Week 12 ANS

Question 1

You can stimulate the parasympathetic NS w/drugs that act as an agonist to _______ receptors, or inhibit _____________ enzyme.

Answer 1

nicotinic receptors

acetylcholinesterase enzyme

Question 2

describe nicotinic receptors

Answer 2

• “nicotinic cholinergic receptors”
• in sympathetic ganglia & skeletal mm., nicotine mimics stimulatory actions of Ach
• vs. muscarinic which act in smooth mm. & glands via muscarine stimulation
• ligand-gated ion channels

Question 3

describe nicotinic receptors

Answer 3

• “nicotinic cholinergic receptors”
• in sympathetic ganglia & skeletal mm., nicotine mimics stimulatory actions of Ach
• vs. muscarinic which act in smooth mm. & glands via muscarine stimulation
• ligand-gated ion channels (do not use 2nd messengers)
• signal for muscular contraction upon a chemical stimulus
• triggered by binding of Ach & nicotine

Question 4

Which adrenergic receptors (a, b1, b2) affect vascular system?

Answer 4

alpha

Alpha-adrenoceptor agonists (α-agonists) bind to α-receptors on vascular smooth muscle and induce smooth contraction and vasoconstriction, thus mimicking the effects of sympathetic adrenergic nerve activation to the blood vessels.

Question 5

Which adrenergic receptors (a, b1, b2) affect heart?

Answer 5

beta 1

antagonists increase cardiac output

Question 6

Which adrenergic receptors (a, b1, b2) affect lungs?

Answer 6

beta 2

agonists cause smooth mm relaxation

Question 7

what side effects would you expect from a substance that blocks b2 receptors?

Answer 7

• respiratory problems (bronchospasm)
• however no isolated b2 blocker is used clinically
• b1 antagonists are also b2 blockers => CV depression, nausea, diarrhea, diabetes, etc)

Question 8

what is the difference between miosis and mydriasis?

Answer 8

mydriasis: pupil dilation
miosis: pupil contraction

Question 9

Which adrenergic receptors (a, b1, b2) affect heart?

Answer 9

beta 1
antagonists increase cardiac output

remember: 1 heart

Question 10

Which adrenergic receptors (a, b1, b2) affect lungs?

Answer 10

beta 2
agonists cause smooth mm relaxation

remember: 2 lungs

Question 11

what autonomic receptors do you want to target for asthma

Answer 11

beta 2

want agonists

Question 12

what autonomic receptors do you want to target for BPH

Answer 12

a1

want antagonists

Question 13

what autonomic receptors do you want to target for urinary incontinence

Answer 13

muscarine

want antagonists

Question 14

what autonomic receptors do you want to target for glaucoma

Answer 14

muscarine - agonist

b1 - antagonist

Question 15

s/e assoc. with b1 antagonists

Answer 15

hypotension
fatigue
nausea
diarrhea
diabetes
erectile dysfunction
bronchospasm
decreased circulation
insomnia

Question 16

s/e assoc. with b2 agonists

Answer 16

insomnia
anxiety
tremors
CV sxs

Question 17

s/e assoc. with a1 agonists

Answer 17

rebound congestion

freq. application causes ischemia

Question 18

s/e assoc. with a1 antagonists

Answer 18

retrograde ejaculation

Question 19

s/e assoc. with a2 antagonist

Answer 19

fatigue

dry mouth

Question 20

s/e assoc. with muscarinic receptor agonists

muscarine, pilocarpine, Ach

Answer 20

• increased secretions (saliva, urine, lacrimation, defecation), mitosis,smooth mm contraction & peristalsis (Cramping)

Question 21

What is the difference between epinephrine & ephedra with regards to how long it remains active in the body?

Answer 21

• epinephrine: short T1/2 (MAO & COMT enzymes)

- ephedra: more intense reaction, longer acting

Question 22

How does an a2 agonist lower BP?

Answer 22

• a2 receptors located in brain

- SE: inhibits NE release by negative feedback

Question 23

what are b1 blockers used to treat? what is the most common side effect?

Answer 23

• tx: heart problems & glaucoma

- s/e: decreased heart function, fatigue, dizziness

Question 24

what are b2 agonists used to treat? what is the most common side effect?

Answer 24

• asthma, pulmonary conditions

- s/e: insomnia, anxiety, tremors, CV problems

Question 25

what are a1 blockers used to treat? what is the most common side effect?

Answer 25

• tx: BPH, HTN

- s/e: retrograde ejaculation

Question 26

what are s/e of cholinesterase inhibitors? what would you use it to treat?

Answer 26

• dementia of Alzheimer’s
• s/e: SLUDGE
  salivation/lacrimation/urination/defecation/GI upset/emesis)

Question 27

if someone was poisoned with a nerve gas or a mushroom was causing severe GI distress (vomiting, diarrhea), what class of drugs could help?

Answer 27

anticholinergics

e.g. atropine, oxybutynin, tolterodine

Question 28

what class of drugs decrease nocturnal melatonin levels & decrease HDL cholesterol & elevate blood sugar?

Answer 28

b1 blockers

Question 29

what receptors do confine and curare target? agonist or antagonist?

Answer 29

• conine: nicotinic early agonist, and late antagonist

- curare: nicotinic antagonist

Question 30

epinephrine binds to which receptors?
adrenergic
muscarinic
nicotinic

Answer 30

adrenergic
alpha & beta
(not selective - binds to all)

Question 31

indications for administering epinephrine?

Answer 31

anaphylaxis
sepsis (can cause BP to drop)
cardiac arrest
asthma - when other drugs ineffective or unavailable

Question 32

MOA of ephedrine?

Answer 32

• releases stored NE from storage vesicles

- directly stimulates both alpha & beta receptors

Question 33

compare epinephrine & norepinephrine

Answer 33

The actions of epinephrine and norepinephrine are generally similar, although they differ from each other in certain of their effects. Norepinephrine constricts almost all blood vessels, while epinephrine causes constriction in many networks of minute blood vessels but dilates the blood vessels in the skeletal muscles and the liver. Both hormones increase the rate and force of contraction of the heart, thus increasing the output of blood from the heart and increasing the blood pressure. The hormones also have important metabolic actions. Epinephrine stimulates the breakdown of glycogen to glucose in the liver, which results in the raising of the level of blood sugar. Both hormones increase the level of circulating free fatty acids.

Question 34

indications for ephedra/pseudoephedrine/synephrine?

Answer 34

asthma
sinusitis
weight loss
allergies

Question 35

MOA of caffeine?

Answer 35

• inhibits adenosine receptors = increases release of catecholamines
• inhibits phosphodiesterase enzyme (increases cAMP)

Question 36

MOA of caffeine?

Answer 36

• inhibits adenosine receptors = increases release of catecholamines
• inhibits phosphodiesterase enzyme (increases cAMP; cAMP is inactivated by phosphodiesterase) => results of epinephrine are sustained
• coffee doesn’t bind to adrenergic receptors, it just prevents the breakdown of the signal

Question 37

what sympathetic effects does cAMP result in?

Answer 37

• relaxation of smooth mm
• enhanced contractility of cardiac mm
• glycogenolysis
• lipolysis

Question 38

caffeine inhibits which enzyme?

Answer 38

phosphodiesterase

which breaks down cAMP

Question 39

what is the MOA of a1 agonist as a decongestant?

Answer 39

a1 agonist = vasoconstriction

topical application avoids systemic s/e

Question 40

what do a-agonists do?

Answer 40

Alpha-adrenoceptor agonists (α-agonists) bind to α-receptors on vascular smooth muscle and induce smooth contraction and vasoconstriction, thus mimicking the effects of sympathetic adrenergic nerve activation to the blood vessels.

Question 41

what is the difference between a1 and a2 receptors?

Answer 41

α1-adrenoceptors are the predominant α-receptor located on vascular smooth muscle.

α2-adrenoceptors located on the sympathetic nerve terminals that inhibit the release of norepinephrine and therefore act as a feedback mechanism for modulating the release of norepinephrine.

Question 42

what is the MOA of a2 agonist as an antihypertensive?

Answer 42

α2-adrenoceptors located on the sympathetic nerve terminals that inhibit the release of norepinephrine and therefore act as a feedback mechanism for modulating the release of norepinephrine.

a2 agonists decrease release of EP/ND

Question 43

what is the MOA of a1 agonist as a decongestant?

Answer 43

a1 agonist = vasoconstriction
sympathoMIMETIC

topical application avoids systemic s/e

Question 44

what is the MOA of a2 agonist as an antihypertensive?

Answer 44

α2-adrenoceptors located on the sympathetic nerve terminals that inhibit the release of norepinephrine and therefore act as a feedback mechanism for modulating the release of norepinephrine.

a2 agonists decrease release of EP/ND

sympathoLYTIC

Question 45

what is the MOA of a1 antagonist as an antihypertensive or as tx for BPH?

Answer 45

sympathoLYTIC

• vasodilator
• relax smooth mm & sphincters (prostate & bladder)

Question 46

which class of adrenergic drugs end in "-zosin"?
which ends in "-zoline"?

Answer 46

zosin: alpha blockers
zoline: alpha agonist

Question 47

describe beta blockers in general

Answer 47

Beta-blockers are drugs that bind to beta-adrenoceptors and thereby block the binding of norepinephrine and epinephrine to these receptors. This inhibits normal sympathetic effects that act through these receptors. Therefore, beta-blockers are sympatholytic drugs. Some beta-blockers, when they bind to the beta-adrenoceptor, partially activate the receptor while preventing norepinephrine from binding to the receptor. These partial agonists therefore provide some “background” of sympathetic activity while preventing normal and enhanced sympathetic activity.

Question 48

describe beta blockers in general

Answer 48

Beta-blockers are drugs that bind to beta-adrenoceptors and thereby block the binding of norepinephrine and epinephrine to these receptors. This inhibits normal sympathetic effects that act through these receptors. Therefore, beta-blockers are sympatholytic drugs. Some beta-blockers, when they bind to the beta-adrenoceptor, partially activate the receptor while preventing norepinephrine from binding to the receptor. These partial agonists therefore provide some “background” of sympathetic activity while preventing normal and enhanced sympathetic activity.

Beta-blockers prevent the normal ligand (norepinephrine or epinephrine) from binding to the beta-adrenoceptor by competing for the binding site.

Question 49

blood vessels have b1 or b2 receptors?

Answer 49

b2

Question 50

heart has predominantly which beta receptor type? b1 or b2?

Answer 50

b1

Question 51

heart has predominantly which beta receptor type? b1 or b2?

Answer 51

b1

Compared to their effects in the heart, beta-blockers have relatively little vascular effect because β2-adrenoceptors have only a small modulatory role on basal vascular tone. Nevertheless, blockade of β2-adrenoceptors is associated with a small degree of vasoconstriction in many vascular beds. This occurs because beta-blockers remove a small β2-adrenoceptor vasodilator influence that is normally opposing the more dominant alpha-adrenoceptor mediated vasoconstrictor influence.

Question 52

b1 blockers MOA in cardiac arrhythmias, angina pectoris, HTN, glaucoma (topical)

Answer 52

• b1 receptor antagonist
• selectively block EP/NE from binding to b-receptors
• physiological effects: decrease CO, decrease HR, decrease BP (unclear)

Question 53

what effect do b1 blockers have on sleep?

Answer 53

insomnia - decreases nocturnal melatonin levels

Question 54

b2 agonists are indicated for tx in which 2 conditions?

Answer 54

asthma

pulmonary conditions

Question 55

b2 adrenergic receptors react with with hormone/NT?

Answer 55

adrenaline (epinephrine)

Question 56

what is the action of b2 receptors?

Answer 56

• smooth mm relaxation (uterus, GI tract [decreases motility], seminal tract, bronchi)
• dilation of blood vessels
• increase mass & contraction speed of striated muscle [fight/flight]
• glycogenolysis (produce fuel)

Question 57

side effects of b2 agonists?

Answer 57

(less common w/inhalers)
insomnia
anxiety
tremors
CV symptoms

Question 58

name 6 effects that stimulation of the parasympathetic NS has?

Answer 58

pupil constriction (myosis)
bronchoconstriction
decrease HR & force
increase gastric peristalsis & digestion
increase secretions (tears, sweat, saliva, bile)
allows for urination

Question 59

Ach binds to which 2 receptors?

Answer 59

nicotinic

muscarinic

Question 60

where are muscarinic receptors located in the body?

Answer 60

• target organs of PNS (heart, lungs, glands, organs)

- CNS (involved in reward & neuroplasticity)

Question 61

where are nicotinic receptors located in the body?

Answer 61

• autonomic ganglions (sympathetic & PNS)

- neuromuscular junction: somatic NS