Unit 2 - Autonomics II

Question 1

where are muscarinic M1 cholinoreceptors typically located? what are the results of ligand binding?

Answer 1

• CNS neurons
• sympathetic postganglionic neurons
• some presynaptic sites

form IP3 and DAG –> increased intracellular Ca++ (like M3/5)

Question 2

where are muscarinic M2 cholinoreceptors typically located? what are the results of ligand binding?

Answer 2

• myocardium
• smooth muscle
• some presynaptic sites
• CNS neurons

open K+ channels –> inhibit AC

Question 3

where are muscarinic M3 cholinoreceptors typically located? what are the results of ligand binding?

Answer 3

• exocrine glands
• vessels (smooth muscle and endothelium)
• CNS neurons

form IP3 and DAG –> increased intracellular Ca++ (like M1/5)

Question 4

where are muscarinic M4 cholinoreceptors typically located? what are the results of ligand binding?

Answer 4

• CNS neurons
• possibly vagal nerve endings

open K+ channels –> inhibit AC (like M2)

Question 5

where are muscarinic M5 cholinoreceptors typically located? what are the results of ligand binding?

Answer 5

• vascular endothelium, especially cerebral vessels
• CNS neurons

form IP3 and DAG –> increased intracellular Ca++ (like M3/5)

Question 6

where are muscarinic nicotinic Nn cholinoreceptors typically located? what are the results of ligand binding?

Answer 6

• postganglionic neurons
• some presynaptic cholinergic terminals

opening of Na+/K+ channels, depolarization (same as Nm)

Question 7

where are muscarinic Nm cholinoreceptors typically located? what are the results of ligand binding?

Answer 7

• skeletal muscle
• neuromuscular end plates

opening of Na+/K+ channels, depolarization (same as Nn)

Question 8

for nicotinic receptors, which are at the NMJ and which are at the ganglia?

Answer 8

Nm are at the NMJ

Nn are at the ganglia

Question 9

which are GPCRs and which are ion channels? nicotinic or muscarinic?

Answer 9

nicotinic are ion channels

muscarinic are GPCRs

Question 10

explain the muscarinic receptor mechanism

Answer 10

ACh released from postganglionic parasympathetic terminal causes smooth muscle contraction via M3 receptors, PLC activation, PIP2 hydrolysis, IP3 formation, Ca++ mobilization, and MLCK activation

Question 11

what is pilocarbine?

Answer 11

a nonselective, direct-acting, non-ester muscarinic agonist

Question 12

what happened in M2 -/- and M3 -/- mice when exposed to muscarinic agonist methacholine (MCh)

Answer 12

M2 -/- mice displayed no decrease in HR during vagal stimulation, but had enhanced bronchoconstriction due to loss of prejunctional autoinhibitory function of M2 receptors on vagal efferents to airway smooth muscle

M3 -/- mice displayed no bronchoconstrictor responses to vagal stimuation

Question 13

do muscarinic agonists exhibit selectivity?

Answer 13

no selectivity between the 5 receptor types

-certain antagonists do show selectivity

Question 14

do muscarinic agonists exhibit selectivity?

Answer 14

yes; some show selectivity towards Nn rather than Nm receptors

Question 15

what is the mechanism of direct-acting cholinomimetic agents?

Answer 15

directly bind to and activate muscarinic or nicotinic receptors

Question 16

what is the mechanism of indirect-acting cholinomimetic agents?

Answer 16

produce primary effects by inhibiting action of AChE, to increase the concentration of endogenous ACh in synaptic clefts and neuroeffector junctions

• excess ACh stimultes cholinoceptors to evoke increased responses
• act as amplifiers of endogenous ACh and act where ACh is physiologically released

Question 17

are cholinesterase inhibitors direct-acting or indirect-acting?

Answer 17

some have modest direct action, especially quaternary carbamates (neostigmine activates neuromuscular nicotinic cholinoreceptors in addition to blocking cholinesterase)

Question 18

what are the 2 groups of direct-acting cholinomimetrics?

Answer 18

1. esters of choline (ACh, MCh)

2. non-esters (muscarine and nicotine)

Question 19

what does the structure of choline esters do for its job?

Answer 19

poorly absorbed by CNS b/c of quaternary ammonium group

• addition of beta-methyl group reduces potency at nicotinic receptors (MCh and bethanechol)
• substitution of carbamic acid group causes resistance to hydrolysis (carbachol and bethanechol)

Question 20

what is bethanechol and what is it primarily used for?

Answer 20

it is a carbamic acid ester (direct acting cholinomimetic)

-used for postoperative and neurogenic ileus, and urinary retention

Question 21

are non-choline-ester direct cholinomimetrics absorbed well?

Answer 21

pilocarpine and nicotine are well-absorbed (nicotine through skin)

• muscarine is less well absorbed, but enough to be toxic
• cevimeline is relatively specific for M3 receptors

Question 22

what do direct-acting cholinoceptor stimulants do to the eye?

Answer 22

• sphincter muscle of iris: contraction (miosis)

- ciliary muscle: contraction for near vision or to reduce intraocular pressure (facilitates outflow of aqueous humor)

Question 23

what do direct-acting cholinoceptor stimulants do to the heart?

Answer 23

SA node: decrease in HR (negative chronotropy)
atria: decrease in contractile strength (negative inotopy) and refractory period
AV node: decrease in conduction velocity (negative dromotropy), increase in refractory period
ventricles: small decrease in contractile strength

Question 24

what do direct-acting cholinoceptor stimulants do to the blood vessels?

Answer 24

arteries: dilation (via EDRF - NO), constriction (high-dose direct effect)
veins: dilation (via EDRF - NO), constriction (high-dose effect)

Question 25

what do direct-acting cholinoceptor stimulants do to the lung?

Answer 25

bronchial muscle: contraction (bronchoconstriction)

bronchial glands: stimulation

Question 26

what do direct-acting cholinoceptor stimulants do to the GIT?

Answer 26

motility: increase
sphincters: relaxation
secretion: stimulation

Question 27

what do direct-acting cholinoceptor stimulants do to the urinary bladder?

Answer 27

detrusor: contraction

trigone/sphincter: relaxation

Question 28

what do direct-acting cholinoceptor stimulants do to the glands?

Answer 28

sweat, salivary, lacrimal, and nasopharyngeal: secretion

Question 29

where do indirect-acting cholinomimetics have their primary effect?

Answer 29

at the active site of acetylcholinesterase at cholinergic synapses

Question 30

what is the difference between different indirect-acting cholinomimetics?

Answer 30

chemical and pharmacokinetic differences

-pharmacodynamic properties are identical

Question 31

what are important cholinesterase inhibitors and their structure?

Answer 31

1. neostigmine - ester of carbamic acid, and phenol with quaternary ammonium group
2. pyridostigmine is similar to neostigmine
3. physostigmine - naturally occuring carbamate and tertiary amine
4. edrophonium and donepezil - bind to active site of enzyme (not an ester)
   - donepezil - hydrophobic and readily crosses blood brain barrier

Question 32

what are organophosphate cholinesterase inhibitors? what are they used for?

Answer 32

insecticides

1. isoflurophate
2. Sarin (nerve gas)
3. echothiophate
4. parathion
5. paraoxon

Question 33

compare the rates of:

• normal acetylcholinesterase
• neostigmine and other carbamates (indirect)
• edrophonium (indirect)
• sarin (indirect)

Answer 33

1. makes choline and acetic acid, plus regenerated enzyme in 0.15 msec
2. total 0.5 - 6 hours
3. binding, but no covalent bond, so duration of inhibition depends on metabolism
4. total is 100s of hours due to aging and irreversibility

Question 34

what is pralidoxime and its mechanism?

Answer 34

PAM is strong nucleophile cholinesterase inhibitor that regenerates enzyme (acetylcholinesterase) that has been phosphorylated (aged)

Question 35

what is the condition and response that cholinomimetics have on the eye? do you use direct or indirect drugs?

Answer 35

use both to treat glaucoma

-ciliary muscle contraction and reduced intraocular pressure

Question 36

what is the condition and response that cholinomimetics have on the GIT? do you use direct or indirect drugs?

Answer 36

use both to treat postoperative atony and adynamic ileus

-GI smooth muscle contraction and increased motility

Question 37

what is the condition and response that cholinomimetics have on the urinary tract? do you use direct or indirect drugs?

Answer 37

use both for urinary retention

-bladder smooth muscle contraction and emptying

Question 38

what is the condition and response that cholinomimetics have on the salivary glands? do you use direct or indirect drugs?

Answer 38

use both for xerostomia due to radiation of Sjogren

-increased salivation

Question 39

what is the condition and response that cholinomimetics have on the NMJ? do you use direct or indirect drugs?

Answer 39

use indirect acting drugs for myasthenia gravis and paralysis induced by non-depolarizing NMJ blocker

• ACh in NMJ and increased muscle strength (myasthenia gravis)
• increased ACh and reversal of paralysis (nerve gas)

Question 40

what is the condition and response that cholinomimetics have on the CNS? do you use direct or indirect drugs?

Answer 40

use indirect acting drugs for Alzheimer’s

-increased ACh and possible cognitive enhancement

Question 41

is bethanechol a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 41

direct-acting agonist

• used in postoperative and neurogenic ileus, and urinary retention
• -activates bowel and bladder smooth muscle

Question 42

is neostigmine a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 42

indirect-acting agonist

• used in postoperative and neurogenic ileus and urinary retention (like bethanechol) by amplifying endogenous ACh
• used in myasthenia gravis and reversal of neuromuscular blockade by amplifying endogenous ACh to increase skeletal muscle strength

Question 43

is pilocarpine a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 43

direct-acting drug

• used in glaucoma
• -activates papillary sphincter and ciliary muscles of the eye

Question 44

is pyridostigmine a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 44

indirect-acting

• used in myasthenia gravis and reversal of neuromuscular blockade
• -amplifies endogenous ACh and increases skeletal muscle strength

Question 45

is cevimeline a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 45

direct-acting

-treats dry mouth (xerostomia) by increasing salivation

Question 46

is edrophonium a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 46

indirect-acting

• used in myasthenia gravis and reversal of neuromuscular blockade
• -amplifies endogenous ACh and increases skeletal muscle strength

Question 47

is nicotine (NRT) a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 47

direct-acting agonist

-used to stop smoking by reducing cravings

Question 48

is physostigmine a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 48

indirect-acting agonist

• used in glaucoma (eye has lots of NS and M3 receptors)
• -amplifies effects of ACh

Question 49

is echothiophate a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 49

indirect-acting agonist

• used in glaucoma (eye has lots of NS and M3 receptors)
• -amplifies effects of ACh

Question 50

is donepezil a direct acting or indirect-acting agonist? what are its clinical applications and actions?

Answer 50

indirect-acting agonist

-used in Alzheimer’s by amplifying endogenous ACh in brain

Question 51

what is the structure, use, and approximate duration of action of edrophonium?

Answer 51

alcohol

• myasthenia gravis and ileus
• takes 5-15 minutes

Question 52

what is the structure, use, and approximate duration of action of neostigmine?

Answer 52

carbamate-related

• myasthenia gravis and ileus
• takes 0.5 to 2 hours

Question 53

what is the structure, use, and approximate duration of action of pyridostigmine?

Answer 53

carbamate-related

• myasthenia gravis
• 3-6 hours

Question 54

what is the structure, use, and approximate duration of action of physostigmine?

Answer 54

carbamate-related

• glaucoma
• 0.5 to 2 hours

Question 55

what is the structure, use, and approximate duration of action of echothiophate?

Answer 55

organophosphate

• glaucoma
• 100 hours

Question 56

what can occur if there is overdose of cholinomimetics?

Answer 56

SLUDGE
Salivation
Lacrimation
Urination
Defecation
GI distress
Emesis

Question 57

what can occur if there is toxicity of cholinesterase inhibitors?

Answer 57

SLUDGE + respiratory collapse from CNS effects + skeletal muscle paralysis + bronchospasm

Question 58

what is therapy for cholinesterase inhibitor toxicity?

Answer 58

atropine and pralidoxime