Differences in the length of gag proteins among different HIV type 1 subtypes

PTAP motif duplication in the p6 Gag protein confers a replication advantage on HIV-1 subtype C

HIV-1 subtype C (HIV-1C) may duplicate longer amino acid stretches in the p6 Gag protein, leading to the creation of an additional Pro-Thr/Ser-Ala-Pro (PTAP) motif necessary for viral packaging. However, the biological significance of a duplication of the PTAP motif for HIV-1 replication and pathogenesis has not been experimentally validated. In a longitudinal study of two different clinical cohorts of select HIV-1 seropositive, drug-naive individuals from India, we found that 8 of 50 of these individuals harbored a mixed infection of viral strains discordant for the PTAP duplication. Conventional and next-generation sequencing of six primary viral quasispecies at multiple time points disclosed that in a mixed infection, the viral strains containing the PTAP duplication dominated the infection. The dominance of the double-PTAP viral strains over a genetically similar single-PTAP viral clone was confirmed in viral proliferation and pairwise competition assays. Of note, in the proximity ligation assay, double-PTAP Gag proteins exhibited a significantly enhanced interaction with the host protein tumor susceptibility gene 101 (Tsg101). Moreover, Tsg101 overexpression resulted in a biphasic effect on HIV-1C proliferation, an enhanced effect at low concentration and an inhibitory effect only at higher concentrations, unlike a uniformly inhibitory effect on subtype B strains. In summary, our results indicate that the duplication of the PTAP motif in the p6 Gag protein enhances the replication fitness of HIV-1C by engaging the Tsg101 host protein with a higher affinity. Our results have implications for HIV-1 pathogenesis, especially of HIV-1C.

The PTAP sequence duplication in HIV-1 subtype C Gag p6 in drug-naive subjects of India and South Africa

Background

HIV-1 subtype C demonstrates several biological properties distinct from other viral subtypes. One such variation is the duplication of PTAP motif in p6 Gag. PTAP motif is a key player in viral budding. Here, we studied the prevalence of PTAP motif duplication in subtype C viral strains in a longitudinal study.

Methods

In a prospective follow-up study, 65 HIV-1 seropositive drug-naive subjects were monitored in two different clinical cohorts of India for 2 years with repeated sampling at 6-month intervals. The viral RNA was extracted from plasma, the gag segment was amplified and sequenced. From a subset of viral isolates the sequences of pol, env and LTR were sequenced. Using HIV-1 gag amino acid sequences available from public databases and additional sequences derived from the Indian and South-African cohorts, we examined the nature of PTAP motif duplication in subtype C.

Results

In 16% (8 of 50) of the primary viral strains of India, we identified a sequence duplication of the PTAP motif in Gag p6. The length of the sequence duplication varied from 6 to 14 amino acids in the viral isolates but remained fixed within a subject over a period of 24–36 month follow-up. In the duplicated motif, the core PTAP motif was invariable, but the flanking residues were highly variable. In an acute phase clinical cohort of South Africa, in a subset of 75 subjects, we found the presence of the PTAP duplication at a frequency of 29.3%. An analysis of the gag sequences from the extant databases showed that unlike other subtypes of HIV-1, subtype C has a natural propensity to generate the PTAP motif duplication at a significantly higher frequency and of greater length. Additionally, the global prevalence of PTAP duplication in subtype C appears to be increasing progressively over the past 30 years.

Conclusion

We showed that in subtype C, the duplication of the PTAP motif in p6 Gag involves sequence stretches of greater length, and at a much higher frequency as compared to other HIV-1 subtypes. Given that subtype C naturally lacks the Alix binding motif, the acquisition of an additional PTAP motif may confer replication advantage on this HIV-1 subtype. Further investigation is warranted to examine the significance of PTAP motif duplication on the replicative fitness of HIV-1.

Sequence variability in p6 gag protein and gag/pol coevolution in human immunodeficiency type 1 subtype F genomes

Polymorphisms occurring at the p6gag protein of HIV-1 have been previously found to have an impact on viral fitness and antiretroviral (ARV) resistance, mainly on subtype B genomes. We compared p6gag variability in a large group of 165 subtype F gag-pol sequences, with 36 subtype B sequences from the same study source, and identified sites of gag-pol coevolution under ARV selection pressure. Subtype-specific differences in the frequency of point mutations, insertions, and deletions previously associated with ARV resistance were found. Also, in our dataset of subtype F genomes a strong association between mutation P5L in the p1/p6 cleavage region of gag and the nelfinavir (NFV) resistance mutation N88D(PR) was found with no impact on the preference for any of the NFV resistance pathways.

Description of HIV-1 group M molecular epidemiology and drug resistance prevalence in Equatorial Guinea from migrants in Spain

Background

The HIV epidemic is increasing in Equatorial Guinea (GQ), West Central Africa, but few studies have reported its HIV molecular epidemiology. We aimed to describe the HIV-1 group M (HIV-1M) variants and drug-resistance mutations in GQ using sequences sampled in this country and in Spain, a frequent destination of Equatoguinean migrants.

Methods

We collected 195 HIV-1M pol sequences from Equatoguinean subjects attending Spanish clinics during 1997-2011, and 83 additional sequences sampled in GQ in 1997 and 2008 from GenBank. All (n = 278) were re-classified using phylogeny and tested for drug-resistance mutations. To evaluate the origin of CRF02_AG in GQ, we analyzed 2,562 CRF02_AG sequences and applied Bayesian MCMC inference (BEAST program).

Results

Most Equatoguinean patients recruited in Spain were women (61.1%) or heterosexuals (87.7%). In the 278 sequences, the variants found were CRF02_AG (47.8%), A (13.7%), B (7.2%), C (5.8%), G (5.4%) and others (20.1%). We found 6 CRF02_AG clusters emerged from 1983.9 to 2002.5 with origin in GQ (5.5 sequences/cluster). Transmitted drug-resistance (TDR) rate among naïve patients attended in Spain (n = 144) was 4.7%: 3.4% for PI (all with M46IL), 1.8% for NRTI (all with M184V) and 0.9% for NNRTI (Y188L). Among pre-treated patients, 9/31 (29%) presented any resistance, mainly affecting NNRTI (27.8%).

Conclusions

We report a low (<5%) TDR rate among naïve, with PI as the most affected class. Pre-treated patients also showed a low drug-resistance prevalence (29%) maybe related to the insufficient treatment coverage in GQ. CRF02_AG was the prevalent HIV-1M variant and entered GQ through independent introductions at least since the early 1980s.

Most HIV type 1 non-B infections in the Spanish cohort of antiretroviral treatment-naïve HIV-infected patients (CoRIS) are due to recombinant viruses

HIV-1 group M is classified into 9 subtypes, as well as recombinants favored by coinfection and superinfection events with different variants. Although HIV-1 subtype B is predominant in Europe, intersubtype recombinants are increasing in prevalence and complexity. In this study, phylogenetic analyses of pol sequences were performed to detect the HIV-1 circulating and unique recombinant forms (CRFs and URFs, respectively) in a Spanish cohort of antiretroviral treatment-naïve HIV-infected patients included in the Research Network on HIV/AIDS (CoRIS). Bootscanning and other methods were used to define complex recombinants not assigned to any subtype or CRF. A total of 670 available HIV-1 pol sequences from different patients were collected, of which 588 (87.8%) were assigned to HIV-1 subtype B and 82 (12.2%) to HIV-1 non-B variants. Recombinants caused the majority (71.9%) of HIV-1 non-B infections and were found in 8.8% of CoRIS patients. Eleven URFs (accounting for 13.4% of HIV-1 non-B infections), presenting complex mosaic patterns, were detected. Among them, 10 harbored subtype B fragments. Four of the 11 URFs were found in Spanish natives. A cluster of three B/CRF02_AG recombinants was detected. We conclude that complex variants, including unique recombinant forms, are being introduced into Spain through both immigrants and natives. An increase in the frequency of mosaic viruses, reflecting the increasing heterogeneity of the HIV epidemic in our country, is expected.

Drastic decrease of transcription activity due to hypermutated long terminal repeat (LTR) region in different HIV-1 subtypes and recombinants

Transcriptional activation of HIV-1 gene expression is partially controlled by the interaction between viral and cellular transcription factors acting at HIV-1 long terminal repeat (LTR) sequences. HIV-1 subtyping at LTR region and nucleotide LTR variability from clinical samples in 48 subjects carrying different HIV-1 subtypes (9A, 5C, 3D, 3F, 21G, 2H, 3J and 2 undefined) at the protease (PR) gene, were performed. LTR sequences from each HIV-1 clade were cloned in luciferase-expression vectors to determine basal and Tat-induced transcriptional activities in the presence and absence of PMA stimulation. A high number (37.8%) of recombinants at LTR/PR regions were identified. All HIV-1 promoters presented low basal transcriptional activity that was nevertheless induced by Tat and PMA. LTR activity was similar across the majority of HIV-1 variants in response to Tat and cell activation. Only subtype C and CRF01_AE LTRs presented higher basal and induced-PMA transcription activities than HXB2 clade B promoter. No basal or Tat/PMA induced activity was found in those promoters presenting G to A hypermutation compared to the wild type promoter activities. G to A hypermutation at some important transcription binding-factor sites within LTR compromised the activity of the viral promoter, decreasing the in vitro viral transcription of the luciferase gene.

Clinical differences and viral diversity between newly HIV type 1-diagnosed African and non-African patients in Spain (2005-2007)

Abstract The diagnosis of HIV-1 is increasing in African-born persons residing in Europe. They present a high prevalence of HIV-1 non-B variant infections and of parasitic infections, both of which are infrequent in Western countries. Immigration favors their presence in nonendemic countries. In this study, all newly HIV-diagnosed individuals at an HIV/AIDS and Tropical Medicine reference center in Madrid from 2005 through 2007 were retrospectively studied. HIV-1 subtyping was performed in gag, pol, and gp41 coding regions by phylogenetic analyses. The presence of other pathogens was also evaluated. Furthermore, all HIV-1-infected Africans were screened for parasitic infections. Newly diagnosed HIV-1 subjects included 90 sub-Saharan Africans and 188 non-Africans (116 Spaniards, 13 other Europeans, and 59 Latin Americans). Significantly higher numbers of HIV-1-infected Africans than non-Africans were females, acquired HIV-1 by heterosexual contact, and presented a more advanced clinical CDC stage and criteria for starting antiretroviral therapy in the first clinical visit. They predominantly carried non-B subtype infections, mainly intersubtype recombinants. Half of HIV-1-infected Africans had parasitic infections. CD4(+) T cell counts were lower among Africans than Europeans at the time of HIV-1 diagnosis. At 12 months of follow-up after starting antiretroviral treatment, a significantly lower proportion of Africans than non-Africans achieved undetectable viremia due to their higher loss to follow-up. However, CD4(+) T cell recovery and virological failure rates were similar. Therefore, the profile of African HIV-1-infected immigrants varies widely with respect to Spanish HIV-infected individuals. More advanced immunodeficiency and the coexistence of parasitic diseases and infections with a large diversity of HIV-1 non-B and recombinant variants are expected.

The Maturation Inhibitor Bevirimat (PA-457) can be Active in Patients Carrying HIV type-1 non-B Subtypes and Recombinants

Background

Bevirimat (PA-457) is the first candidate of a new family of antiretroviral drugs, the maturation inhibitors. Its action is based on disruption of the protease cleavage of the Gag precursor region. Six resistance mutations have been described and analysed in virus from both treatment-naive and protease inhibitor (PI)-experienced patients, but only in the subtype B of HIV type-1 (HIV-1) virus. Thus, genotypic resistance in non-B subtypes still requires analysis.

Methods

HIV-1 sequences of different subtypes (54 B, 81 non-B and recombinants) were analysed for the presence of resistance mutations to bevirimat, located within the capsid (CA) protein and spacer peptide 1 (SP1) cleavage site.

Results

No resistance mutations were found, although polymorphisms appeared in some CA-SP1 residues. The C-terminal CA protein and the N-terminal SP1 presented high conservation, whereas C-terminal SP1 was highly variable in sequence and length, with unknown influence in resistance acquisition.

Conclusions

The results of the present study confirm an absolute conservation of the residues involved in bevirimat in vitro resistance in a large panel of HIV-1 subtypes and recombinants from both treatment-naive and PI- experienced patients. Treatment alone seemed to increase the polymorphisms account in CRF02_AG recombinant sequences; however, the influence of natural polymorphisms needs to be explored.

Reliability of rapid subtyping tools compared to that of phylogenetic analysis for characterization of human immunodeficiency virus type 1 non-B subtypes and recombinant forms

Human immunodeficiency virus type 1 (HIV-1) subtyping is often estimated on the basis of pol sequences by using online websites instead of phylogenetic analysis (phy). We evaluated the reliability of distinct rapid subtyping tools versus phy with a large panel of HIV-1 non-B subtypes and circulating recombinant forms (CRF). pol sequences (277 protease [PR] and 171 reverse transcriptase [RT] sequences) previously assigned by phy to eight distinct HIV-1 non-B subtypes were obtained from 277 HIV-infected patients. Phy was run again to identify CRF. Subtyping was then performed using three rapid tools (the Stanford, NCBI, and REGA online tools). Thirty-three additional clade B sequences were tested as controls. New phylogenetic analyses reclassified two-thirds of pol sequences previously assigned to HIV-1 non-B clades as CRF. CRF02_AG variants were correctly assigned by the Stanford and NCBI tools for 92 to 97% and 96 to 99% of PR-RT sequences, respectively, while they were correctly assigned by the REGA tool for only 18 to 32% of PR-RT sequences. The Stanford, NCBI, and REGA tools failed to assign pure non-B clades correctly for 24 to 33%, 35%, and 57 to 64% of PR-RT sequences, respectively. For PR-RT sequences from CRF other than CRF02_AG, discrepancies occurred in 98 to 100%, 18 to 43%, and 80 to 87% of sequences, respectively. The concordance between those tools and phy was almost complete for subtype B assignment. Rapid subtyping tools show relatively low agreement with phy in identifying HIV-1 non-B clades and CRF other than CRF02_AG. The Stanford tool shows the best concordance with phy for the assignment of pure non-B clades, while the NCBI tool performs better at identifying CRF. Before entering routine clinical use, rapid subtyping tools should be optimized and updated periodically. Larger numbers of different non-B subtypes and CRF sequences should be included.

Interplay of reverse transcriptase inhibitor therapy and gag p6 diversity in HIV type 1 subtype G and CRF02_AG

Abstract The gag p6 region of HIV-1 has various nonsubstitutionary mutations, including insertions, duplications, deletions, and premature stop codons. Studies have linked gag p6 mutations to reduced susceptibility to antiretroviral therapy in HIV-1 subtype B. This study examined the relationship between antiretroviral therapy and gag p6 diversity in HIV-1 CRF02_AG and subtype G. p6 data were generated for secondary analyses following Viroseq genotyping of pol gene sequences in plasma samples from HIV-1-infected Nigerians on reverse transcriptase inhibitor therapy, with virologic failure (repeat VL > 2000 copies/ml). p6 sequence chromatograms were available for 40 CRF02_AG and 43 subtype G-infected individuals. Subjects who had not received their supply of antiretroviral drugs for at least 2 months prior to the plasma sampling were classified as nonadherent. p6 sequences from therapy-adherent individuals had more nonsubstitutionary mutations than sequences from drug-naive individuals (p = 0.0005). The P5L/T mutation was inversely correlated with the presence of K27Q/N in p6, with each mutation being more prominent in subtype G and CRF02_AG, respectively. The data also suggested that P5L/T may be a compensatory mutation for the loss of an essential phosphorylation site in p6. In addition, there was an inverse association between P5L/T mutations in p6 and thymidine analog mutations in reverse transcriptase (p = 0.0001), and drug nonadherence was associated with an 8-fold lower risk of having a nonsubstitutionary mutation in p6 (95% CI = 1.27-52.57). Our data suggest that antiretroviral therapy influences gag p6 diversity, but further studies are needed to clarify these observations.

Variability in the P6gag domains of HIV-1 involved in viral budding

The genetic variability within PT/SAP, LYP and LXXLF HIV-1 P6gag motifs, required for the binding to Tsg101 and AIP1 cellular host proteins during viral budding, was examined in 122 HIV-infected subjects. PT/SAP duplications were statistically more frequent in B versus non-B subtypes. Substitutions at LYP were fourfold less frequent in antiretroviral-experienced only in clade B. P6gag variability across HIV-1 subtypes and after antiretroviral exposure may influence interactions with host cells involved in viral budding.