Autonomic Nervous System Review

Question 1

2 main neurotransmitters of autonomic nervous system

Answer 1

Ach, NE

Question 2

type of autonomic innervation: adrenal medulla

Answer 2

sympathetic only

Question 3

type of autonomic innervation: most sweat glands

Answer 3

sympathetic only

Question 4

type of autonomic innervation: blood vessels

Answer 4

although they do have cholinergic receptors on endothelium of BV, but only innervated by SNS

Question 5

dominant basal tone: cardiac

Answer 5

parasympathetic

Question 6

dominant basal tone: bronchial smooth muscle

Answer 6

parasympathetic

Question 7

dominant basal tone: GI tract

Answer 7

parasympathetic

Question 8

dominant basal tone: urinary tract

Answer 8

parasympathetic

Question 9

dominant basal tone: salivary glands

Answer 9

parasympathetic

Question 10

dominant basal tone: most sweat glands

Answer 10

sympathetic

Question 11

dominant basal tone: arterioles/veins

Answer 11

sympathetic

Question 12

how many ganglion in somatic nervous system

Answer 12

1

Question 13

postganglionic receptor and neurotransmitter in PSNS

Answer 13

Ach, mAchR (cholinergic)

Question 14

postganglionic receptor and neurotransmitter in SNS

Answer 14

NE, adrenergic receptors (alpha, beta)

Question 15

postganglionic receptor and neurotransmitter in sweat glands

Answer 15

Ach, mAchR (cholinergic) (even though its a part of the SNS)

Question 16

postsynaptic neurotransmitters in adrenal medulla

Answer 16

80% epi, 20% NE

Question 17

adrenal medulla innervation, number of neurons, type of postsynaptic cells, neurotransmitters

Answer 17

sympathetic innervation, only 1 neuron, postsynaptic neuroendocrine cells, secrete epi/norepi into blood, mimics sympathetic stimulation

Question 18

anatomical origin of SNS

Answer 18

T1-T12, L1-L5

Question 19

anatomical origin of PSNS

Answer 19

CN 3, 7, 9, 10 (90% vagus nerve), S2-S4

Question 20

location of sympathetic ganglia

Answer 20

sympathetic chain of paravertebral column

Question 21

location of PSNS ganglia

Answer 21

target organ

Question 22

receptor on postganglionic neuron of SNS and PSNS

Answer 22

nAchR

Question 23

receptor on target tissue of SNS and exceptions

Answer 23

adrenergic, sweat glands, adrenal medulla

Question 24

receptor on target tissue of PSNS

Answer 24

mAchR

Question 25

steps of neurotransmission

Answer 25

1. synthesis
2. storage in vesicles
3. release r/t AP (vesicles fuse with nerve terminal)
4. action at receiving tissue
5. termination (reuptake via transporter, enzyme degradation, diffusion)

Question 26

steps of cholinergic neurotransmission

Answer 26

1. synthesis from choline, acetyl-CoA
2. storage in vesicles
3. action potential triggers Ca++ entry, Ca++ interacts with SNARE protein on vescicle –>fusion of vesicle and opening –> release of Ach
4. binding to receptor
5. termination of action. primary mechanism: enzyme degradation via AchE
6. recycle choline via reuptake

Question 27

ligand gated ion channel

Answer 27

fast response, binds and channels open so ions can pass through ex) nAchR and GABA

Question 28

GPCR

Answer 28

connected to g protein, most common receptor that drugs act on

Question 29

transmembrane with linked enzymatic domain

Answer 29

when drug binds, enzyme activates ex) oncology medications

Question 30

intracellular receptor

Answer 30

receptor either in cytosol or nucleus, drug has to be lipophilic. effects transcription and increases or decreases amount of protein synthesis ex)cortisol, sex hormones

Question 31

muscarinic cholinergic receptor specs

Answer 31

• it is a GPCR
• there are 5 subtypes with 2 subgroups
• diverse cellular responses, not very selective
• autonomic effector tissues: heart, endothelium, smooth muscle, glands, CNS

Question 32

nicotinic cholinergic receptor specs

Answer 32

• ligand gated ion channel (Na/K)
• 2 major subtypes: NicN, NicM
• location: autonomic ganglia, skeletal muscle innervated by somatic nerves, CNS
• Ach binds, conformational change, channel opens and positively charged ions pull through channel
• depol of postsynaptic cells

Question 33

where are M1 receptors

Answer 33

CNS

Question 34

where are M2 receptors

Answer 34

heart

Question 35

where are M3 receptors

Answer 35

smooth muscle, glands, endothelium, eye (circular, ciliary muscle)

Question 36

where are M4 receptors

Answer 36

CNS

Question 37

where are M5 receptors

Answer 37

CNS

Question 38

where are NicN receptors

Answer 38

ANS ganglia, adrenal medulla, CNS

Question 39

where are NicM receptors

Answer 39

skeletal NMJ

Question 40

characteristics of cholinergic receptors

Answer 40

• selective distribution
• receptor type: muscarinic (GPCR),
• nicotinic (Nic) (ligand gated ion channel)

Question 41

muscarinic ligands

Answer 41

Ach, muscarine

Question 42

nicotinic ligands

Answer 42

Ach, nicotine

Question 43

acetylcholine neurotransmitter sites

Answer 43

NMJ, autonomic ganglia, at effector junction of postganglionic parasympathetic neurons, CNS

Question 44

stages of adrenergic neurotransmission

Answer 44

1. synthesis of NE (catecholamines) from amino acid tyrosine
2. uptake/storage of vesicles
3. release with action potential
4. receptor binding
5. termination of action- reuptake via NE transporter. also, enzymatic metabolism, especially via MAO in neurotransmitter terminal. important drug target)

Question 45

alpha adrenergic receptor specs
type of receptor
ligands
subtypes

Answer 45

• GPCR
• ligands: NE, epi, DA
• 2 subtypes of a1 and a2

Question 46

way a1 receptor works

Answer 46

excitatory. increased calcium activated calmodulin. increases actin-myosin interaction. smooth muscle contraction occurs

Question 47

way a2 receptor works

Answer 47

inhibitory. decreased cAMP production. decreased NE release

Question 48

beta adrenergic receptor specs
subtypes
type of receptor
activation pathway
autonomic effector tissues

Answer 48

• B1, B2, B3
• GPCR
• activation of adenyl cyclase, increased cAMP production, increased kinase activation or phosphorylation.
• autonomic effector tissues. heart, kidney, liver, smooth muscle, skeletal muscle, fat cells.

Question 49

how to terminate action of NE

Answer 49

reuptake back into presynaptic neuron, diffusion, metabolism (minor role)

Question 50

noradrenegic receptors

Answer 50

• GPCR
• negative feedback limits response
• alpha 1
• alpha 2
• beta 1, beta 2, beta 3

Question 51

dopamine catecholamine specs

Answer 51

precursor of norepinephrine, epi, at effector junction. sympathetic, renal vascular smooth muscle

Question 52

dopamine termination of action

Answer 52

neuronal reuptake by DA transporter, MAO brerakdown

Question 53

dopamine receptors action via GPCR

Answer 53

cAMP is second messenger. D1 class (D1, D5) increases cAMP. D2 class (D2, D3, D4) decreases cAMP production.

Question 54

low, intermediate, and high dose dopamine

Answer 54

low dose- vasodilation (D1)
intermediate dose (and inotrope) B1
high dose-vasoconstriction (a1)

Question 55

other neurotransmitters in autonomic, enteric, and NANC neurons

Answer 55

NO
vasoactive intestinal peptide (VIP)
calcitonin gene related peptide (GCRP)
neuropeptide Y (NPY)
substance P
serotonin
others

Question 56

ANS stimulation of SA node

Answer 56

SNS increases heart rate via B1 receptor

PSNS decreases heart rate via M2 receptor

Question 57

ANS stimulation of contractility

Answer 57

SNS increases contractility of B1

PSNS decreases contractility via M2

Question 58

ANS stimulation of bronchiolar smooth muscle

Answer 58

SNS dilates via B2

PSNS constricts via M3

Question 59

ANS stimulation of kidney

Answer 59

SNS induces renin release via B1

Question 60

ANS stimulation of liver

Answer 60

SNS stimulated glucagon release via B2

Question 61

ANS stimulation of vascular smooth muscle: skin, splanchnic

Answer 61

SNS constricts via A1

Question 62

ANS stimulation of skeletal muscle

Answer 62

SNS vasodilator via B2

Question 63

ANS stimulation of GI walls

Answer 63

SNS relaxes via B2

PSNS contracts via M3

Question 64

ANS stimulation of GI sphincters

Answer 64

SNS contracts via A1

PSNS dilates via M3

Question 65

ANS stimulations of GI secretions

Answer 65

PSNS increases secretions via M3

Question 66

ANS stimulation of urinary bladder wall

Answer 66

SNS relaxes via B2

PSNS contracts via M3

Question 67

ANS stimulation of urinary bladder sphincter

Answer 67

SNS contracts via A1

PSNS relaxes via M3

Question 68

ANS stimulation of uterine smooth muscle

Answer 68

SNS relaxes via B2

PSNS super minor contraction via M3

Question 69

ANS stimulation of reproductive system

Answer 69

SNS incites ejaculation via A1

PSNS erection via M3

Question 70

ANS stimulation of adrenal medulla

Answer 70

SNS release of NE and Epi via nicotinic receptor

Question 71

ANS stimulation via pilomotor smooth muscle

Answer 71

SNS contracts via A1

Question 72

ANS stimulation via sweat glands- thermoregulatory

Answer 72

SNS increases sweat via muscarinic receptor

Question 73

ANS stimulation via sweat glands (apocrine/stress)

Answer 73

SNS increases sweat via a1 receptor

Question 74

ANS stimulation via fat cells

Answer 74

SNS lipolysis via B3

Question 75

eNOS

Answer 75

endothelial nitric oxide synthase; enzyme that makes nitric oxide from L-arginine

Question 76

PDE5

Answer 76

phosphpdiesterase 5; the enzyme that breaks down he 2nd messenger (cGMP)

Question 77

iris effects, SNS, PSNS

Answer 77

pupillary control, SNS a1 mydriasis, PSNS M3 miosis

Question 78

ciliary muscle effects, SNS, PSNS

Answer 78

focuses lens
SNS: none
PSNS: accommodate near vision (M3), increase outflow of aqueous humor

Question 79

ciliary body effects, SNS, PSNS

Answer 79

aqueous humor production

SNS increase secretion of aqueous humor via epithelium (B1)

Question 80

aqueous humor effects, PSNS, SNS

Answer 80

intraocular pressure
increases IOP SNS
decreases IOP PSNS

Question 81

adrenergic

Answer 81

describes neurons or receptors that use NE, or drugs that mimic sympathetic nerve stimulation

Question 82

alpha adrenergic terminology

Answer 82

adrenergic receptor activated by NT NE

Question 83

beta adrenergic terminology

Answer 83

adrenergic receptor activated by NT NE

Question 84

catecholamine terminology

Answer 84

molecule class that contains a catechol and amine group. includes NE, epi, dopa

Question 85

cholinergic terminology

Answer 85

describes neurons receptors that use Ach, orr drugs that mimic PSNS nerve stimulation

Question 86

epinephrine terminology

Answer 86

adrenalin, produced in adrenal medulla, also NT in CNS

Question 87

muscarinic receptor terminology

Answer 87

cholinergic receptor of PSNS, name derived from muscarine, a natural receptor agonist substance from mushrooms

Question 88

nicotinic receptor terminology

Answer 88

cholinergic receptor, deprived from nicotine, a natural receptor agonist, 2 distinct types in periphery. NMJ and autonomic ganglia types

Question 89

NE terminology

Answer 89

noradrenalin; NT at sympathetic effector tissues in periphery, some produced in adrenal medulla, also NT in CNS

Question 90

preganglionic terrminology

Answer 90

situated before a ganglion

Question 91

postganglionic terminology

Answer 91

situated after a ganglion