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Flashcards in The Neuromuscular Junction Deck (27)
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1
Q

Where is the neuromuscular junction?

A
  • Between a motor neurone and a muscle cell.

- At the neurovascular hilum / nerve entry point of a muscle.

2
Q

What triggers fusion of vesicles with the presynaptic membrane?

A

Ca2+ influx into presynaptic terminal.

3
Q

What is the name of the Ca2+ sensor?

A

Synaptotagmin

4
Q

What is another term for ligand-gated ion channels?

A

Ionotropic channels

5
Q

Give examples of excitatory ionotropic receptors.

A

Glutamate Receptors:

  • AMPA Receptors
  • NMDA Receptors
  • Kainate Receptors

ACh Nicotinic Receptors

6
Q

What do excitatory receptors cause at the postsynaptic membrane?

A

Na+ influx

Excitatory postsynaptic potential (EPSP)

7
Q

What are the specialised features of the postsynaptic membrane?

A

Junctional folds:

  • Allow for high density of nACh receptors - the receptors of the NMJ.
  • Allow for high density of voltage gated of Na+ channels.
8
Q

What are quanta?

A

Packaged vesicles containing neurotransmitters released into a synapse.

9
Q

What is the major amino acid excitatory neurotransmitter?

A

Glutamate

10
Q

What is the major amino acid inhibitory neurotransmitter?

A

GABA

11
Q

Are nicotinic ACh receptors excitatory, inhibitory or both?

A

All nicotinic AChRs are excitatory.

12
Q

Are muscarinic ACh receptors excitatory, inhibitory or both?

A

Muscarinic AChRs can be either excitatory or inhibitory.

13
Q

List 4 monoamine neurotransmitters

A

1 - Adrenaline.

2 - Noradrenaline.

3 - Dopamine.

4 - Serotonin.

14
Q

What is another term for G-protein coupled receptor?

A

Metabotropic

15
Q

What are the two receptor signalling mechanisms?

A

Ionotropic and metabotropic.

16
Q

What do inhibitory receptors cause at the postsynaptic membrane?

A

Cl- influx

Inhibitory post synaptic potential (IPSP)

17
Q

Give 2 examples of inhibitory ionotropic receptors.

A

GABA(a) Receptors

Glycine Receptors

18
Q

What is the end plate potential?

A

The end plate potential initiates an action potential in the muscle. These are 2 different electrical events.

EPP decays as it moves away from the end-plate.

19
Q

What is an end plate?

A

The postsynaptic terminals of the NMJ. So called for large, saucer-like appearance.

20
Q

How does the voltage of an EPP differ from that of most other synaptic potentials?

What causes this?

What is the advantage of this?

A
  • An EPP is much larger than most other synaptic potentials.
  • This is because there are many NAChRs at the NMJ, triggering the opening of many Na+ channels.
  • This ensures that the threshold for AP generation in the muscle is easily passed.
21
Q

What is the function of T tubules?

A

They allow for transmission of AP deep into the muscle fibre (to individual myofibrils)

22
Q

What are the levels of organisation of a muscle?

A

Sarcomere < Myofilament < Myofibril < Myocyte (Fibre) < Fascicle < Muscle

23
Q

When very frequent action potentials are summated, what happens to muscle contraction?

A

Contraction is sustained.

24
Q

What is ACh hydrolysed by in the synaptic cleft?

A

Acetylcholinesterase (AChE)

25
Q

Name a symptom of myesthenia gravis.

A

Muscle weakness during sustained activity.

26
Q

What is the cause of myesthenia gravis?

A

Autoimmune disease of nAChR that causes a reduced number of nAChRs at the NMJ.

27
Q

What is a treatment of myesthenia gravis?

A

AChE inhibitors, e.g. neostigmine.

This will prolong the signal.