B-antagonist lecture

Question 1

activation of what increases body’s readiness for strenuous activity & stress? (“fight or flight)

Answer 1

sympathetic nervous system (SNS)

Question 2

effects of SNS activation

Answer 2

> : arterial pressure, HR, cardiac output, blood flow to muscles & heart, RR, oxygen consumption, blood glucose, glycolosis, mental activity
<: blood flow to GIT & kidneys

Question 3

main effectors of SNS

Answer 3

norepinephrine & epinephrine

Question 4

Norepinephrine (NE)

Answer 4

synthesized in sympathic nerve terminals & CNS as a neurotransmitter

Question 5

epinephrine (Epi)

Answer 5

synthesized in adrenal medula (Chomaffin cells) as a hormone & in CNS (adrenergic neurons) as a neurotransmitter

Question 6

synthesis of NE & epi starts with

Answer 6

Tyrosine

Tyr-> DOPA->domapine->NE->epi

Question 7

what happens to the release of NE when beta 2 is stimulated?

Answer 7

increase release of NE

Question 8

what happens to the release of NE when alpha 2 is stimulated?

Answer 8

stop release of NE

Question 9

where are alpha 1 receptors found?

Answer 9

post synaptic

blood vessels, skin, pulmonary, kidney

Question 10

where are alpha 2 receptors found?

Answer 10

presynaptic

Question 11

where are Beta1 receptors found?

Answer 11

myocardium, JG cells in kidneys

Question 12

where are beta2 receptors found?

Answer 12

smooth muscles (can be pre & post-synaptic)
SMC of arteruikes, bronchial SMC, skeletal muscle, liver, ciliary muscle of eye

Question 13

where are beta 3 receptors found?

Answer 13

adipose tissue -> lypolysis

Question 14

what kind of receptors are adrenoceptors(Alpha & Beta)?

Answer 14

GPCRs

Question 15

what is alpha 1 coupled to?

Answer 15

Gq-> >inositol triphosphate, DAG & Ca

Question 16

what is alpha 2 coupled to?

Answer 16

Gi-> < adenylyl cyclase-> < cAMP

Question 17

what are all beta coupled to?

Answer 17

Gs-> >adenylyl cyclase-> . cAMP

Question 18

alpha 1 receptors cause

Answer 18

vasoconstriction

contribute to Na reabsorption

Question 19

beta 1 receptors cause

Answer 19

chrono-dromo-iono-tropic effects

stimulate renin releaase

Question 20

beta 2 receptors cause

Answer 20

vasodilation, bronchodilation, > secretion, glycogenolysis & gluconeogenesis
in the eye-> relxation & > intraocular pressure

Question 21

1st generation beta blockers are

Answer 21

non-selctive B1 & B2 antagonists

Question 22

2nd generation beta blockers are

Answer 22

selective B1 antagonists

Question 23

3rd generation beta blockers are

Answer 23

non-selective & selective antagonists with additional effects

Question 24

beta blocker effect on normal HR or BP at rest

Answer 24

little effect; profound effect when SNS is high (HTN, stress, exercise)

Question 25

short term effect of non-selective B-blockers

Answer 25

< CO-> sympathetic activation-> > NE/Epi->activation of alpha receptors in vessels-> > PR ( B2 is blocked so no vasodilation)

Question 26

long term effect of non-selective B-blockers

Answer 26

PR returns to initial value & CO continues to lower

Question 27

reduction in BP in HTN with beta-blockers due to

Answer 27

• reduction of cardiac output (B1)
• inhibition of renin release from JG cells (B1)
• from B2- < NE
• w/ selective Beta-1-> vasodilation through B2

Question 28

beta-blockers commonly used in the treatment of

Answer 28

HTN, angina, cardiac arrhythmias, MI, glaucoma, migraine prophylaxis

Question 29

intrinsic sympathomimetic activity

Answer 29

partial agonist

some beta-blockers bind to receptors but can also slightly stimulate them

Question 30

beta-blocker structures are all derived from

Answer 30

NE & Epi structure

Question 31

main adverse cardio effects of beta-blockers

Answer 31

induce or worsen HF, induce arrhythmias in pts with AV conduction defects, worsen peripheral vascular disease, may cause sexual dysfunction

Question 32

abrupt discontinuation of beta-blockers can cuase

Answer 32

angina pectoris (myocadial ischemia) & increase risk of death

Question 33

main adverse pulmonary effects of beta-blockers

Answer 33

may worsen asthma or COPD

bronchospasm

Question 34

main adverse CNS effects

Answer 34

sedation. sleep disturbances & depression

Question 35

main adverse metabolic & endocrine effects

Answer 35

mask hypoglycemia-induced tachycardia in DM, may increase TG since lipolysis is inhibited

Question 36

• chronotropic effect

Answer 36

decreased HR

Question 37

• ionotropic effect

Answer 37

decreased contraction force-> decreased CO

Question 38

• dromotropic effect

Answer 38

decreased cardiac rhythm & automaticity