introduction to neuropharma

Question 1

how do all CNS neurotransmitters act, what is difference between LGIC mediated action and GPCR mediated action

Answer 1

all transmitters are agonists of either excitatory or inhibitory receptors

LGICs mediate fast effects and cause neurotransmission

GPCRs mediate 2nd messenger responses which are slow, cause neuromodulation

Question 2

how does activity of presynaptic and post synaptic receptors differ

Answer 2

presynaptic receptors modulate NT release

post synaptic receptors alter activity

Question 3

which NTs are always excitatory

Answer 3

glutamate (some metabotropic receptors are inhibitory) and aspartate

Question 4

which NTs are always inhibitory

Answer 4

GABA

Question 5

what glutamate receptors are there, what type of receptors are they

Answer 5

AMPA: LGIC
NMDA: LGIC
kainaite receptor: LGIC (delayed action)
metabotropic GluRs: GPCRs

Question 6

describe the AMPA receptor, including agonists and antagonists

Answer 6

LGIC for sodium

agonists: AMPA and glutamate
antagonists: NBQX

Question 7

describe NMDA receptor, including agonists and antagonists

Answer 7

NMDA receptor: LGIC for sodium and calcium

normally blocked by magnesium, this is removed when membrane is depolarised, causing NMDA receptor to be voltage gated

agonists: NMDA and glutmate, glycine is a co-agonist
antagonists: ketamine, MK-801

Question 8

what are the GABA receptors, describe them

Answer 8

GABAa-c
GABAa: LGIC for chloride
GABAb: GPCR associated potassium/chloride channel

Question 9

what are agonists/antagonists of GABAa and GABAb receptors

Answer 9

agonists:
GABAa: GABA, muscimol
(benzos and barbiturates potentiate GABAa channels)

GABAb: GABA, baclofen

antagonists:
GABAa: bicuculline
GABAb: CGP35358

Question 10

how does Ach work in the CNS

Answer 10

on nicotinic receptors: excitatory LGIC

on metabotropic receptors: M1,3 and 5 are excitatory, M2 and 4 are inhibitory

effects of Ach can be excitatory (nicotinic, M1,3,5) or inhibitory (M2,4)

nicotonic receptors have neuronal and muscular variants which have separate antagonists

Question 11

which transmitters are monoamines

Answer 11

5HT, noradrenaline, dopamine

Question 12

describe dopamine receptors

Answer 12

receptors: D1-5, all GPCRs

D1 and 5 are excitatory
D2-4 are inhibitory

agonists: dopamine and bromocriptine

amphetamines indirectly activate D receptors since they cause release of dopamine

antagonists: haloperidol

Question 13

describe 5HT receptors

Answer 13

receptors: 5HT1-7, all GPCRs

5HT1: inhibitory
5HT2: excitatory

Question 14

how do peptide transmitters differ from others

Answer 14

they only excite or inhibit, never both

important in long term changes in activity

all peptide receptors are GPCRs

Question 15

give examples of peptide transmitters

Answer 15

opioids, gastrins, tachykinins and NPYs

Question 16

what opioid receptors are there, what are agonists and antagonists

Answer 16

all inhibitory
mu, delta and kappa receptors

mu agonists: endorphins, morphine
delta agonists: enkephalins
kapp agonists: dynorphin

antagonists: naloxone at all receptors