TY - JOUR
T1 - Replication capacity, biological phenotype, and drug resistance of HIV strains isolated from patients failing antiretroviral therapy
AU - Nicastri, Emanuele
AU - Sarmati, Loredana
AU - D'Ettorre, Gabriella
AU - Palmisano, Lucia
AU - Parisi, Saverio G.
AU - Uccella, Ilaria
AU - Rianda, Alessia
AU - Concia, Ercole
AU - Vullo, Vincenzo
AU - Vella, Stefano
AU - Andreoni, Massimo
PY - 2003/1/1
Y1 - 2003/1/1
N2 - The fitness of human immunodeficiency virus (HIV) in vivo depends on the interaction of a multitude of viral and host factors. The aim of this study was to analyze the biological phenotype and the intrinsic capacity of the HIV isolates with drug-resistance mutations to replicate efficiently in the absence of drugs. An open label multicenter cross-sectional study was undertaken on 28 HIV-infected patients failing antiretroviral treatment. The subjects were studied for CD4+ cell count, HIV viral load, syncytium-inducing phenotype, genotypic drug-resistance assay, and replication capacity of HIV isolates assessed by co-culture assay. All HIV isolates showed a decreased replication capacity compared with wildtype strains. The lowest replication capacity was detected in HIV strains with more than five drug-resistance mutations. The highest replication capacity was observed in strains carrying the K103N and Y181C primary mutations that emerged after treatment with non-nucleoside analogue inhibitors. Isolates with R5 biological phenotype had a higher number of resistant mutations than X4 isolates (P=0.004). Particularly, the R5 phenotype was detected in all 6 isolates with more than 14 drug-resistance mutations. Patients with R5 strains had plasma viral load similar to patients with X4 strains, but marginally higher CD4+ cell counts, and their HIV isolates had significantly lower replication capacity of HIV isolates (P=0.008). No patient carrying HIV with a maintained replication capacity had a viral load less than 30,000 copies/ml. In patients failing HAART, the detection of HIV isolates with the R5 biological phenotype correlates with CD4+ cell count, an impaired replication capacity, and a high number of drug-resistance mutations.
AB - The fitness of human immunodeficiency virus (HIV) in vivo depends on the interaction of a multitude of viral and host factors. The aim of this study was to analyze the biological phenotype and the intrinsic capacity of the HIV isolates with drug-resistance mutations to replicate efficiently in the absence of drugs. An open label multicenter cross-sectional study was undertaken on 28 HIV-infected patients failing antiretroviral treatment. The subjects were studied for CD4+ cell count, HIV viral load, syncytium-inducing phenotype, genotypic drug-resistance assay, and replication capacity of HIV isolates assessed by co-culture assay. All HIV isolates showed a decreased replication capacity compared with wildtype strains. The lowest replication capacity was detected in HIV strains with more than five drug-resistance mutations. The highest replication capacity was observed in strains carrying the K103N and Y181C primary mutations that emerged after treatment with non-nucleoside analogue inhibitors. Isolates with R5 biological phenotype had a higher number of resistant mutations than X4 isolates (P=0.004). Particularly, the R5 phenotype was detected in all 6 isolates with more than 14 drug-resistance mutations. Patients with R5 strains had plasma viral load similar to patients with X4 strains, but marginally higher CD4+ cell counts, and their HIV isolates had significantly lower replication capacity of HIV isolates (P=0.008). No patient carrying HIV with a maintained replication capacity had a viral load less than 30,000 copies/ml. In patients failing HAART, the detection of HIV isolates with the R5 biological phenotype correlates with CD4+ cell count, an impaired replication capacity, and a high number of drug-resistance mutations.
KW - HIV drug resistance
KW - HIV isolates
KW - HIV replication capacity
KW - R5/X4 biological phenotype
UR - http://www.scopus.com/inward/record.url?scp=0037211266&partnerID=8YFLogxK
U2 - 10.1002/jmv.10269
DO - 10.1002/jmv.10269
M3 - Article
C2 - 12436471
AN - SCOPUS:0037211266
SN - 0146-6615
VL - 69
SP - 1
EP - 6
JO - Journal of Medical Virology
JF - Journal of Medical Virology
IS - 1
ER -