An unusual HIV type 1 env sequence embedded in a mosaic virus from Cameroon: identification of a new env clade. European Network on the study of in utero transmission of HIV-1

Variability of human immunodeficiency virus-1 in the female genital reservoir during genital reactivation of herpes simplex virus type 2

Clinical and subclinical genital herpes simplex virus type 2 (HSV-2) reactivations have been associated with increases in human immunodeficiency virus (HIV)-1 genital shedding. Whether HSV-2 shedding contributes to the selection of specific genital HIV-1 variants remains unknown. We evaluated the genetic diversity of genital and blood HIV-1 RNA and DNA in 14 HIV-1/HSV-2-co-infected women, including seven with HSV-2 genital reactivation, and seven without as controls. HIV-1 DNA and HIV-1 RNA env V1-V3 sequences in paired blood and genital samples were compared. The HSV-2 selection pressure on HIV was estimated according to the number of synonymous substitutions (dS), the number of non-synonymous substitutions (dN) and the dS/dN ratio within HIV quasi-species. HIV-1 RNA levels in cervicovaginal secretions were higher in women with HSV-2 replication than in controls (p0.02). Plasma HIV-1 RNA and genital HIV-1 RNA and DNA were genetically compartmentalized. No differences in dS, dN and the dS/dN ratio were observed between the study groups for either genital HIV-1 RNA or plasma HIV-1 RNA. In contrast, dS and dN in genital HIV-1 DNA were significantly higher in patients with HSV-2 genital reactivation (p <0.01 and p <0.05, respectively). The mean of the dS/dN ratio in genital HIV-1 DNA was slightly higher in patients with HSV-2 genital replication, indicating a trend for purifying selection (p 0.056). HSV-2 increased the genetic diversity of genital HIV-1 DNA. These observations confirm molecular interactions between HSV-2 and HIV-1 at the genital tract level.

Polymorphisms in HIV-1 subtype C proteases and the potential impact on protease inhibitors

OBJECTIVES

(i) To review data on the genetic profile of the protease (PR) gene of human immunodeficiency virus (HIV)-1-C primary isolates relative to HIV-1-B; (ii) to examine data on the susceptibility of HIV-1-C isolates harbouring polymorphisms to PR inhibitors (PI) and the development of resistance; and (iii) to identify gaps required for an improved understanding of the role of polymorphisms in resistance development of HIV-1-C to PI.

METHOD

Literature review.

RESULTS

Significant differences exist between the baseline nucleotide and amino acid sequences of PR of HIV-1-B and HIV-1-C. Some of the amino acid substitutions seen in HIV-1-B when exposed to PI occur naturally in HIV-1-C isolates. Studies used different methodologies and interpretation systems to evaluate the phenotypic significance of polymorphisms seen in subtype C viruses, with conflicting outcomes. The evolutionary path to the resistance of HIV-1-C to PI may be different from that of HIV-1-B.

CONCLUSIONS

Infection with HIV-1-C is driving the AIDS epidemic in regions of the world with the most urgent needs for the management of the disease. More and more individuals will require PR inhibitors in second-line therapies, as access to antiretrovirals progresses. It is proposed that a standardized protocol be adopted to evaluate the phenotypic significance of the highly polymorphic HIV-1-C PR to PR inhibitors with the aim of better informing the tailoring of treatment regimens for optimal clinical benefit.

Genomic Diversity of Human Immunodeficiency Viruses

BACKGROUND

Globally circulating strains of human immunodeficiency virus type one (HIV-1) exhibit an extraordinary degree of genetic diversity. Sequences derived from HIV-1 strains have historically been classified on the basis of their phylogenetic relationships. The viruses have been classified into groups, subtypes or clades and circulating recombinant forms (CRFs). Groups were originally named M for main, O for outlier and N for Non-M-Non-O. The identification of subtypes and CRFs provides a means of tracking the dissemination of the pandemic.

METHODS

Various methods to study the molecular epidemiology of HIV-1 are virus isolation, cloning, DNA sequencing, restricted fragment length polymorphism of the molecularly cloned and amplified genome (PCR-RFLP), RNase mismatch cleavage analyses of RNA, RNA heteroduplexes derived from culture amplified virus, primer mismatch sensitive PCR to identify specific mutations, single strand conformational polymorphism (SSCP) to localize mutations arising over short regions of env gene, denaturing gradient gel electrophoresis and serological assays based on V3 peptide. Except for PCR-RFLP and denaturing gradient gel electrophoresis, these techniques do not easily allow simultaneous analyses of multiple sequence variants and include the laborious and selective process of virus co-cultivation or molecular cloning prior to analyses. The extensive DNA sequence analyses remain the gold standard for epidemiological investigations.

CONCLUSIONS

Both HIV-1 and HIV-2 are present in India. The Indian strains of HIV1 also show diverse subtypes with HIV1 subtype C predominance. Tracking the genetic diversity has implications towards understanding the evolution of the epidemic, immunopathogenesis, natural course of infection, response to therapy and most importantly vaccine design.

Biological and genetic characteristics of HIV infections in Cameroon reveals dual group M and O infections and a correlation between SI-inducing phenotype of the predominant CRF02_AG variant and disease stage

In Yaounde, Cameroon, HIV-1 group-specific V3 serology on 1469 HIV-positive samples collected between 1996 and 2001 revealed that group O infections remained constant around 1% for 6 years. Only one group N sample was identified and 4.3% reacted with group M and O peptides. Although the sensitivity of the group-specific polymerase chain reaction (PCR) in two genomic regions was not optimal, we confirmed, in at least 6 of 49 (12.2%) dual O/M seropositive samples and in 1 of 9 group O samples, dual infection with group O and M viruses (n = 4) or with group O or M virus and an intergroup recombinant virus (n = 3). Partial env (V3-V5) sequences on a subset of 295 samples showed that at least eight subtypes and five circulating recombinant forms (CRFs) of HIV-1 group M co-circulate; more than 60% were CRF02_AG and 11% had discordant subtype/CRF designations between env and gag. Similarly as for subtype B, the proportion of syncytium-inducing strains increased when CD4 counts were low in CRF02_AG-infected patients. The V3-loop charge was significantly lower for non-syncytium-inducing strains than for syncytium-inducing strains but cannot be used as an individual marker to predict phenotype. The two predominant HIV-1 variants in Africa, CRF02_AG and subtype C, thus have different biological characteristics.

High genetic diversity of HIV-1 strains in Chad, West Central Africa

The genetic diversity of HIV-1 strains in Chad was documented with a total of 107 samples from patients attending the general hospital in N'Djamena, the capital city of Chad. The genetic subtypes were identified in the V3-V5 env and p24 gag regions by sequence and phylogenetic tree analyses. Of the 107 strains, 78 had the same subtype/CRF designation between env and gag. Four subtypes and three CRFs were found to cocirculate: subtype A, 20.5%; subtype D, 18.7%; CRF02_AG, 13.1%; CRF11_cpx, 13.1%; subtype G, 3.7%; CRF01_AE, 2.8%; and subtype F1, 0.9%. The remaining 29 strains (27%) had discordant subtypes or CRF designations between env and gag; in 15 of these 29 strains, a CRF was involved in the recombination event, and 10 were subtype G in gag and subtype A in env, forming a separate subcluster within subtypes G and A. Subtype D strains represent almost 20% of the HIV-1 strains circulating in Chad and form a separate subcluster in gag and env. Nearly full-length genome sequencing for two such strains (99TCD-MN011 and 99TCD-MN012) revealed that they represent nonrecombinant subtype D variants. Compared with neighboring countries, the genetic subtype distribution of HIV-1 strains in Chad is unique for several reasons: lower prevalence of CRF02, high prevalence of CRF11 and subtype D, and absence of CRF06. These data clearly show that subtype distribution is very heterogeneous in Africa, probably the result of different founder effects.

HIV type 1 group M clades infecting subjects from rural villages in equatorial rain forests of Cameroon

Though the HIV-1 subtypes infecting patients living in urban and semi-urban areas in Cameroon have been reported, information on the subtypes infecting patients in rural villages is lacking. To begin to understand the diversity of the HIV-1 group M subtypes infecting persons living in rural villages in the equatorial rain forest regions of Cameroon, 49 plasma samples from 14 rural villages in four provinces of Cameroon were analyzed using heteroduplex mobility analysis (HMA), DNA sequencing, and phylogenetic tree analysis on the basis of env C2V5, gag, or pol regions. Sixty-one percent of the group M infections were clade A or CRF02_AG-like as subtyped by env and gag. Of the remaining group M infections, 12% were either A or CRF02_AG-like or CRF01_AE-like in recombination with other clades; 25% were infections that were entirely non-A or non-CRF02_AG-like; and 2% were CRF11_cpx. The HIV-1 group M clades identified included A, D, F (F2), G, and H. The CRF strains identified were CRF02_AG-like, CRF01_AE-like, and CRF11_cpx. Two new intersubtype recombinant infections, H/G and A/F2, were identified. This study suggests that the HIV-1 diversity in rural villages in the equatorial rain forest of Cameroon is at least as broad as has been observed in major cities of Cameroon and that multiple HIV-1 group M subtypes are infecting persons living in the countryside of Cameroon.

Compartmentalization of HIV-1 between breast milk and blood of HIV-infected mothers

HIV-1 variants in breast milk and peripheral blood have been compared in three HIV-1 infected mothers. Analysis of DNA and RNA env C2-V3 sequences showed a differential distribution of HIV variants between the two compartments. The major provirus variant found in breast milk corresponds to a minor variant in the blood of two mothers. In the third mother, the predominant proviral variant detected in breast milk was not represented in the HIV-1 blood population. The major RNA variant in breast milk was not represented in the blood of two mothers. The predominant RNA variant in breast milk and blood was however the same for the third mother. Unexpectedly, the pattern of free virus variants in breast milk of three mothers did not correspond to that of the proviral form, suggesting that free viruses do not derive from infected cells in breast milk. The observation of a compartmentalization of HIV-1 between peripheral blood and breast milk emphasizes that postnatal transmission of HIV occurs with variants that may not be predicted from the analysis of circulating viral populations.

HIV - 1 SUBTYPES, ITS IMPLICATIONS AND VIRAL DYNAMICS

Subtyping of HIV has important implications for developing candidate vaccine and understanding the biological behaviour and dynamics of HIV transmission in various populations. The third variable region (V3) in the envelope gene of HIV-1 has been shown to be a major determinant influencing a number of biological characteristics of the virus. HIV-1 evolves by rapid mutation and by recombination, both processes actively contributing to its genetic diversity. Most of the multiple genetic subtypes and intersubtype recombination of HIV-1 that comprise the global pandemic have not been characterized by full genome sequencing. The development of an effective human immunodeficiency virus type-1 (HIV-1) vaccine is likely to depend on knowledge of circulating variants of genes other than the commonly sequenced gag and env genes.

Presence of diverse human immunodeficiency virus type 1 viral variants in Cameroon

Phylogenetic analysis of the gp41 region of 123 HIV-1-seropositive specimens from Cameroon showed that 89 were subtype A (71% of these sequences were IbNg-like), 12 (10%) were subtype D, 11 (9%) were subtype G, 5 (4%; closely related to subtype F2) were subtype F, 1 was subtype H, 2 (1.6%) remained unclassifiable, while 3 were group O. Further analysis of the two unclassifiable specimens in gag(p24), pol(prot), and env (C2V3 or gp41) showed that one (98CM19) was a complex mosaic between subtype A in p24 and subtype J prot, and unclassifiable in env (C2V3 or gp41). The second, 98CM63, clustered distinctly from all known subtypes in p24, prot, C2V3, or gp41. 98CM63 clustered with a specimen from Cyprus and these two geographically and epidemiologically unlinked specimens, with their distinct clustering pattern, may represent a new subcluster of subtype A. In conclusion, these findings confirm the high HIV-1 genetic variability and further suggest the continuous appearance of new viral strains in this population.

Diversity of the HIV-1 long terminal repeat following mother-to-child transmission

A study of the human immunodeficiency virus Type 1 (HIV-1) 5' long terminal repeat (LTR) was performed to determine the extent of variation found within the LTR from 19 mother-infant pairs in Tanzania and to assess whether the LTR is useful in distinguishing maternal sequences that were transmitted to infants. HIV-1 subtypes A, C, and D as well as intersubtype recombinant LTR sequences were detected in mothers and infants. The LTR subtype was 100% concordant between mothers and their infants. Diversity calculations showed a significant reduction in LTR variation in infants compared to their mothers. However, the overall magnitude of LTR variation was less than that found in the env gene from the same individuals. These data suggest a selective constraint active upon the 5' long terminal repeat that is distinct from immune selective pressure(s) directed against HIV-1 structural genes. Detection of maternal LTR variants that were transmitted to infants may yield important information concerning nonstructural determinants of HIV-1 transmission from mother to infant.

Evidence of the existence of a new circulating recombinant form of HIV type 1 subtype A/J in Cameroon. The European Network on the Study of In Utero Transmission of HIV-1

Several genetic subtypes and circulating recombinant forms (CRFs) of HIV-1 have been identified. The greatest degree of genetic diversity is displayed by variants from Central and West Africa. HIV-1 env C2-V5 and protease sequences were obtained from 15 HIV-1-infected pregnant women, who were selected from a larger cohort study in Yaoundé, Cameroon. Fourteen of 15 virus variants were shown to be recombinant, whereas a single variant appeared to be nonrecombinant subtype A. Five viruses were subtype A/J recombinants, with env genes derived from subtype A and protease genes derived from subtype J. Seven viruses clustered with reference sequences for CRF02 AG(IbNG) in both the env and protease gene fragments, and were thus subtype A/G recombinants. Two variants displayed even more complex recombination patterns. Phylogenetic analyses indicated that the five subtype A/J recombinants might be the first representatives of a previously unrecognized CRF.

Conserved and exposed epitopes on intact, native, primary human immunodeficiency virus type 1 virions of group M

We have examined the exposure and conservation of antigenic epitopes on the surface envelope glycoproteins (gp120 and gp41) of 26 intact, native, primary human immunodeficiency virus type 1 (HIV-1) group M virions of clades A to H. For this, 47 monoclonal antibodies (MAbs) derived from HIV-1-infected patients were used which were directed at epitopes of gp120 (specifically V2, C2, V3, the CD4-binding domain [CD4bd], and C5) and epitopes of gp41 (clusters I and II). Of the five regions within gp120 examined, MAbs bound best to epitopes in the V3 and C5 regions. Only moderate to weak binding was observed by most MAbs to epitopes in the V2, C2, and CD4bd regions. Two anti-gp41 cluster I MAbs targeted to a region near the tip of the hydrophilic immunodominant domain bound strongly to >90% of isolates tested. On the other hand, binding of anti-gp41 cluster II MAbs was poor to moderate at best. Binding was dependent on conformational as well as linear structures on the envelope proteins of the virions. Further studies of neutralization demonstrated that MAbs that bound to virions did not always neutralize but all MAbs that neutralized bound to the homologous virus. This study demonstrates that epitopes in the V3 and C5 regions of gp120 and in the cluster I region of gp41 are well exposed on the surface of intact, native, primary HIV-1 isolates and that cross-reactive epitopes in these regions are shared by many viruses from clades A to H. However, only a limited number of MAbs to these epitopes on the surface of HIV-1 isolates can neutralize primary isolates.

Molecular characterization of a recombinant HIV type 1 isolate (A/G/E/?): unidentified regions may be derived from parental subtype E sequences

Recombination is one of several factors contributing to the genetic diversity of HIV-1, which is divided into group M (itself comprising 11 subtypes, A-K) and two other groups named O and N. In the present study, the full-length genome of an HIV-1 isolate obtained from a Greek subject (GR17) infected in the Democratic Republic of the Congo (formerly Zaire) was analyzed to reveal a novel mosaic sequence composed of subtypes A, G, and E and regions of indeterminate classification. In particular, most of pol and tat/vpu, as well as the region encoding intracellular domain of gp41, did not cluster with any of the previously characterized HIV-1 subtypes. The clustering of the LTR of GR17 with subtype E was suggestive of a subtype E origin of the unclassified regions. However, the identification of distinct characteristics in the LTR, such as two functional NF-kappaB sites and a distinct TAR element, compared with those of circulating (A/E) recombinants, suggests that the partial subtype E sequences found in GR17 and the mosaic viruses (A/E) have not derived from each other. These results provide evidence that parental subtype E may have existed in the geographic area of Central Africa.

Coreceptor usage of HIV-1 isolates representing different genetic subtypes obtained from pregnant Cameroonian women. European Network for In Utero Transmission of HIV-1

In this study, coreceptor usage of HIV-1 other than subtype B in relation to HIV-1 transmission from mother to child was investigated. Repeated sampling of 42 HIV-1-seropositive, asymptomatic women in Cameroon during the second and third trimesters of pregnancy, at delivery, and 6 months postpartum were performed. Env subtyping was carried out from uncultured peripheral blood mononuclear cells (PBMCs) by heteroduplex mobility assay and, whenever necessary, by DNA sequencing. Virus isolates were tested for coreceptor usage on human cell lines-U87.CD4 and GHOST(3)-engineered to express stably CD4 and the chemokine receptors CCR1, CCR2b, CCR3, CCR5, or CXCR4, or the orphan receptors BOB/gpr15 or Bonzo/STRL33/TYMSTR. Transmission rate was 11.9%. Viruses were predominantly envelope subtype A and used CCR5 as coreceptor and, surprisingly, 4 of 28 (14.2%) isolates from mothers and 1 of 3 isolates from children used the orphan receptor Bonzo as well. In 2 transmitting mothers from whom sequential HIV-1 isolates were available, viral coreceptor usage evolved from CCR5 monotropic to CCR5/Bonzo dual tropic during pregnancy, and in 1 case transmission of this virus could be documented. Our data suggest that evolution of HIV-1 coreceptor usage to dual (or multi-) tropism may occur during pregnancy.