ANS DSA

Question 1

What’s part of the efferent portion of the nervous system?

Answer 1

somatic = conscious movements

ANS - unconscious… cardiac output, blood flow or organs, digestion.

Question 2

ANS is subdivided by?

Answer 2

Sympathetic (thoracolumbar)

parasympathetic (craniosacral)

Question 3

Parasympathetic vs sympathetic neurotransmitters?

receptors?

Answer 3

PNS: NT = ACh … activates both nACHr and mAChr

SNS: NT = (catecholamines) NE> Epi (dopamine); and Ach.

A, B adrenergic receptors, dopamine receptors, and mAChR and mAChR

Question 4

Sweat glands are controlled by what? (SNS)

renal vascular smooth muscle (SNS)

Cardiac and smooth muscle, gland cells, nerve terminals? (SNS)

Answer 4

acetylcholine / muscarinic receptors

dopamine, dopaminergic receptors

NE, alpha and beta adrenergic

Question 5

what’s the primary mediator for all ganglion nervous system independent of PNS or SNS?

Answer 5

Ach

Question 6

What does Ach act on to release Epi/NE?

Answer 6

on the adrenal medulla via a nAChR receptor!

Question 7

Acetylcholine is found where?

is it found at any postganglionic sympathetic fibers?

Answer 7

all preganglionic fibers and and all postganglionic PARASYMPATHETIC FIBERS

yes! Sweat glands

Question 8

NE is what?

Answer 8

major Neurotransmitter of the SNS

vast majority of the postganglionic sympathetic fibers

Question 9

Epinephrine?

Answer 9

only occurs in the adrenal medulla and in a few epi containing pathways in the brainstem

Question 10

Dopamine?

Answer 10

acts on CNS and renal vascular smooth muscle.

this is a precursor to NE and Epi

Question 11

Explain ACh

Answer 11

synthesized in the cytoplasm, shuttled into the vesicle and stored in a cholinergic varicosity.

as an AP comes down, Calcium flows into the cholinergic cell, causing fusion of the vesicle through VAMPS and SNAPS (SNARE complex).

after fusion the Ach is released where it can interact with mAChR or nAChR

Ach is then destroyed by acetylcholinesterase enzyme

Question 12

nAChR vs mAChR… which one is ionotropic, which is metabotropic?

which one is found at the CNS + autonomic ganglia?

Which is found at the adrenal medulla?

which is found at the sweat glands?

which is found at the effector organs (cardiac and smooth muscle, gland cells, nerve terminals)

Answer 12

nAChR is ionotropic, mAChR is metabotropic.

Both

nAChR

mAChR

mAChR

Question 13

what is the general function of nAChR?

what about for mAChR?

Answer 13

excitatory unless it’s with the adrenal medulla and that would be release of catecholamines

both excitatory and inhibitory unless it has to deal with the sweat glands and that would be sweat secretion

Question 14

Agonists of nAChR?

mAChR?

Answer 14

ACh, Nicotine

ACh, Muscarine

Question 15

Nm is found where?

Nn?

what structural features are these?

what is their mechanism?

Answer 15

skeletal muscle, neuromuscular junction

postganglionic cell body, dendrites, CNS

both ligand gated ion channels

both Na+, K+ depolarizing Ion Channels

Question 16

M1 location?

M2 location?

M3 Location?

M4 + M5 location?

Answer 16

CNS, ganglia

heart, nerves, smooth muscle

glands, smooth muscle, endothelium

CNS

Question 17

M1-M5 structural features?

what are they all similar with?

Answer 17

M1, M3, M5 = Gq

they’re all going to be activating phospholipase C (PLC), increasing IP3 and DAG cascades

M2/M4 = Gi/o.. inhibiting adenylyl cyclase (AC), lowering cAMP production, activation of K+ channels.

all are GPCR

Question 18

what are the primary muscarinic subtypes that are found on organs?

mostly on smooth muscle?

Answer 18

M2 + M3

M3

Question 19

Explain Adrenergic creation

Answer 19

Tyrosine is shuttled into the cytoplasm (by Na+ dependent tyrosine transporter) and is converted to Dopamine

dopamine is transported into the vesicle via vesicular monoamine transporter 2 (VMAT2) –> converted to NE and upon action potential ca rushes in.

membrane fusion, NE spills out and it activates alpha and beta receptors

there are transporters that serve to reuptake all catecholamines (NE transporter (NET) or Dopamine transporter (DAT))

Question 20

difference between cholinergic and adrenergic for the process of creation?

Answer 20

reuptake of NE/ EPi into the cytoplasm vs. ACh which is just destroyed

Question 21

how do you get from tyrosine to epinephrine in the catecholamine synthesis?

to note about NE –> Epi?

where does each occur?

Answer 21

Tyrosine –> Dopa –> Dopamine (occurs in nerve cytoplasm)

Dopamine –> Norepinephrine –> Epinephrine (this occurs in the vesicle)

NE to Epi occurs MAINLY in the adrenal medulla

Question 22

Why is VMAT2 called promiscuous?

Answer 22

it doesn’t shuttle just dopamine into the cell.. also NE, Epi, and serotonin into the vesicle too!

Question 23

what does reserpine do?

cocaine?

Answer 23

VMAT2 blocker

block NE transporter

Question 24

how is catecholamine terminated? (2 ways)

Answer 24

mostly reuptake.

can be metabolized though by 2 enzymes MAO or COMT

Question 25

What’s to know about Alpha and beta receptors?

what kinds are they?

Answer 25

part of adrenergic signaling

main types are alpha and beta

they’re all GPCRs

Alpha has a1 or a2
beta has b1, b2, or b3
dopamine has 5 types (d1-d5)

Question 26

Alpha 1 vs Alpha 2?

G protein type?

agonists do they prefer?

Answer 26

Gq –> respond equally to Epi and NE

Gi,Go –> respond equally to epi and NE

Question 27

B1 vs B2 vs B3?

G protein type?

What agonists do they prefer

Answer 27

all coupled to Gs (activation of this activates adenylyl cyclase to increase cAMP in the cell!)

B1 equal NE or Epi
B2 LOVE Epi over NE
B3 favor NE over Epi

Question 28

What is the rules of thumb to know about Alpha 1?

Beta 2?

Muscarinic receptors?

Answer 28

it doesn’t matter where they’re located.. they stimulate contraction of smooth muscle. if that smooth muscle surrounds the vasculature, it’ll cause vasoconstriction

Relax smooth muscle - vasodilation if that smooth muscle was surrounding the vasculature.

contract smooth muscle.. doesn’t matter what location in the body. different signal than alpha 1!!

Question 29

if we block alpha 1, what do we have?

Answer 29

smooth muscle relaxation… if smooth muscle surrounds the vasculature, it’ll be vasodilation

Question 30

B1 receptor activation on the heart? is this PNS or SNS?

M2 receptors causes what? PNS or SNS?

A1 on blood vessels? what about for parasympathetics?

Answer 30

increase heart rate, increase contractility.. SNS because adrenergic

decrease in heart rate, decrease contractility… PNS because cholinergic

constriction.. but nothing for PNS, this is indirectly through Nitric oxide via M3!!

Question 31

What does M3 do for the endothelium and blood vessels?

Answer 31

it creates NO by activating NO synthase… this then goes to the blood vessels and vasodilator

Question 32

What is EDRF?

what did it lead to the discovery of and how does it work?

Answer 32

endothelium derived relaxing factor.. this was allowing the vasculature to dilate in response to acetylcholine.

this occurs only in the presence of intact endothelial cells

acetylcholine activates muscarinic, which increases calcium levels, which results in the production of nitric oxide.

at the time they didn’t know what NO was so they called it EDRF.

NO then diffuses back to smooth muscle to relax.

Question 33

how do you achieve relaxation and balance of PNS and SNS for smooth muscle and blood vessels?

Answer 33

intact endothelium

Question 34

baroreceptor reflex?

phenylephrine or histamine examples?

Answer 34

a1 receptor agonists causes constriction or smooth muscle contraction..

this would increase BP in response to this.. it’s sensed by the baroreceptor which then would increase the PNS tone and decrease SNS tone.

if we give histamine (decreases BP), that decrease will be sensed by baroreceptor, which decreases PNS and increases SNS

Question 35

in general, what do the adrenergic alpha and beta receptors stimulate in the stomach, intestine, motility and tone of the sphincters, and secretion?

what deals with motility?

sphincters?

Secretion?

For the opposite in the PNS, know that M3 and M2 pretty much work equally.

Answer 35

SNS so…

decrease motility, increase contraction of sphincters, and inhibit secretion

alpha 1, alpha 2, b1, b2

A1

Alpha 2

Question 36

SNS or PNS for renin secretion from the kidney?

Answer 36

NO PNS

only alpha 1 and b1..

alpha 1 decreases secretion, beta 1 increases secretion

Question 37

What elicits contraction of pilomotor muscles and secretion of sweat?

Answer 37

alpha 1

Question 38

What elicits K+ and water secretion from salivary glands?

interesting thing?

Answer 38

alpha 1 a little bit from SNS

M3 AND M2 FROM PNS BUT WAY MORE!!

usually SNS and PNS oppose each other, but this one does both, but PNS is just stronger