Complete sequence of an infectious molecular clone derived from a Spanish HIV type I isolate

High-Risk Sexual Practices Contribute to HIV-1 Double Infection Among Men Who Have Sex with Men in Madrid

Data on the prevalence of double infection (DI) in HIV individuals are lacking in Spain. To fill this gap, we analyzed the prevalence of DI in a cohort of men who have sex with men (MSM) and examined factors contributing to DI. We selected 81 MSM attending Centro Sanitario Sandoval, a sexually transmitted diseases clinic in Madrid. We obtained by ultra-deep sequencing the proviral sequences in gag and env genes and performed a phylogenetic analysis for the identification of DI. Clinical, behavioral, host, and viral factors were studied for its association with DI. We detected six individuals with DI and one case of superinfection with a global prevalence of 8.6%. The genetic distance among the subtype B viruses in monoinfected individuals (24.4%) was lower than the distance between the two viruses in subtype B DI individuals (29.5%). Individuals with a high number of sexual contacts (>25 partners/year) had an 8.66 times higher risk of DI (p = .017). In this MSM cohort the prevalence of HIV DI was estimated at 8.6%. DI was strongly associated with the number of sexual partners. Because of the pathogenic consequences of HIV DI, this high prevalence should promote public health programs targeted at high-risk population such as MSM for the control of HIV infection and DI. HIV DI should be considered for a better clinical management of these individuals.

Characterizing the antiviral effect of an ATR inhibitor on human immunodeficiency virus type 1 replication

In the search for new antiviral therapies against human immunodeficiency virus type 1 (HIV-1), several cellular targets are being investigated. Ataxia telangiectasia and Rad3-related protein (ATR) has been implicated in HIV-1 replication, namely during retroviral DNA integration. We studied the effect of the ATR inhibitor ETP-46464 on HIV-1 replication in peripheral blood mononuclear cells (PBMCs) and in the persistently HIV-1-infected cell line H61-D. After treatment with ETP-46464, a significant decrease in virus production was observed in both cell systems. Quantification of viral DNA forms in the acutely infected PBMCs suggests that inhibition could take place in the early phase of the viral life cycle before viral DNA integration. Moreover, after treatment of H61-D cells with 3'-azido-3'-deoxythymidine (AZT), which blocks new reverse transcription events, ETP-46464 decreased viral production, suggesting that inhibition of viral replication occurred in the late phase of the life cycle after viral DNA integration. A decrease in virus production after transfection of 293T cells with an HIV-1 infectious molecular clone also suggested that the effect of ETP-46464 is exerted at a post-integration step. We propose that ETP-46464 produces its inhibitory effect on HIV-1 replication by acting in both the early and late phases of the retroviral replication cycle. Thus, ATR could represent a new target for inhibition of HIV-1 replication.

Identification of a cluster of HIV-1 controllers infected with low replicating viruses

Long term non-progressor patients (LTNPs) are characterized by the natural control of HIV-1 infection. This control is related to host genetic, immunological and virological factors. In this work, phylogenetic analysis of the proviral nucleotide sequences in env gene from a Spanish HIV-1 LTNPs cohort identified a cluster of 6 HIV-1 controllers infected with closely-related viruses. The patients of the cluster showed common clinical and epidemiological features: drug user practices, infection in the same city (Madrid, Spain) and at the same time (late 70's-early 80's). All cluster patients displayed distinct host alleles associated with HIV control. Analysis of the virus envelope nucleotide sequences showed ancestral characteristic, lack of evolution and presence of rare amino-acids. Biological characterization of recombinant viruses with the envelope proteins from the cluster viruses showed very low replicative capacity in TZMbl and U87-CD4/CCR5 cells. The lack of clinical progression in the viral cluster patients with distinct combinations of protective host genotypes, but infected by low replicating viruses, indicate the important role of the virus in the non-progressor phenotype in these patients.

Evidence of ongoing replication in a human immunodeficiency virus type 1 persistently infected cell line

Human immunodeficiency virus type 1 (HIV-1) persistently infected cell lines are characterized by the continuous viral production without cytopathic effect. However, it is not completely clear if this production is contributed only by viral transcription or also by new cycles of viral replication. We studied an HIV-1 persistently infected cell line, designated H61-D, providing evidence of new replication cycles as sustained by: (i) a decrease in viral production, measured by p24 protein, after treatment of the culture with 3'-azydo-3'-deoxythymydine; (ii) detection of new integration events in the course of cell culture, and (iii) finding of two-long-terminal repeat circles in the cells. H61-D cells were not infected by cell-free virus, but infection was possible by co-culture with another productive-infected cell line. In conclusion, ongoing viral replication is taking place in H61-D persistent cells and new infections are mediated by a cell-to-cell spread mechanism.

Searching for an effective, safe and universal anti-HIV vaccine: Finding the answer in just one short peptide

We explore the pentapeptide overlapping between human immunodeficiency virus (HIV) proteins and the human proteome. Our intent was to define viral peptides to be used in vaccines effective against different HIV strains, vaccines that are able to overcome the difficulties posed by the tendency of HIV to mutate, and that are also exempt from harmful collateral cross-reactions, as well as being repeatedly administrable to the global population. Analysis of HIV-1 envelope glycoprotein 160 (Env gp160) sequences revealed a set of 15 pentapeptides highly conserved among a number of retroviral sequences, and absent in the human proteome, thus representing unique molecular retroviral signatures. Use of these short viral peptide modules may represent the first concrete step toward the goal of a universal, safe and effective anti-HIV vaccine.

Human immunodeficiency virus type 1 chronic infection is associated with different gene expression in MT-4, H9 and U937 cell lines

To investigate cellular factors involved in HIV-1 chronic infection, three cell lines chronically infected with the same HIV-1 viral isolate (s61) were studied by cDNA microarray analysis. Two T cell lines, H61 and M61, showed the characteristics of a persistent infection whereas U61 cell line displayed a latent infection pattern. Analysis of genes with altered expression in the three cell lines revealed evidence of apoptosis control by up-regulation of anti-apoptotic genes and down-regulation of pro-apoptotic genes. In addition, cell cycle control was affected in the two persistent T cell lines particularly through the down-regulation of cyclin-dependent kinase inhibitor 1A (CDKN1A/p21). Moreover, each cell line showed specific characteristics, like in M61 cells, genes related with cellular activation and with cell migration and motility. In U61 cells, genes associated with immune response were activated. Genes with altered expression in our experiments, and not previously related with HIV such as ANXA 1 or CFLAR were detected and validated. This work revealed that different cell mechanism such as control of apoptosis and cell cycle are important for "in vitro" HIV-1 chronic infections, and discovered new genes previously not related with HIV-1 replication.

An HIV-1 215V mutant shows increased phenotypic resistance to d4T

Human immunodeficiency virus type 1 (HIV-1) viruses with C/S/D/E at 215 codon of the reverse transcriptase (RT) have been associated with the T215Y/F HIV-1 resistant viruses transmission to naïve patients. The uncommon T215V mutation was detected in DNA proviral samples of a treatment-naïve patient. Virus T215V was obtained after cloning the patient-RT into a molecular clone. Wild-type (T215) and resistant (T215F) clones, were obtained in T215V clone by "in vitro" site-directed mutagenesis. Phenotypic resistance against AZT, ddI and d4T, replication kinetics and the selection of resistance mutations were estimated "in vitro". The T215V virus replicated as efficiently as the wild-type (T215) without antivirals and in the presence of AZT or ddI. The T215V virus showed higher replicative capacity than the wild-type and a 4.3-fold increase in the IC(50) values in cultures with d4T. Selection of resistance mutations was not observed in viral quasispecies of the T215V virus after serial passages in culture in presence of increasing concentrations of AZT, ddI or d4T. This work demonstrates that the T215V mutation decreases the susceptibility of HIV-1 to d4T, and consequently, it could compromise the response to regimens containing this antiviral.

Each genomic RNA in HIV-1 heterozygous virus generate new virions

Retrovirus are unique because they present two complete copies of the genomic RNA in each virion. It is believed that only one proviral DNA is formed from the two genomic RNAs. To check this hypothesis, we constructed two deleterious HIV-1 variants in gag gene which upon transfection in Cos-1 cells were able, by complementation, to form heterozygous viruses, used to infect MT4 cells in a plaque assay. Analysis of the proviral DNA of the eight plaques obtained indicated that five were recombinants between the two deleterious mutants. Three other plaques showed three bands corresponding to the reverse transcription of both strands of one heterozygous virion and to the recombination of the two genomes. These results demonstrate that the two genomic RNAs in HIV-1 heterozygous virions could be used in the generation of new viruses. This mechanism permits the recovery of deleterious mutants and enhances the evolutive potential of HIV-1.

Tryptophan scanning mutagenesis of aromatic residues within the polymerase domain of HIV-1 reverse transcriptase: critical role of Phe-130 for p51 function and second-site revertant restoring viral replication capacity

The effects on virus viability and reverse transcriptase (RT) function of substituting Trp for Tyr or Phe residues within the polymerase domain of human immunodeficiency virus type 1 (HIV-1) RT have been analyzed with an infectious HIV-1 clone. Viruses containing mutations Y56W, F61W, F87W, F116W, Y127W, Y144W, F171W, Y181W, Y183W, Y188W, F227W, or Y232W in their RT-coding regions were viable and showed replication capacities similar or slightly reduced in comparison with the wild-type HIV-1. However, RTs bearing mutations F77W or Y146W had a dNTP-binding defect, rendering nonviable viruses. HIV-1 carrying RT mutations F124W or F130W replicated very poorly, but compensatory changes (K83R for F124W, and T58S for F130W) were selected upon passaging the virus in cell culture. The amino acid substitution F130W diminishes the stability of the 51-kDa subunit of the RT (p51) and impairs polyprotein processing in virus-infected cells, an effect that can be mitigated when T58S is found in p51.

In vitro analysis of human immunodeficiency virus type 1 resistance to nevirapine and fitness determination of resistant variants

Nevirapine-resistant variants were generated by serial passages in MT-2 cells in the presence of increasing drug concentrations. In passage 5, mutations V106A, Y181C and G190A were detected in the global population, associated with a 100-fold susceptibility decrease. Sequence analysis of biological clones obtained from passage 5 and subsequent passages showed that single mutants, detected in first passages, were progressively replaced in passage 15 by double mutants, correlating with a 500-fold increase in phenotypic resistance. Fitness determination of single mutants confirmed that, in the presence of nevirapine, every variant was more fit than wild-type with a fitness order Y181C>V106A>G190A>wild-type. Unexpectedly, in the absence of the drug, the Y181C resistant mutant was more fit than wild-type, with a fitness gradient Y181C>wild-type >G106A>or=V190A. Using a molecular clone in which the Y181C mutation was introduced by in vitro mutagenesis, the greater fitness of the Y181C mutant was confirmed in new competition cultures. These data exemplify the role of resistance mutations on virus phenotype but also on virus evolution leading, occasionally, to resistant variants fitter than the wild-type in the absence of the drug.

Second-site reversion of a human immunodeficiency virus type 1 reverse transcriptase mutant that restores enzyme function and replication capacity

Nonconservative substitutions for Tyr-115 in the reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1) lead to enzymes displaying lower affinity for deoxynucleoside triphosphates (dNTPs) (A. M. Martín-Hernández, E. Domingo, and L. Menéndez-Arias, EMBO J. 15:4434-4442, 1996). Several mutations at this position (Y115W, Y115L, Y115A, and Y115D) were introduced in an infectious HIV-1 clone, and the replicative capacity of the mutant viruses was monitored. Y115W was the only mutant able to replicate in MT-4 cells, albeit very poorly. Nucleotide sequence analysis of the progeny virus recovered from supernatants of four independent transfection experiments showed that the Y115W mutation was maintained. However, in all cases an additional substitution in the primer grip of the RT (M230I) emerged when the virus increased its replication capacity. Using recombinant HIV-1 RT, we demonstrate that M230I mitigates the polymerase activity defect of the Y115W mutant, by increasing the dNTP binding affinity of the enzyme. The second-site suppressor effects observed were mediated by mutations in the 66-kDa subunit of the RT, as demonstrated with chimeric heterodimers. Examination of available crystal structures of HIV-1 RT suggests a possible mechanism for restoration of enzyme activity by the second-site revertant.