Autonomic & NMJ Pharmacology Flashcards

1
Q

What are the nicotinic receptors and where are they?

A

N1 (ganglia)

N2 (NMJ)

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2
Q

What are the muscarinic receptors and where are they?

A

M1 (neronal)

M2 (cacrdiac and presynaptic)

M3 (smooth muscle and glands)

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3
Q

What are the alpha receptors?

A

A1

A2

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4
Q

What are the beta receptors?

A

B1

B2

B3

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5
Q

What receptors are ionotropic?

A

Nicotinic

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6
Q

What receptors use G proteins?

A

All of them apart from nicotinic, which is ionotropic

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7
Q

What receptors do most drugs not distinguish between?

A

Sub classes of:

muscarinic

alpha

beta

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8
Q

What is the typical process of synaptic transmission?

A
  1. Synthesis and packaging of neurotransmitter into synsynaptic terminal
  2. Na+ action potential invades terminal
  3. Depolarise and activates voltage gated Ca2+ channels
  4. Triggers Ca+ dependent exocytosis of vesicles of transmitter
  5. Transmitter difuses across synaptic cleft and binds to receptor to provide a post synaptic response
  6. Presynaptic autoreceptors inhibit further transmitter release
  7. Transmiter is inactivated by uptake into glia or neurones
  8. Transmitter is metabolised within cells
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9
Q

What are potential sites of action for pharmacology of the NMJ?

A

Inhibit choline transporter

Block voltage gated Ca2+ channels

Block vesicle fusion

Non polarising nicotinic receptor blocker

Depolarising nicotinic receptor blocker

Prolong the action potential

Block acetylcholinesterase

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10
Q

What are some clinical applications of pharmacolgy at the NMJ?

A

Non polarising or depolarising blockers used for paralysis during surgery, electroconvulsive therapy or controlling spasms in tetanus

Botulinum toxin used for treating muscle spasms or cosmetic procedures

Anti cholinesterase used for treating myasthenic syndrome, reversing action of non depolarising blocker or countering botulinum poison

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11
Q

Where could pharmacology of the ANS be at?

A

Ganglionic transmission

Post ganglionic sympathetic transmission

Post ganglionic parasympathetic transmission

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12
Q

What are potential sites of action for ganglionic transmission?

A

Inhibit choline transporter

Block voltage gated Ca2+ channels

Block vesicle fusion

Block aceylcholine activated channel

Non depolarising nicotinic receptor blockers

Deploarising nicotinic receptor blocker

Activate nicotinic receptors

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13
Q

What are potential clinical applicaitons of pharmacology of ganglionic transmission?

A

Almost none because the drugs affect both the sympathetic and parasympathetic, and possible th NMJ so there are so many side effects

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14
Q

What are post ganglionic parasympathetic transmission potential sites of action?

A

Muscarinic receptor antagonist

Muscarinic receptor agonist

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15
Q

What are clinical applicaitons of post ganglionic parasympathetic pharmacology?

A

Agonist mimics the effects of the parasympathetic system

Antagonist blocks the effects of the parasympathetic system

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16
Q

What are post ganglionic sympathetic transmission potential sites of aciton?

A

Block the enzyme that produces neurotransmitter

Block the transporter that filles the vesicle with noradrenaline

Introduce a false transmitter

Activate inhibitory presynaptic autoreception

Block A or B postsynaptic receptors

Stimulate noradrenaline release

Inhibit uptake into neurons

Activate postsynaptic receptors

17
Q

What can the inhibition of dopa decarboxylase do?

A

Stop the synthesis of noradrenaline

18
Q
A
19
Q

What are clinical applications of pharmacology of postganglionic sympathetic transmission?

A

A1 agonist used as decongestant and to dilate pupil

A2 agonist used in the treatment of hypertension

B2 agonist used in the treatment of asthma

B1 antagonist used in the treatment of hyper tension