Autonomic Nervous System (Pharmacology)

Question 1

Match.
Afferent vs Efferent
Away vs Toward CNS

Answer 1

Afferent - Toward CNS

Efferent - Away from CNS

Question 2

What are the 3 components of the ANS (Motor & Sensory)?

Answer 2

Sympathetic NS
Parasympathetic NS
Enteric NS

Question 3

Motor ANS mediates output from CNS to whole body except?

Answer 3

Voluntary skeletal muscles (Under SOMATIC efferent)

Question 4

Which exocrine secretion(s) is under ANS control?

Answer 4

All

Question 5

Which common disease is associated with ANS dysfunction?

Answer 5

Diabetes

Question 6

Match.
Fight/Flight vs Rest/Digest
Sympathetic vs Parasympathetic

Answer 6

Sympathetic NS - Fight/Flight functions

Parasympathetic NS - Rest & Digest

Question 7

Outflow tract of SNS and PNS?

Answer 7

SNS - Thoracolumbar (Spinal cord)

PNS - Craniosacral (Brain stem and spinal cord)

Question 8

What is the preganglionic length of SNS and PNS and where do they synapse?

Answer 8

SNS - Short. Synapses in pre/para-vetebral ganglia; branches extensively to synapse with postganglionic neurons –> effectors

PNS - Long. Synapse in terminal ganglia usually at walls of effector organs.

Question 9

What is the postganglionic length of SNS and PNS

Answer 9

SNS - Long.

PNS - Short.

Question 10

What are the pre and postganglionic neurotransmitters of SNS and PNS?

Answer 10

SNS: Pre (ACh), Post (Noradrenaline)
PNS: Pre (ACh), Post (ACh)

Question 11

Appearance of preganglionic fibers of SNS and PNS?

Answer 11

White. Both myelinated (Motor B-fibres)

Question 12

Appearance of postganglionic fibers of SNS and PNS?

Answer 12

Grey. Both largely un-myelinated (Motor C-fibres)

Question 13

How is ACh released at the preganglionic neuron?

Answer 13

Voltage-gated calcium selective channel opens due to AP from CNS –> Ca2+ influx –> ACh released via exocytosis

Question 14

Where does ACh bind to after release from the preganglionic neuron?

Answer 14

Binds to ligand-gated ion channels (Nicotinic ACh receptors) in postganglionic neuron resulting in AP –> Ca2+ influx –> Noradrenaline release to activate GPCR adrenoceptors in effector cell

Question 15

What does ACh released at the postganglionic neuron bind to?

Answer 15

GPCR muscarinic ACh receptors in effector cell

Question 16

What are the non-adrenergic, non-cholinergic (NANC) transmitters co-released alongside NA or ACh at the postganglionic fibres for SNS and PNS respectively?

Answer 16

SNS: ATP > NA > Neuropeptide Y
PNS: ACh > NO > VIP

**Speed of response from rapid & short-lived to slow & sustained

Question 17

Are the Nicotinic ACh receptors the same as Nicotinic receptors found in neuromuscular junctions or CNS?

Answer 17

No

Question 18

What are the 2 types of cholinoceptors?

Answer 18

1. Nicotinic ACh receptor (LGIC)

2. Muscarinic ACh receptor (GPCR)

Question 19

What is the type of all adrenoceptors?

Answer 19

GPCR

Question 20

Rank potency of agonists on a and B adrenoceptors.

Noradrenaline, Adrenaline, Isoprenaline

Answer 20

a-adrenoceptor: Noradrenaline > Adrenaline > Isoprenaline

B-adrenoceptor: Isoprenaline > Adrenaline > Noradrenaline

Question 21

What is found at the sympathetic chain?

Answer 21

Paravertebral ganglia (Synapse of pre- and post-ganglions)

Question 22

What is the rate-limiting step in synthesis of ACh?

Answer 22

Uptake of choline via CHT transporter

Question 23

What are the 2 enzymes involved in ACh synthesis?

Answer 23

Choline acetyltransferase (ChAT)
Acetyl CoA

Question 24

What causes exocytosis of vesicles containing ACh , ATP and anions?

Answer 24

AP via calcium influx from Voltage gated calcium channels

Question 25

What happens to ACh as it binds to ACh receptors and invoke a cellular response? (2)

Answer 25

At the same time,
it is
1. Degraded by acetylcholinesterase (AChE) to choline and acetate
2. Re-uptake and reuse of choline

Question 26

How many preganglionic neurones can synapse with a postganglionic neuron?

Answer 26

Several

Question 27

What does graded depolarisation or excitatory post-synaptic potential (epsp) depend on?

Answer 27

Number of nicotinic ACh receptors activated to reach threshold for AP to be initiated (opens voltage-gated Na+ channel)

Question 28

What are the 3 sites that are predominantly sympathetic?

Answer 28

Arterioles, veins, sweat glands

Question 29

What is mydriasis? Does the blockage of SNS or PNS cause this?

Answer 29

Pupil dilation

PNS (Predominant tone of Iris)

Question 30

What does blocking of PNS (Predominant tone) to the ciliary muscles of the eye result in?

Answer 30

Cycloplegia (Unable to contract thus cannot accommodate vision to view nearby objects)

Question 31

Why does atropine inhibit sweating?

Answer 31

Blocks M3 ACh receptor

Question 32

Does blocking cholinergic transmission at the ganglia block SNS or PNS?

Answer 32

Both

Question 33

What is an example of a non-depolarising competitive and non-competitive antagonist for cholinergic transmission at the ganglia?

Answer 33

Competitive - Trimethaphan

Non-competitive - Hexamethonium (Open channel blocker by reversibly plugging the channel)

Question 34

What can high concentration of agonist (E.g. Nicotine) result in at the cholinergic ganglia?

Answer 34

Depolarisation block due to desensitisation from prolonged depolarisation

Question 35

How many neuroeffector junctions are there along an axon at the parasympathetic division?

Answer 35

Several

Question 36

What happens after ACh is degraded or reuptaken?

Answer 36

Transmission stops

Question 37

What are the 4 receptors with Gq a-subunit?

Answer 37

a1: smooth muscle contraction, ejaculation
M1: Acid secretion
M3: Airway contraction, NO release (relaxes vascular smooth muscles ONLY in penis (erection), pancreas and salivary glands), Stimulates mucus production, Increases intestinal motility and secretion, contracts detrusor muscle of bladder
M5

Question 38

What are the 3 receptors with Gi a-subunit?

Answer 38

a2 - inhibits noradrenaline release
M2: Opens K+ channels, decreases HR and ATRIA force
M4

Question 39

What are the 2 receptors with Gs a-subunit?

Answer 39

B1: Increases HR and cardiac force
B2: Relaxes bronchi and skeletal smooth muscles, decreases mucus production

**1 heart, 2 lungs

Question 40

What happens to the mouth if the PNS is blocked?

Answer 40

Xerostomia as salivary glands are predominantly modulated by PNS

Question 41

What happens to the urinary bladder if the PNS is stimulated?

Answer 41

Micturition as PNS is the predominant tone

Question 42

What is the precursor for synthesizing noradrenaline?

Answer 42

Dopamine (from L-tyrosine)

Question 43

Which VGIC has to be activated by depolarising AP for vesicles containing noradrenaline to be exocytosed?

Answer 43

Calcium

Question 44

What happens to noradrenaline after it binds to adrenoceptors? (2)

Answer 44

Re-uptake

• by U1 in post-ganglionic neurone
• by U2 in neighboring neurons or effector cells

Metabolised

• by monoamine oxidase (MAO) in post-ganglionic neurone
• by catechol-O-methyltransferase (CoMT) in effector cells

Question 45

What regulates the release of transmitter by presynaptic neurons to prevent overstimulation?

Answer 45

Pre-synaptic autoreceptors via negative feedback

- agonist activate autoreceptors which inhibits calcium channel activation thus no exocytosis of ACh or NA

Question 46

What is the drug that blocks U1, allowing NA to accumulate in the synaptic cleft to increase stimulation?
What does this result in? (2)

Answer 46

Cocaine

a1- vasoconstriction, B1- arrhythmias

Question 47

What is the mechanism of action of amphetamine?

Answer 47

Substrate of U1
Enters noradrenergic terminal and inhibits MAO
Enters synaptic vesicle to displace NA into cytoplasm
NA exits into the synaptic cleft via U1 (reverse)

Question 48

What is a selective, competitive antagonist of a1?

Answer 48

Prazosin

Question 49

What is a selective, competitive antagonist of B1?

Answer 49

Atenolol

Question 50

What is a selective agonist of B2?

Answer 50

Salbutamol

Question 51

What is a non-selective, competitive antagonist for all muscarinic ACh receptors? What is it used for? (2)

Answer 51

Atropine.

For bradycardia after MI and anti-cholinesterase poisoning

Question 52

Does atropine block nicotinic ACh receptors?

Answer 52

No

Question 53

What are the receptors involved in SNS and PNS of the heart?

Answer 53

SNS: B1
PNS: M3

Question 54

What are the receptors involved in SNS and PNS of the lung?

Answer 54

SNS: B2
PNS: M3

Question 55

What are the receptors (3) involved in GI sphincter constriction and reducing GI motility? What receptor is involved in the reverse?

Answer 55

SNS: a1, a2, B2
PNS: M3

Question 56

What effect does PNS have on the vasculature?

Answer 56

Very minimal, only causes relaxation in some areas

Question 57

What are the receptors involved in SNS and PNS of the adrenal medulla?

Answer 57

SNS: Nicotinic AChR due to pre-ganglionic innervation –> release of adrenaline and NA
PNS: No effect

Question 58

What are the receptors (3) involved in detrusor muscle relaxation of bladder and internal urinary sphincter constriction? What receptor is involved in the reverse?

Answer 58

Detrusor muscle

• SNS (B2, B3)
• PNS (M3)

Internal urinary sphincter

• SNS (a1)
• PNS (NO)