Drugs Targeting Nicotinic and Muscarinic Receptors

Question 1

Describe cholinergic receptors

Answer 1

All cholinergic receptors bind ACh for activity
There are different types of cholinergic receptors, they are differentiated by their differing affinities for two agonists: nicotine and muscarine
Nicotinic: nicotinic ganglionic (also nicotinic neuronal) and nicotinic cholinergic (this is part of the somatic nervous system)
Muscarinic: there are at least 5 subtypes of muscarinic receptors and all are GPCRs

Question 2

What happens with depolarization and neuromuscular junctions (NMJs)

Answer 2

Depolarization at the NMJ initiates an action potential, which propagates muscular contraction via nearby voltage gated sodium channels

Question 3

What do depolarizing NMJ blockers do?

Answer 3

Depolarizing neuromuscular blockers (succinylcholine, decamethoium) initially can cause an action potential and propagate muscular contraction. But continued stimulus results in an increase in the resting membrane potential. Over time, continuous stimulation of Nm receptors increases the resting membrane potential resulting in the nearby voltage gated sodium channels becoming refractory and no muscular contraction is propagated

Question 4

How does a non depolarizing neuromuscular block work?

Answer 4

It is caused by competitive antagonism of the Nm receptor (d-tubocurarine and pancuronium)

Question 5

What are the uses of succinylcholine and pancuronium?

Answer 5

Although they work via different mechanism, both are used clinically to induce muscle relaxation during surgery
Succinylcholine is rapidly hydrolyzed by esterase’s to inactive metabolites and is used when it is desirable to have tight control of blockade such as electroconvulsive therapy ECT for refractory depression
Pancuronium is used for muscle relaxation during longer surgery procedures due to its longer duration of action

Question 6

What are examples of Ng selective antagonists?

Answer 6

Trimetaphan
Hexamethonium
Not used clinically anymore due to too many side effects

Question 7

M1 receptors: what type of G alpha protein do they interact with? What are the tissue locations? What are the cellular effects? What are their functions?

Answer 7

They interact with G alpha q proteins
They are in the CNS (cortex, hippocampus), ganglia, parietal cells
They increase IP3 and DAG, they increase intracellular calcium and they decrease potassium outflow. This results in excitation
Functions: CNS excitation (memory), gastric acid secretion, GI motility

Question 8

M2 receptors: what type of G alpha protein do they interact with? What are the tissue locations? What are the cellular effects? What are their functions?

Answer 8

They interact with G alpha i proteins
They are found in the cardiac tissue (atria and conducting tissue) and neural tissue (presynaptic terminals)
They decrease cAMP, intracellular calcium and increase potassium outflow. Results: inhibition
Function: cardiac inhibition, decreased heart rate, decreased force of contraction, presynaptic inhibition and neural inhibition

Question 9

M3 receptors:what type of G alpha protein do they interact with? What are the tissue locations? What are the cellular effects? What are their functions?

Answer 9

They interact with G alpha q proteins
They are found in the smooth muscle and the vascular endothelium
They increase IP3 and DAG, intracellular calcium and decrease potassium outflow. Results: stimulation
Function: smooth muscle contraction

Question 10

Describe the conformational flexibility of acetylcholine

Answer 10

There is significant conformational flexibility in the ACh molecule
It can adopt several conformations, some favour binding to nicotinic while others favour muscarinic receptors
We can make restricted analogues and modify parts of the ACh structure to determine what parts of ACh are important for binding and what conformation ACh adopts when it binds to each receptor

Question 11

Why is ACh rapidly hydrolyzed by AChE?

Answer 11

Internal ion-dipole interaction with ACh increases polarization of carbonyl double bond. This carbonyl is a strong electrophile. At is very susceptible to hydrolysis
This is in part why it is rapidly hydrolyzed by AChE

Question 12

What is the difference between ACh and carbachol?

Answer 12

Delocalized electrons decrease the electrophilic nature of the carbonyl carbon. It resists hydrolysis by ACh

Question 13

What is the difference between ACh and methacholine?

Answer 13

Methyl-group is added as a “steric shield”, which reduces access to carbonyl carbon by nucleophiles. It also streakily inhibits binding to AChE

Question 14

What is methacholine used for?

Answer 14

Used as a test for asthma called methacholine challenge test

Question 15

What is bethanechole used for?

Answer 15

Used to increase urinary output

Often after surgery or in prostatic hypertrophy that does not respond to conventional treatments like tamsulosin

Question 16

What is pilocarpine used for?

Answer 16

Used to treat glaucoma

Given as eye drops in 1 or 2% solutions

Question 17

What configuration of muscarinic agonist has more potency? R or S?

Answer 17

S