CNS Neuropharmacology

Question 1

Acetyl-CoA + Choline → ACh + CoA

What is the enzyme involved in this process?

What is the Rate Limiting Step?

Answer 1

Choline Acetyl Transferase (CAT).

Choline uptake is the RDS.

Question 2

What G_proteins fo the following subtypes of Muscarinic Receptors stimulate?

M1-M3 → ?

M2-M4 → ?

Answer 2

Muscarinic Receptors:
M1-M3 (Gq → stimulate PLC activity)
M2-M4 (Gi/o → inhibit AC activity)

Question 3

Nicotinic Receptors, N_N, open receptor gated __?__ channel.

Answer 3

cation channel

Question 4

Hows does ACh get terminated?

Answer 4

Enzymatic degradation catalyzed by acetylcholinesterase (AChE) in synapse

Question 5

Where is ACh produced and distributed?

Answer 5

Produced in brainstem and basal forebrain, then project widely throughout cerebral cortex and hippocampus

Question 6

What are the NTs that are considered Monoamines?

Answer 6

Monoamine (DA-NE-5HT)

Question 7

What are the Catecholamines NTs?

Answer 7

Catecholamines: Dopamine, Norepinephrine

Question 8

What are the steps in the the synthesis of DA and NE?

Answer 8

Tyrosine → (Tyrosine Hydroxylase = rate limiting step) → L-Dopa → (Dopa Decarboxylase) → Dopamine → (DBH) → Norepinephrine

Question 9

What G-protein do the Dopamine receptors stimulate?

D1 → ?
D2 → ?

Answer 9

D1 (Gs → stimulate AC activity)

D2 (Gi/o → inhibit AC activity)

Question 10

What G-protein do the Norepinephrine receptors stimulate?

• a1 adrenergic → ?
• a2 adrenergic → ?
• B1 adrenergic → ?
• B2 adrenergic → ?

Answer 10

• a1 adrenergic (Gq → stimulate phospholipase C)
• a2 adrenergic (Gi/o → inhibit AC activity, K+ channel opening)
• B1 adrenergic (Gs → stimulate AC activity)
• B2 adrenergic (Gs → stimulate AC activity)

Question 11

Where is the location of Dopamine?

Answer 11

Dopamine: Substantia Nigra, Ventral Tegmental Area

Question 12

Where is the location of Norepinephrine ?

Answer 12

Norepinephrine: cell bodies in pons and brainstem (locus ceruleus, A1, A2, A5, A7) → project to all levels of brain

Question 13

What is the function of DA?

Answer 13

Dopamine: initiate voluntary movement, reward-related behaviors, cognitive control of behavior

Question 14

What is the function of NE?

Answer 14

Norepinephrine: arousal, attention, sleep-wake cycle, fear response/anxiety/mood/emotion, afferent pain signals.

Question 15

What is the function of Indoleamine NTs?

What is an example of a Indoleamine NTs?

Answer 15

sleep, arousal, attention, processing of sensory info, emotion, mood, pain, eating/drinking.

Serotonin

Question 16

How are Indoleamine NTs (serotonin) synthesized?

Answer 16

Tryptophan → (Tryptophan hydroxylase = rate limiting step) → 5-OH-tryptophan → (AAA Dec) → 5-HT

Question 17

What is the enzyme (and RDS) involved in the synthesis of Indoleamine NTs (serotonin)?

Answer 17

Tryptophan hydroxylase

Question 18

What G-protein do the 5HT receptors stimulate?

• 5HT-1A, 1B, 1D → ?
• 5HT-2A, 2B, 2C → ?
• 5HT3 → ?
• 5HT4 → ?

Answer 18

• 5HT-1A, 1B, 1D (Gi/o → inhibit AC activity, open K+ channel)
• 5HT-2A, 2B, 2C (Gq → stimulate PLC activity, close Ca2+ channel)
• 5HT3 (Ligand-gated cation channel, excitatory)
• 5HT4 (Gs → stimulate AC activity)

Question 19

Where are 5HT NTs located?

Answer 19

Cell bodies in raphe regions of pons/upper brainstem → project to all levels of brain

Question 20

How are 5HT NTs stored?

Answer 20

Storage in vesicles via vesicular monoamine transporter (VMAT)
Packaged and protected from degradation via intraneuronal monoamine oxidase (MAO)

Question 21

How are 5HT NTs terminated?

Answer 21

Primarily by presynaptic membrane transport back into nerve terminal (Reuptake) → once in cytosol, inactivated by MAO or transported into vesicles by VMAT)
Specific transporters for each monoamine (DAT, NET, SERT)

Question 22

Name a amino acid NT?

Answer 22

GABA-Glu

Question 23

GABA (hierarchical systems) - major _______ neurotransmitter in CNS

Answer 23

inhibitory

Question 24

How is GABA synthesized?

Answer 24

Precursor = Glutamate

Glutamate → GABA via GAD (glutamic acid decarboxylase)

Question 25

How is GABA terminated?

Answer 25

GABA transporter allows reuptake into presynaptic nerve terminal and surrounding glial cells

Question 26

What are the MOA of

GABA-A

GABA-B

Answer 26

• GABA-A: opens ligand-gated Cl-channel → decrease neuronal excitability (IPSP)
  Postsynaptic only
• GABA-B: Gi/o → inhibit AC, decrease Ca2+ conductance, open K+ channel. Pre and postsynaptic

Question 27

Where is GABA located?

Answer 27

High concentration in brain and spinal cord

Absent in peripheral tissue

Question 28

What is the precursor to GABA?

Answer 28

Glutamate

Question 29

What are the 3 GABA drugs we learned about?

Answer 29

• Benzodiazepines
• Tiagabine
• Vigabatrin

Question 30

What is the MOA of Benzodiazepines?

Answer 30

Benzodiazepines: bind GABA-A receptor, increase GABA inhibitory action.

Question 31

What is the MOA of Tiagabine?

Answer 31

inhibit reuptake of GABA

Question 32

What is the MOA of Vigabatrin?

Answer 32

inhibit degradation by GABA-transaminase (GABA-T)

Question 33

What GABA drugs is used to Treat seizures caused by depressed GABA activity and anxiety caused by excessive amygdala activity/depressed GABA activity?

Answer 33

Benzodiazepines

Question 34

What NT is the major excitatory synaptic transmission in CNS and trigger neuroplasticity?

Answer 34

Glutamate

Question 35

How is Glutamate synthesized?

Answer 35

Glutamine → glutamate via Glutaminase in nerve endings, stored in synaptic vesicles.

Dependent on interaction between nerve terminals and glial cells

Question 36

How is Glutamate terminated?

Answer 36

Reuptake of glutamate into neuron via Neuronal Glutamate Transporter.

Reuptake of glutamate into glial cell via Glial Cell Transporter → converted to glutamine by Glutamine Synthase → taken up into neuron again and converted back to glutamate

Question 37

What are the 2 ionotropic receptors for glutamate?

Answer 37

• NMDA (Ca2+ influx)

- AMPA (Na+ and Ca2+ influx)

Question 38

What are the metabotropic receptors for glutamate?

Answer 38

• R1-R5 (Gq → increase PLC activity)
• R2-R3 (Gi/o → decreased AC activity, inhibit VSCC, activate K+ channels)
• R4-R6-R7-R8 (Gi/o → decreased AC activity, inhibit VSCC)

Question 39

Where is Glutamate located?

Answer 39

All neurons in CNS - highest in hippocampus, cortex, lateral septum, striatum, and cerebellum

Question 40

Hierarchical Systems: ?

Answer 40

Hierarchical Systems:
Clearly delineated pathways directly involved in motor control and sensory perception

Large myelinated neurons with rapid conduction velocity

Question 41

___1___ neurons: in pathways that transmit signals over long distances, feed forward.

___2___ circuit interneurons: synapse on relay neuron cell body or on axon in spinal cord.

Answer 41

1. Relay; Excitatory → NT = glutamate.

2. Local; Inhibitory → NT = GABA

Question 42

Can diffuse systems convey topographically specific information?

Answer 42

NO!!!