L11: Cholinergic Pharmacology Flashcards
Cholinergic vs Anticholinergic Drugs
Cholinergic
-Direct acting cholinomimetic drugs: muscarinic agonists, nicotinic agonists
-Indirect acting cholinomimetic drugs
Anticholinergic
-Anti-nicotinic drugs
-Anti-muscarinic drugs
Direct acting cholinomimetic drugs
Muscarinic agonists:
-Choline esters: bethanechol
-Alkaloids: pilocarpine
Nicotinic agonists:
-Nicotine
Indirect acting cholinomimetic drugs
Cholinesterase- inhibitors
Direct acting muscarinic agonists (MOA, clinical use, AE, CI)
PUXG, GUV
MOA:
– Bind to and activate muscarinic (and nicotinic) receptors with different selectivity
Clinical use:
– Postoperative ileus: increasing secretory and motor activity of the gut
– Urinary retention: stimulate the detrusor muscle to contract = voiding
– Xerostomia (dry mouth) due to:
* Sjogren’s syndrome
* Head and neck irradiation
– Glaucoma: contraction of the ciliary/pupillary constrictor muscle facilitates drainage of fluid
Adverse effects:
– General cholinomimetic effects
* GIT: diarrhea, abdominal cramps, nausea/vomiting
* Urinary urgency
* Vision problems
Contraindications:
– Asthma/ COPD
– Urinary or GI tract obstruction
Indirect acting cholinomimetic drugs: anti-ChEs (MOA, clinical use, AE, CI)
GATM, MGUV
MOA:
– Blockade of AChE = increase ACh
Clinical uses:
– Glaucoma
– Alzheimer’s disease
– Treatment of mAChR antagonist toxicity
– Myasthenia gravis
Adverse effects:
– General cholinomimetic effects:
* GIT: diarrhea, abdominal cramps, nausea/vomiting
* Urinary urgency
* Vision problems
* Musculoskeletal effects: muscle cramps, myalgia
Contraindications:
– Asthma / COPD
– Urinary or GI tract obstruction
Intoxication with anti-ChEs
DUMMBBELLSS
Diarrhea
Urination
Miosis
Muscle weakness, paralysis
Bradycardia
Bronchoconstriction
Excess bronchial secretion
Lacrimation
Lousy for vision
Salivation
Sweating
Cause of death: respiratory failure
Antidotes for anti-ChEs intoxication
– Atropine (mAChR antagonist) to control signs of muscarinic excess
– Pralidoxime (AChE reactivator)
* Used for intoxication with organophosphates
* No effect if phosphorylated AChE has “aged”
Neuromuscular blockers: Competitive agents (MOA, clinical use, effect on SKM, effect on anti-ChE)
MOA:
- Occupy ACh binding sites on NM receptor, no efficacy
Clinical use:
- Muscle paralysis during surgery
Effect on SKM:
- Flaccid paralysis
Effect on anti-ChE:
- Depolarization of end plate = reversal of block
Neuromuscular blockers: Depolarizing Agents (MOA, clinical use, effect on SKM, effect on anti-ChE)
MOA:
- Occupy ACh binding sites on NM receptor, open ion channel, maintains depolarized state of end plate = NaV channels in inactivated state
Clinical use:
- Muscle paralysis during surgery
Effect on SKM:
- Transient fasciculations followed by flaccid paralysis (depolarization blockade)
Effect on anti-ChE:
- Prolongation of depolarized state maintains NaV channels
in an inactivated state→ augmented block
Muscarinic antagonists (MOA, use, AE, CI)
MCBRO, DUCTHB
MOA:
– Reversible blockade of muscarinic receptors
Clinical use:
- Motion sickness
- Bradycardia, AV conduction block
- COPD, asthma
- Rhinorrhea
- Overactive bladder, urinary urgency
Adverse effects:
– Dry mouth (Xerostomia)
– High body temperature
– Urinary retention
– Constipation
– Blurred vision
– Tachycardia
Contraindications:
– Urinary and GI obstruction
– Glaucoma
Muscarinic antagonists
Toxicity: Atropine intoxication
Dry as a bone
Hot as a stone
Red as a beet
Mad as a hatter
Blind as a bat
Antidote for Intoxication with Atropine
– Physostigmine: Reversible inhibitors of AChE = increase ACh = stimulation of muscarinic receptors (tertiary amine structure allows to penetrate BBB)
