gated L- type Ca2+ channels which are clustered in groups of 4 (tetrads)
• Conformational change in DHP receptor activates Ca2+-release channel.
• Increase in [Ca2+]I leads to activation of troponin C and cross-bridge cycling

Question 32

How is contraction of muscles terminated?

Answer 32

• Ca2+ must be removed from the cytoplasm for contraction to cease and relaxation to occur
• Minor
    – Na-Ca exchanger (NCX)
    – Ca pump at plasma membrane (PMCA)
• Major
    – Ca reuptake into SR by SERCA-type
Ca pump

So basically calcium is taken from the cytoplasm and stored in the sarcoplasmic reticulum

Question 33

What proteins store Ca in the sarcoplasmic reticulum and where are they found?

Answer 33

• Calsequestrin and calreticulin are major Ca-binding proteins in skeletal muscle
• Located predominantly at triad junction

Question 34

What defines the borders of a sarcomere?

Answer 34

The distance from one Z disc to another Z disc.

Question 35

What is the functional unit of skeletal muscle?

Answer 35

A sarcomere

Question 36

What gives myofibril a striated appearance?

Answer 36

The repeating sarcomere structure

Question 37

Describe the structure and origin of the thin filaments in a sarcomere?

Answer 37

There are an actin protein that originates at the Z band/disc and then grow out into the anisotropic (A) band

Question 38

What is the anisotropic band developed by in sarcomere structure?

Answer 38

The thick filament (myosin)

Question 39

What are the thick filaments attached to?

Answer 39

The M band

Question 40

Where can the M band be found in a sarcomere?

Answer 40

In the H band in the centre of the sarcomere

Question 41

What does the tropomyosin do on actin?

Answer 41

Prevents the action of myosin on actin

Question 42

How does calcium get from the sarcoplasmic reticulum to the myofibrils in skeletal muscle?

Answer 42

After an action potential propagates down transverse (T) tubules calcium is released by membrane channel proteins into T tubules at a triad (two SR cisternae + T tubule) which then enter the sarcomere at the junctions of the A and I bands

Question 43

What are L-type Ca2+ channels also called?

Answer 43

• L-type Ca2+ channel also called dihydropyridine (DHP) receptor as blocked by this class of antihypertensive drugs

Question 44

What is the Ca2+-release channel also called?

Answer 44

• Ca2+-release channel also called ryanodine receptor as blocked by plant alkaloids ryanodine and caffeine