Excitation-Contraction Coupling

Question 1

What is each myofibril surrounded by

Answer 1

Sarcoplasmic reticulum

Question 2

What is a t-tubule, what does it do

Answer 2

T-tubules are invaginations of the sarcolemma that penetrate the fibre at junctions between the A/I bands in each half sarcomere

Question 3

What is contained in the T-tubules

Answer 3

ECF- extra cellular fluid

Question 4

What is part of the endomembrane system

Answer 4

SR

Question 5

What does t-tubule stand for

Answer 5

Transverse tubule

Question 6

What is contained in a triad

Answer 6

Two SRs about a T-tubule
SR cisterna/ t-tubule/ SR cisterna

Question 7

What is the terminal cisternae and what is its importance

Answer 7

Region of SR nearest to the t-tubule (bulged end)
This is where excitation-contraction coupling begins

Question 8

What causes the AP in postsynaptic cell

Answer 8

Opening of NAChR results in passive EPP where Nav channels open causing AP

Question 9

Where are DHPR found and what is there actual name

Answer 9

L-type Ca channel
Localized to t-tubules

Question 10

Where are RYR found and what are they coupled to

Answer 10

Localized to SR membrane
Mechanically coupled to DHPR

Question 11

Where is Ca released from specifically

Answer 11

Terminal cisterna of SR

Question 12

What is calsequestrin and where is it found

Answer 12

Is a calcium binding protein- reduces SERCA activity by decreasing Ca gradient
Low affinity for Ca- let’s go easily, needs high Ca to work
Found in SR- close proximity to RYR

Question 13

What type of channel is DHPR

Answer 13

Cav1.1 (L-type)

Question 14

What type of RYR channel

Answer 14

RYR1

Question 15

What can summation of twitches produce

Answer 15

Unfused or fused tetanus

Question 16

What is a twitch

Answer 16

Contraction and relaxation of muscle

Question 17

Explain time scale of events neuronal AP to muscle twitch

Answer 17

Neuronal AP- muscle AP- increase intracellular Ca and twitch starts- decreased Ca and twitch ends

Question 18

After end plate potential depolarizes to threshold explain the steps until Ca re-uptake after contraction

Answer 18

1. Voltage gated Na channels open
2. muscle AP spreads over sarcolemma and into T-tubules
3. Muscle AP depolarization opens DHPR (L-type Ca channels)
4. Mechanically coupled DHPR and RYR1 causes RYR1 to open and Ca release from SR
5. Ca bind to TnC, after contraction Ca pumped back into SR by SERCA

Question 19

Explain physical set up on DHPR and RYR

Answer 19

4 Cav1.1 channels for 1 RYR
Every other RYR interacted with

Question 20

How are Cav1.1 and RYR1 physically coupled

Answer 20

Protein-protein interactions
Voltage induced conformational change in DHPR is transduced to RYR

Question 21

What are benefits to physical coupled DHPR and RYR vs Ca-induced Ca release

Answer 21

1. Faster, more efficient- accelerate E-C coupling
2. Don’t have to pump Ca back out of cell (NCX)- this reduces ATP consumption

Question 22

How are Cav1.1 channels grouped

Answer 22

Tetrads (4)
Seen in freeze fractures

Question 23

What is the “foot” a part of and where is it located

Answer 23

Each RYR1 has a foot that extends into cytosol

Question 24

Name specific thing that couples DHPR and RYR1

Answer 24

Specific amino acid residues in II-III linker
Linker interact with RYR1 foot

Question 25

What is Cav1.1 impact on contractility, what study proved this

Answer 25

No impact
Creates inward Ca current but when pore was blocked in mice contraction still fine due to physical coupling

Question 26

What are some Cav1.1 inhibitors and what are they used for

Answer 26

Dihyropyradine blocks channels
(ex. Nifedipine- antihypertensive for blood vessels)- DHP related
(ex. Verapamil- anti arrhythmogenic for cardiac) -not DHP related
Used to manage angina (chest pain), cardiac arrhythmia, high blood pressure, anti-hypertension

Question 27

SERCA function

Answer 27

Pump Ca against large concentration gradient
High density of pumps on SR membrane

Question 28

Is the cost of muscle contraction high or low

Answer 28

High metabolic cost

Question 29

Calsequestrin location and capacity

Answer 29

Within terminal cisternae- highly localized beneath triad junction
Has high capacity for Ca binding but low affinity

Question 30

How does calsequestrin aid in E-C coupling

Answer 30

Unloads Ca near RYR1 therefore allowing for SR Ca release

Question 31

Where does Ca bind for muscle contraction and how many

Answer 31

4 Ca bind to TnC- causes conformation change in TnI
2 high affinity binding sites that bind Mg2+ at rest
2 low affinity bind as Ca concentration rises
Also EF hands available- when Ca very low or very high

Question 32

What is moved to expose myosin binding site on actin

Answer 32

Tropomyosin

Question 33

Function TnT, TnI, TnC

Answer 33

TnT- binds tropomyosin
TnI- binds actin
TnC- binds Ca

Question 34

Force vs Ca concentration graph shape and 50%

Answer 34

Sigmoidal shape
Start 0.1 microM
50% max force at 1microM
Contractile force is Ca dependent