Advanced muscle physiology

Question 1

What is a muscle fascicle?

Answer 1

Bundle of skeletal muscle fibres, which are subdivided into myofibrils

Question 2

What are myofibrils spilt into?

Answer 2

Sarcomeres that are made are myofilaments

Question 3

What forms the Z-line in muscle?

Answer 3

Alpha activin

Question 4

What are the 2 key proteins between the z lines?

Answer 4

Actin (thin)

Myosin (thick)

Question 5

What does the muscle contraction dependant on?

Answer 5

The overlap between the actin and the myosin

Question 6

What is the ‘cross bridge theory’?

Answer 6

‘The tension in a muscle is dependant on the area of overlap between the actin and myosin’

The greater the overlap –> the greater cross-bridges can form –> the greater the degree of contraction

Question 7

What happens to the Z bands as the muscle contracts?

Answer 7

They become CLOSER together

Question 8

What does the neuronal potential cause in the muscle when it arrives?

Answer 8

• Generation of an action potential in the muscle
• Leads to the activation of voltage gated Ca2+ channel –> increase in intra cellular Ca2+
• Ca2+ is critical in the sliding myofilament hypothesis –> causes contraction

Question 9

What is the site of the neuronal action potential –> muscle action potential?

Answer 9

In the NEUROMUSCULAR JUNCTION

Question 10

What is the neuromuscular junction?

Answer 10

A muscle cell and an un-myelinated neuron

Question 11

What is a motor unit?

Answer 11

ONE motor neuron and the muscle FIBRES its innervate

Question 12

What is the difference between fine control and gross control of muscle contraction

Answer 12

Fine - one motor neuron innervate a small number of fibres

Gross - one motor neuron innervate a large number of fibres

Question 13

How many motor units are in an individual muscle?

Why is this advantageous?

Answer 13

MANY motor units

The more motor units a muscle has –> the more fine control –> the bigger range in the degree of muscle

Question 14

What neurotransmitter is critical for the normal function of the NMJ?

Answer 14

Ach

Question 15

What ion channels are involved in the action potential in the NMJ?

What do these channels mediate?

Answer 15

Nav - mediate depolarisation of the AP

Kv - mediates the repolarisation of the AP

Cav - mediates the increase in intracellular Ca2+ which drives the FUSION of the vesicles containing Ach to the presynaptic membrane

Question 16

What are the Cav channels activated by?

Answer 16

Depolarisation of the neuron

Question 17

What does Ach released into the synaptic cleft (from the motor neuron) do?

What does this cause?

Answer 17

Bind to NICOTINIC Ach receptors on the post synaptic membrane (muscle fibre)

• Causing depolarisation of the muscle fibre membrane and the activation of Nav
• Activates Cav
• Leads to the influx of Ca2+ into the muscle fibre
• -> muscle contraction

Question 18

What is the length of a skeletal action potential?

What is this the same as?

Answer 18

1-2ms

Same as the neuronal action potential

Question 19

Describe the action potential in the skeletal muscle

Answer 19

• Activation of Nav –> increase in permeability of the membrane to Na+
• -> Drives the membrane potential to Ena (+60mV)
• Muscle fibre to threshold –> activates Kv channels
• -> Drives the membrane potential to Ek (-90mV)
• Re polarisation of the membrane due the closure of Nav channels and the opening of Kv channels

Question 20

What conductance measured in?

Answer 20

Mili Siemens/cm^2

Question 21

What increases the conductance of a channel?

Answer 21

The more ions that move through the channel

Question 22

What does depolarisation activate?

Answer 22

1) Opening of the Nav channels
2) Closure of the Nav channels (slower)
3) Inactivation of the Nav channels (slower)
4) Activation of the Kv channels (slower)

Question 23

What are the 2 forms of the AchR?

Answer 23

1) Nicotinic

2) Muscarinic (GPCR)

Question 24

What is the nicotinic AchR?

Answer 24

A non-selective CATION CHANNEL

Permeable for: Na+, Ca2+, K+

Question 25

What is the Nerst potential for the nicotinic AchR?

Answer 25

~0mV

Question 26

What happens when the nicotinc AchR channel is open?

Answer 26

Drives the membrane potential to 0

Question 27

Is activation of the nicotinic AchR alone enough to cause an action potential?

Answer 27

NO - it is only a trigger for Nav, which causes the depolarisation of the membrane

Question 28

What is the structure of the nicotinic AchR?

Answer 28

• 4 different types of subunit
• 5 subunits need to come together to make a functional channel (pentameric)
• Each subunit has 4 transmembrane spanning domains
• N and C are EXTRACELLULAR
• 2 binding sites for Ach

Question 29

What subunits must come together to make a functional channel?

Answer 29

MUST have 2 x alpha subunits

With a variety of other subunits

Question 30

Why can there be many different types of nicotinic AchR?

Answer 30

Variety of subunits can come together with 2 x alpha subunits to make MANY different channels with different structures

Question 31

How many genes code for different alpha subunits?

What are they?

Answer 31

9 different genes (9 different subunits)

CHRNA1 - CHRNA9

Question 32

Which alpha subunit(s) are found in the skeletal muscle?

Answer 32

CHRNA1

Question 33

Which alpha subunit(s) are found in the neuronal tissue?

Answer 33

CHRNA2 - CHRNA8

Question 34

How many genes code for different beta subunits?

What are they?

Answer 34

4 different genes (4 different subunits)

CHRNA1 - CHRNA4

Question 35

Which beta subunit(s) are found in the skeletal muscle?

Answer 35

CHRNA1

Question 36

Which beta subunit(s) are found in the neuronal tissue?

Answer 36

CHRNA 2-4

Question 37

What do the properties of the AchR depend upon?

Answer 37

Depend upon the subunits that come together

Question 38

How many molecules of AchR are needed to bind to the nicotinic receptor in order for it to open?

Answer 38

2

Question 39

What is Myasthenia gravis?

Answer 39

AUTOIMMUNE dIsease of the NMJ

Question 40

What is the background behind Myasthenia gravis?

Answer 40

• Antibodies target the A1B1 AchR on the postsynaptic membrane of the NMJ
• Bind and block this receptor –> leading to DEGRADATION of the AchR
• Less likely to get an action potential and muscle contraction

Question 41

What are the symptoms of Myasthenia gravis?

What can these symptoms lead to?

Answer 41

• Skeletal muscle weakness and tiredness

- Can lead to RESPIRATORY FALIURE

Question 42

What are 6 treatments for Myasthenia gravis?

Answer 42

1) Acetycholinesterase inhibitors
2) Immunosupressants
3) Plasmapheresis
4) Corticosteroids
5) IV immunogloulins
6) Thymectomy

Question 43

When are acetycholinesterase inhibitors used to treat Myasthenia gravis?

How do they work?

Answer 43

MILD symptoms

• INHIBIT AchE which breaks down Ach in the synaptic cleft
• -> Ach stays around for as long as possible to maximise the activation of the nicotinic AchR

Question 44

What is an example of an AchE inhibitor?

Answer 44

Pyridostigmine

Question 45

How do immunosuppressants treat Myasthenia gravis?

Example?

Answer 45

Suppress the PRODUCTION of the antibodies against AchR

Cyclosphorin

Question 46

When is plasmapheris used to treat Myasthenia gravis?

How does it work?

Process?

Answer 46

When acute intervention is needed (symptoms are life-threatening)

Removes the antibodies from the plasma

Filtration of the blood using IMMUNOADSORPTION

• Molecules on the filter bind the antibodies by mimicking the AchR
• Reducing antibody levels

Question 47

What are corticosteroids used to treat Myasthenia gravis?

How does it work?

Answer 47

For moderate to serve symptoms

Immunosupressant

Question 48

What are the side effects of corticosterioids?

Answer 48

From suppressing the immune system

Question 49

When are IV immunoglobulins used to treat Myasthenia gravis?

How?

Answer 49

For SEVERE symptoms

• Allows the immunoglobulins in the patients blood to ‘mop up’ the antibodies
• Cannot bind to the AchR

Question 50

What is thymectomy?

Why is this done to treat Myasthenia gravis?

Answer 50

Removal of the thymus

Some patients have tumours here
Remove the thymus - removal of the AchR antibody secreting cells B-cells

Question 51

What happens when AchE inhbitors are injected into mice with antibodies against Ach?

Answer 51

Mice can stand up –> have better motor function

Question 52

What are T-tubules?

What are they important in?

Answer 52

Membrane invaginations in the skeletal/cardiac muscle

Important in:
- AP propagation into myofibrils

• Taking the AP from the muscle fibre membrane to the sarcoplasmic reticulum (deep in the muscle where the Ca2+ is stored)

Question 53

What is a ‘triad’?

Answer 53

T-tubule with the sarcoplasmic reticulum either side

Question 54

What channels sit in the T-tubule membrane?

How do they sit?

Answer 54

L-type voltage gated Ca2+ channels

In an array of 4

Question 55

What happens to the L-type voltage gated Ca2+ channels as the T-tubule membrane depolarises?

What does this allow?

Answer 55

The L-type channels are activated

Causes:
1) Ca2+ FROM the extracellular fluid (contained within the T-tubules) into the cells

2) The opening of the Ryanodine receptors (another type of Ca2+ channel) in the SR

Question 56

How does the activation of the L-type Ca2+ channel cause the opening of the Ryanodine receptor channel?

Answer 56

These channels are coupled together:

• As the L-type channels open –> mechanical process opens the Ryanodine receptors

Question 57

What happens when the Ryanodine receptors in the SR are opened?

Answer 57

Ca2+ from the SR store into the cytosol –> muscle contraction

Question 58

As well as via L-type Ca2+ channels, how else can Ryanodine receptors be activated?

Answer 58

Ca2+ induced release:

• Ca2+ from OUTSIDE the cell activates the Ryanodine receptors
• Leading to Ca2+ release from the store

Question 59

Why must Ca2+ be removed from the muscle following contraction?

Answer 59

To allow the muscle to relax and be able to contract again

Question 60

How is Ca2+ removed from the muscle?

Answer 60

1) Ca2+ ATPase
2) Na+/Ca2+ exchanger
3) Uptake of Ca2+ back int the SR
4) Ca2+ binding proteins in the SR

Question 61

What are the 3 different types of Ca2+ ATPase?

Answer 61

SERCA
PMCA
SPCA

Question 62

How does the Na+/Ca2+ exchanger lower intracellular Ca2+?

Answer 62

1 Ca2+ out for every 3 x Na+ in