week 4 pharmacology on NMJ and ANS Flashcards
what are 5 ways to inhibit transmission of the neuromuscular junction
- inhibit choline transporter
- block voltage gated calcium channels
- block vesicle fusion
- use non-depolarising nicotinic receptor blockers
- use depolarising nicotinic receptor blockers
what is one way to potentiate transmission in the NMJ
- block acetylcholinesterase
what does inhibiting choline transport do in the NMJ
- stops choline being taken up into the pre-synaptic vesicles so it can’t be made into acetylcholine and eventually the terminal will run out of acetylcholine so will block transmission across synapse
what does blocking voltage gated calcium channels do in the NMJ
- will stop calcium coming into the cell and will therefore not allow calcium dependent exocytosis so you won’t get any acetylcholine released and that will block transmission at the junction
what does blocking vesicle fusion do in the NMJ
- vesicles can fuse and so prevents transmitter release and so stops NMJ working
what do non-depolarising nicotinic receptor blockers do in the NMJ
- mimic the action of acetylcholine
- they bind to acetylcholine nicotinic receptors but don’t open the channels
- therefore acetylcholine can bind and it can’t produce its effect and the NMJ will be blocked
what do depolarising nicotinic receptors blockers do in the NMJ
- bind to nicotinic acetylcholine receptors and opens the channel so sodium comes in
- this will fire a few action potentials and depolarise the cell
- but then the cell won’t be able to hyperpolarsie because the voltage gated sodium channels have become inactivated
- so cells stays in the refractory period and you won’t be able to stimulate it again and won’t be able to contract the muscle again
what does blocking acetylcholinesterase do in the NMJ
- acetylcholine will be allowed to accumulate once it is released and allowed to accumulate longer so will activate more receptors and get a big response in the post synaptic membrane (potentiates transmission)
what are non-depolarising or depolarising blockers in the NMJ used for clinically
used for paralysis during:
- surgical procedures
- electroconvulsive therapy
- controlling spasms in tetanus
what is botulinum toxin used for clinically in the NMJ
- treating muscle spasm
- cosmetic procedures (botox)
what is anti-cholinesterase in the NMJ used for clinically
- treating myasthenic syndromes (syndromes where you get muscle weakness)
- reversing action of non-depolarising blockers
- countering botulinum poisoning
what is post-ganglionic parasympathetic transmission
- when acetylcholine binds to muscarinic receptors
what do muscarinic receptor agonists do in the post-ganglionic parasympathetic transmission
- muscarinic receptor agonists will mimic the effect of the parasympathetic system (i.e. slow heart rate)
what do muscarinic receptor antagonists do in the post-ganglionic parasympathetic transmission
- block the effects of the parasympathetic nervous system (e.g. the antagonists will increase heart rate, relax bladder, etc.)
what post ganglionic parasympathetic transmission drug is used in the treatment of glaucoma
- muscarinic agonists are used in the treatment of glaucoma i.e. high intra-ocular pressure
- muscarinic agonists contract the ciliary muscle supporting the lens and contract the sphincter muscle of the pupil
- this increases the drainage of the aqueous humour
