Antiretroviral resistance in HIV
From IDWiki
- Genotyping sequences reverse transcriptase, integrase, and protease
- Resistance point mutations names as wild-type amino acid, position, and mutant amino acid (e.g. K 103 N)
- Bulk sequencing can only detect mutations that represent >20% of HIV
Common Mutations
- NRTIs
- M184V/I confers resistance to lamivudine, emtricitabine, and abacavir, but increases susceptibility to tenofovir, so combinations that include tenofovir are still safe to use
- K65R confers resistance to lamivudine, emtricitabine, and abacavir
- TAMS (M41L, D76N, K70R, L210W, T215Y, K219Q) confer resistance to basically all NRTIs as they increase in number
- Q151M, 69SSS confers resistance to NRTIs
- NNRTIs
- K103N confers resistance to efavirenz and nevirapine
- Y181C confers resistance to nevirapine and other NNRTIs
- E138K and K101E confer resistance to rilpivirine and other NNRTIs
- I50L confers resistance to atazanavir
- INSTIs
- N155H and Q148H/R?K confer resistance to raltegravir and elvitegravir
- Y143C confers resistance to raltegravir
- R263K confers resistance to dolutegravir
All Mutations
Drug | Mutation | Notes |
---|---|---|
NRTIs | ||
69 insertion complex multi-NRTI resistance | M 41 L | |
A 62 V | ||
* 69 insert | ||
K 70 R | ||
L 210 W | ||
T 215 Y F | ||
K 219 Q E | ||
151 complex multi-NRTI resistance | A 62 V | |
V 75 I | ||
F 77 L | ||
F 116 Y | ||
Q 151 M | ||
Thymidine analogue-associated mutations (TAMs) multi-NRTI resistance | M 41 L | resistance to AZT and d4T; resistance to others is proportional to the number of TAMs |
D 67 N | ||
K 70 R | ||
L 210 W | ||
T 215 Y F | ||
K 219 Q W | ||
Abacavir | K 65 R E N | |
L 74 V | ||
Y 115 F | ||
M 184 V | common; can still use TDF, AZT | |
Emtricitabine | K 65 R E N | |
M 184 V I | common; can use ABC (if M184I), TDF, AZT; can still use FTC in combination with TDF or TAF | |
Lamivudine | K 65 R E N | |
M 184 V I | common; can use ABC (if M184I), TDF, AZT; can still use 3TC in combination with TDF or TAF | |
Tenofovir | K 65 R E N | |
K 70 E | ||
Zidovudine | M 41 L | |
D 67 N | ||
K 70 R | ||
L 210 W | ||
T 215 Y F | ||
K 219 Q E | ||
NNRTIs | ||
Doravirine | V 106 A I M T | |
Y 188 C L H | ||
G 190 E | ||
P 225 H | ||
F 227 C L R | ||
M 230 L | ||
L 234 I | ||
Efavirenz | L 100 I | |
K 101 P | ||
K 103 N S | ||
V 106 M | ||
V 108 I | ||
Y 181 C I | ||
Y 188 L | ||
G 190 S A | ||
P 225 H | ||
M 230 L | ||
Nevirapine | L 100 I | |
K 101 P | ||
K 103 N S | ||
V 106 A M | ||
V 108 I | ||
Y 181 C I | ||
Y 188 C L H | ||
G 190 A | ||
M 230 L | ||
Rilpivirine | L 100 I | |
K 101 E P | ||
E 138 A G K Q R | ||
V 179 L | ||
Y 181 C I V | ||
Y 188 L | ||
H 221 Y | ||
F 227 C | ||
M 230 I L | ||
Protease inhibitors | ||
Atazanavir | L 10 I F V C | |
G 16 E | ||
K 20 R M I T V | ||
L 24 I | ||
V 32 I | ||
L 33 I F V | ||
E 34 Q | ||
M 36 I L V | ||
M 46 I L | ||
G 48 V | ||
I 50 L | ||
F 53 L Y | ||
I 54 L V M T A | ||
D 60 E | ||
I 62 V | ||
I 64 L M V | ||
A 71 V I T L | ||
G 73 C S T A | ||
V 82 A T F I | ||
I 84 V | ||
I 85 V | ||
N 88 S | ||
L 90 M | ||
I 93 L M | ||
Darunavir | V 11 I | |
V 32 I | ||
L 33 F | ||
I 47 V | ||
I 50 V | ||
I 54 M L | ||
T 74 P | ||
L 76 V | ||
I 84 V | ||
L 89 V | ||
INSTIs | ||
Bictegravir | G 118 R | |
E 138 K | ||
G 140 S | ||
Q 148 H | ||
R 263 K | ||
Cabotegravir | T 66 K | |
G 118 R | ||
E 138 A K T | ||
G 140 A C R S | ||
Q 148 H K R | ||
S 153 F Y | ||
N 155 H | ||
R 263 K | ||
Dolutegravir | G 118 R | |
F 121 Y | ||
E 138 A K T | ||
G 140 A S | ||
Q 148 H K R | ||
N 155 H | ||
R 263 K | ||
Elvitegravir | T 66 I A K | |
E 92 Q G | ||
T 97 A | ||
F 121 Y | ||
S 147 G | ||
Q 148 H K R | ||
N 155 H | ||
R 263 K | ||
Raltegravir | L 74 M | |
E 92 Q | ||
T 97 A | ||
F 121 Y | ||
E 138 A K | ||
G 140 A S | ||
Y 143 R H C | ||
Q 148 H K R | ||
N 155 H | ||
R 263 K |