Lecture 6: how do drugs work

Question 1

Four primary drug tagets?

Answer 1

1. ion channels
2. enzymes
3. carrier molecules
4. receptors

the only exception being DNA for which some anti-tumour drugs and antimicrobial drugs bind to

Question 2

4 steps of neurotransmission

Answer 2

1. synthesis
2. release
3. receptors
4. inactivation

Question 3

key sites of action of drugs in neurotransmitter:

synthesis

release

reception

Answer 3

1. choline trnsporter (for ACh synthesis)

Choline acetyl transferase (ChAT) -for choline synthesis

2. Vesicular ACh transporter acks ACh into vesicles

Ca ²⁺ causes vessicle binding to membrane

3. Ligand gated ion channels, G-protein couples receptors, tyrosine/cytokine kinase receptors, steroid/nuclear hormone receptors

Question 4

4 types of channels

Answer 4

Question 5

Ligand gated ion channels features?

Answer 5

• fast signal transmission
• multi-subunit complexes
• responds to specific ligands, select ions to let through
• conduct these ions through otherwise impermeable membranes

Question 6

nicotinic acetylcholine receptors

the receptor pore?

Answer 6

• 5 subunits arranged around central channel
• each subunit has 4 transmembrane domains (20 total)
• each binding site sits between alpha subunit and adjacent subunit
• both binding sites needed to be occupied for channel opening
• onened by ACh binding
• aa in TM2 determies conductivity (usually Na+ and K+)

Question 7

Ionotropic receptors as drug targets?

Answer 7

GABAA -Benzodiazapines and barbiturates (sedation and anxiolytic effects). Muscimol (hallucinogenic mushrooms)

Glutamate - ketamine (anaesthetic) have adverse effects

Nicotinic - nicotine, pancuronium (antagonsist) used as a muscle relaxants during anaesthetic

Question 8

GPCRs?

Answer 8

• 7 transmembrane domains
• intracellular C terminal interacts with G protein
• Gαs = activates adenyl cyclase, ↑cAMP
• Gαi = inhibits adenyl cyclase, ↓cAMP
• Gαq = activates PLC (PIP2 —> DAG + IP3)
• Use Muscarinic receptors M1,2,3,4,5

Question 9

GPCR pre-synaptic receptors?

Answer 9

• usually Gi linked
• activation leads to inhibition of voltage sensitive Ca²⁺ channels
• results in decreased neurotransmitter release
• FEEDBACK LOOP
• drugs can be targeted to block these decreasing release 10 fold

Question 10

tyrosine kinase receptors

Answer 10

• receptor functions as an enzyme that transfers phosphate groups from ATP to tyrosine residues on intracellular target proteins (autophosphorylation)
• mediate action of growth factors, cytokines and certain hormones (eg insulin)

Question 11

vascular endothelial growth factor receptors

Answer 11

• essential for angiogenesis during development, pregnancy, woud healing
• also in pathophysioloical conditions: cancer, rheumatoid arthritis, CVD

Question 12

VEGFR2?

Answer 12

• ligand stimulated receptor dimerisation
• autophosphorylation of tyrosine residues in cytoplasmic domain
• associated with SH2 domain proteins
• work via big cascades (proliferation pathways)

Question 13

proliferation pathways?

Answer 13

1. receptor activation leads to PLC_y activation by phosphorylation
2. this hydrolyses PIP2 to DAG and IP3
3. DAG activates PKC
4. PKC activation leads to activation of ERK via Raf and MEK
5. ERK activation leads to increased gene transcription

Question 14

how do drugs bind to receptors? weak to strong

Answer 14

1. Ven der waals forces
2. hydrogen bonding
3. ionic
4. covalent - irreversible

Question 15

Kd?

Answer 15

affinity constant = concentration when 50% is bound

Question 16

affinity of drug

Answer 16

higher affinity means more binding for same conc

Question 17

affinity vs biological response

Answer 17

is NOT LINEAR and is dependent upon many factors downstream usually

Question 18

C50

Answer 18

potency- 50% of max response is observed determines this. Higher the conc at C50 the lower the potency

Question 19

efficacy?

Answer 19

ability of a drug to bind to a receptor and cause a change in the receptor’s action

positive efficacy = agonist

negative efficacy = inverse agonist

no efficacy (binds but has no effect ie. it doesn’t activate or inactivate it just stops other things binding) = antagonist

Question 20

different tyoes of antagonists

Answer 20

1. reversible competitive
2. irreversible

NB: sometimes irreversible can appear reversible if the % occupacy of receptor required for max effect is very low

Question 21

mechanism of neurotrans inactivation?

Answer 21

transport back

enzymatic degradation

Question 22

Serotonin (5HT) transporter

Answer 22

5HT is involved in sleep, apetite, memory, sexual behavior

reuptake determines extent and duration of receptor activation

SSRI’s such as fluoxetine block thismaking you happy