Lecture 14 - HIV Protease Inhibitors

Question 1

Drugs work best when

Answer 1

Target non human factor

Question 2

Any drugs that bind to multiple targets tend have

Answer 2

Adversities

Patients don’t want to take

Question 3

HIV difficult because

Answer 3

Integrates its viral DNA (via RNA) into human cells

Question 4

HIV protease (enzyme)

Answer 4

Helps virus mature

Question 5

HIV protease enzyme

Answer 5

Homodimer

Aspartate (aspartyl) protease

Cleave long protein

Work on bonds phenyl proline or Tyr proline (Mammals don’t have this enzyme)

Good target

Question 6

Enzymes

Answer 6

Catalyze reactions

Active site

Preferred substrates

Inhibited. Competitive / non competitive

Used to develop a virus specific drug

Question 7

what do you Need to know to design an inhibitor?

Answer 7

active site and substrate:

Question 8

HIV proteases are a type of

Answer 8

aspartate (aspartyl) protease.

Question 9

Aspartate residues in

Answer 9

active site

Question 10

what do 2 residues use to cleave the peptide bond in a one-step reaction?

Answer 10

water

Question 11

HIV Protease is a homodimer formed of

Answer 11

2 identical amino acid chains

aspartate residues.

Question 12

HIV proteases cleaves bonds between

Answer 12

Phenylalanine and Proline

Tyrosin and Proline

Question 13

Apart from aspartate residues what other residues help position amino acid chain (S) by forming hydrophobic pockets for side chains?

Answer 13

S1, S2, S3 (on one chain)
and
S1’, S2’, S3’ (on the other chain)

Question 14

What is the substrate?

Answer 14

HIV protease cleave long amino acid chain that then forms multiple smaller proteins that the HIV virus uses to replicate and infect other cells

Question 15

What bond do you need to cut to cleave a protein?

Answer 15

Peptide bond

Question 16

Lets make a drug

Answer 16

1. Build a peptide-like backbone
2. Add some bulky side groups so it fits the active site
3. Design the rest of drug so it can be absorbed from a tablet

Question 17

Does drug work?

Answer 17

3D structure of HIV protease

dimer in complex with protease inhibitor saquinavir bound at the active site

Question 18

Saquinavir drug

Answer 18

Bind active site
Stops enzyme from working
Lots of similar drugs like this
Same peptide backbone with bulky stuff

Question 19

Non comp inhibitor

Answer 19

Bind somewhere else

added substrate won’t remove it

Vmax unchange
Km unchange

Question 20

Comp inhibitor

Answer 20

Binds to active site

added substrate remove it

Kmchanges

Question 21

What type of inhibitor do you want the drug to be comp or non comp?

Answer 21

comp

on y axis Vmax won’t move on axis stays same

Question 22

Downside with protease inhibitor side effects

Answer 22

Nausea, vomit, diarrhea

Heart problems

Interact with other drugs

Question 23

HIV protease mutate cause

Answer 23

resistance