Identification of CRF10_CD viruses among bar and hotel workers in Moshi, Northern Tanzania

We recently identified an HIV-1 subtype C and D circulating recombinant form (CRF10_CD) in infants in Dar es Salaam, Tanzania. So far, this is the only reported HIV-1 CRF in East Africa. However, evidence for its spread in the adult population is scarce. Here we describe the presence of CRF10_CD in two asymptomatic bar and hotel workers in Moshi, Northern Tanzania. Subgenomic sequences from gag (3'p24-5'p7), env (C2-C5), and the 5' LTR were used for phylogenetic analysis and identification of recombination. Genetic divergence between the CRF10_CD sequences from Moshi suggested that they were contracted from independent sources. A third bar worker was infected with an apparent CRF10_CD/subtype A recombinant virus. Our data indicate that CRF10_CD genomes can be transmitted both vertically and heterosexually.     

Identification of two CRF11-cpx genomes and two preliminary representatives of a new circulating recombinant form (CRF13-cpx) of HIV type 1 in Cameroon

Recombination is an efficient mechanism of HIV-1 to generate genetic variability. Some of the recombinant forms of HIV-1 that have been described are of epidemic importance, and they are referred to as circulating recombinant forms (CRFs). In this study, we characterized four HIV-1 isolates from Cameroon that had previously been classified as subtype J in the protease gene and as subtype A in the env C2-V5 region. Analyses of the nearly complete genomes revealed that two of the samples (95CM-1816 and 96CM-4496) had the same recombinant structure as CRF11-cpx. The two remaining samples (96CM-1849 and 96CM-4164) constituted a new recombinant virus variant with genomic regions identified as subtypes A, G, J, and CRF01-AE. This mosaic virus structure was found in two individuals who had no direct epidemiological relationship, and may thus represent a new CRF. The fragments that were classified as subtype J in the new recombinant form were more related to subtype J regions of the CRF11-cpx sequences than to the reference strains of subtype J. The complex structures of CRF11-cpx and our new recombinant form, which are both the result of at least four recombination events, exemplify the coming difficulties in characterizing the internal relationships and origins of future recombinant HIV-1 strains. The new recombinant structure has been designated CRF13-cpx in the Los Alamos HIV Sequence Database.     

Spreading of HIV-1 subtype G and envB/gagG recombinant strains among injecting drug users in Lisbon,Portugal

We have evaluated the genetic diversity of HIV-1 strains infecting injecting drug users (IDUs) in Lisbon, Portugal. Heteroduplex mobility assay and/or phylogenetic analysis revealed that env (C2V3C3 or gp41) subtype B is present in 63.7% of the 135 viral samples studied, followed by subtypes G (23.7%), A (6.7%), F (5.2%), and D (0.7%). Similar analysis of gag (p24/p7) performed on 91 of the specimens demonstrated that 49.5% of the infections were caused by subtype G viruses; other gag subtypes identified were B (39.5%), F (3.3%), A and D (1.1.% each), and the recombinant circulating form CRF02_AG (5.5%). Discordant env/gag sub-types were detected in 34.1% of the strains and may reflect the presence of dual infections and/or recombinant viruses. The presumptive B/G recombinant form was highly predominant (21 of 31). The genetic pattern of HIV-1 subtype B and G strains is suggestive of multiple introductions and recombination episodes and of a longstanding presence of both subtypes in the country. C2V3C3 amino acid sequences from IDU-derived subtype G viruses presented highly significant signatures, which distinguish the variants from this transmission group. The unusually high prevalence of subtype G sequences (34.1%), independent of the geographic origin of the infected individuals, makes this IDU HIV-1 epidemic unique.     

Emerging recombinant human immunodeficiency viruses: uneven representation of the envelope V3 region.

OBJECTIVE: To determine whether the envelope V3 region from HIV-1 subtypes A, C or D had the same probability of being present in intersubtype recombinant genomes. MATERIALS AND METHODS: The envelope C2-C5 and the gag p24-p7 regions from one hundred infants infected perinatally in Tanzania were compared using phylogenetic and recombination analysis. Exact binomial and Fisher's exact tests were used to assess if various genomic regions were more likely to be overrepresented in intersubtype recombinants. RESULTS: Of one hundred HIV-1 positive infants analyzed, twenty-two (22%) showed exclusively subtype A sequence in gag and env. Subtype C accounted for twenty-two infants (22%) whereas nineteen infants (19%) were infected by HIV-1 subtype D. Intersubtype recombinant genomes accounted for thirty-seven infections (37%). The V3 region from subtype A was found in all fifteen A-D recombinants (P = 0.00003) and the V3 region from subtype C was found in all twelve C-D recombinants (P = 0.0002). Conversely, subtype D gag sequences were preferentially represented in the gag of A-D recombinants (P = 0.0003) as well as C-D recombinants (P = 0.002). In A-D recombinants, the V3 region of subtype A was generally surrounded by subtype A C3-C5 sequences. In contrast, the V3 region from subtype C was surrounded by subtype D C3-C5 sequences in C-D recombinants. Significant differences were not found in the number of subtype A or subtype C sequences in A-C recombinants. CONCLUSION: We have shown that several recombinant HIV-1 viruses have been generated and efficiently transmitted to infants in Tanzania. The recombination patterns showed that the V3 region of subtypes A or C was always selected in A-D and C-D recombinants. This selection suggests that the fitness of subtype D-V3 in perinatal transmission may be reduced with respect to V3 from subtype A and/or subtype C. The elevated number of recombinants transmitted perinatally suggests that co-infection or super-infection by two HIV-1 subtypes is not uncommon in this population.     

Near full-length genome characterization of three additional HIV type 1 CRF13_cpx strains from Cameroon

Recombinant forms of HIV-1 contribute significantly to the ongoing epidemic. In the present study, we characterized the near full-length genomes of three candidate HIV-1 CRF13_cpx strains originating in Cameroon, 04CM-173-9, 04CM-632-28, and 02CM-A1394. Bootscanning, recombination breakpoint analysis, and phylogenetic trees confirmed similar genomic structures with identical breakpoint positions compared to the three available CRF13_cpx sequences. The candidate and reference sequences formed a distinct cluster well separated from other group M subtypes and had a mosaic structure derived from subtypes A1, G, J, and CRF01_AE. The similarity in genomic composition and position of recombination breakpoints suggest that these isolates share a common ancestor. The epidemiological significance of CRF13_cpx strains in Cameroon is unknown; however, the availability of three additional genomic sequences will improve our understanding of the overall genetic diversity within this recombinant form of HIV-1.     

New HIV type 1 CRF01_AE/B recombinants displaying unique distribution of breakpoints from incident infections among injecting drug users in Thailand

The goals of this study were to identify and characterize recombinant human immunodeficiency virus type 1 (HIV-1) genomes among incident infections in a prospective cohort study of injecting drug users (IDUs) in Bangkok, Thailand. Through cross-sectional, comparative phylogenetic analysis of the protease and env (C2-V4) gene regions, subtype discordance was observed in HIV-1 sequences from 4 of 111 IDUs (3.5%). Near-full-length HIV-1 genome sequences of the four strains revealed that in all four, the gp120 sequences clustered with a CRF01_AE prototype, while the remainder of the genomes displayed distinct mosaic patterns, with multiple breakpoints between HIV-1 CRF01_AE and subtype B-like regions. Two of the four HIV-1 recombinant strains displayed a nearly identical mosaic structure, suggesting the possible emergence and spread of a potentially new circulating recombinant form of HIV-1. Further characterization of these and other recombinant genomes through long-term follow-up will be important in understanding the generation of viral diversity and escape from the hosts immune responses. This information will be especially important for vaccine development.     

Common genetic arrangements among human immunodeficiency virus type 1 subtype A and D recombinant genomes vertically transmitted in Tanzania

Human immunodeficiency virus type 1 (HIV-1) subtypes A, C, and D are cocirculating in Tanzania, and large numbers of recombinant genomes have been reported from this region. Here we describe full-length sequences of six unlinked HIV-1 subtype A and D recombinants. The samples came from newborns, indicating that the recombination patterns were vertically transmitted and were functionally competent. All six genomes had different recombination patterns with one to eight cross-over points frequently located at the beginning or end of functionally defined regions. In five of the six viruses most of gag, pol, tat, and rev and the intracytoplasmic domain of gp41 were classified as subtype D. In all but one genome, the external domain of gp41 and the majority of gp120 belonged to subtype A. A recombination site common to four of the six genomes was located at the transmembrane domain of gp41, at the end of the rev response element. The identification of subtype patterns among intersubtype recombinant genomes from recently infected individuals may reveal genetic determinants of improved viral fitness or advantage for transmission.     

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.     

Predominance of HIV type 1 subtype G among commercial sex workers from Kinshasa, Democratic Republic of Congo

We have investigated the genetic diversity and potential mosaic genomes of HIV-1 during the early part of the HIV-1 epidemic among commercial sex workers (CSWs) in Kinshasa, Democratic Republic of Congo (formerly Zaire). Serologic analysis revealed that 27 (28.7%) of the 94 specimens were seropositive by both peptide and whole-virus lysate EIAs and that 24 were positive by molecular screening assays, using generic primers that can detect all known groups of HIV-1. Phylogenetic analyses of the gag(p24), C2V3, and gp41 regions of these 24 specimens showed that all were group M; none of them had any evidence of group O, N, or SIVcpz-like sequences. On the basis of env sequence analysis, the 24 group M specimens were classified as subtypes G (37.5%), A (21%), F1 (12.5%), CRF01_AE (8%), D (4%), and H (4%); 3 (12.5%) were unclassifiable (U). Similar analysis of the gag(p24) region revealed that the majority of infections were subtype A; however, one-third of the specimens were subtype G. Parallel analysis of gag(p24) and env regions revealed discordant subtypes in many specimens that may reflect possible dual and/or recombinant viruses. These data suggest a predominance of subtype G (both pure G and recombinant CRF02_AG) during the early part of the epidemic in Kinshasa. Infections with group N or SIVcpz-like viruses were not present among these CSWs in Kinshasa.     

High prevalence of diverse forms of HIV-1 intersubtype recombinants in Central Myanmar: geographical hot spot of extensive recombination

OBJECTIVES: To investigate the molecular epidemiology and genetic structure of HIV-1s causing the epidemic in Central Myanmar and to explore the genesis of HIV epidemic in this area. DESIGN: A molecular epidemiological investigation was conducted in 1999-2000 in the city of Mandalay among high-risk populations and the structural features of circulating HIV-1s were analyzed. METHODS: HIV-1 genotypes of 59 specimens were screened based on gag (p17) and env (C2/V3) regions. Near full-length nucleotide sequences of HIV-1 isolates with subtype discordance were determined and their recombinant structures were characterized. RESULTS: Three lineages of HIV-1 strains, including CRF01_AE (27, 45.8%), subtype B' (Thailand variant of subtype B) (15, 25.4%) and subtype C (8, 13.6%), were distributed in Mandalay, while substantial portions (9, 15.3%) of specimens showed various patterns of subtype discordance in different regions of HIV-1 genomes. The study on six HIV-1 isolates with subtype discordance revealed that they were highly diverse types of unique recombinant forms (URFs) comprised of various combinations of three circulating subtypes. One URF was a particularly complex mosaic that contained 13 recombination breakpoints between three HIV-1 subtypes. Approximately half of recombinants showed 'pseudotype' virion structures, in which the external portions of envelope glycoproteins were exchanged with different lineages of HIV-1 strains, suggesting the potential selective advantage of 'pseudotype' viruses over parental strains. CONCLUSION: The study revealed the unique geographical hot spot in Central Myanmar where extensive recombination events appeared to be taking place continually. This reflects the presence of highly exposed individuals and social networks of HIV-1 transmission.     

HIV-1 subtypes in Yugoslavia

To gain insight concerning the genetic diversity of HIV-1 viruses associated with the HIV-1 epidemic in Yugoslavia, 45 specimens from HIV-1-infected individuals were classified into subtypes by sequence-based phylogenetic analysis of the polymerase (pol) region of the viral genome. Forty-one of 45 specimens (91.2%) were identified as pol subtype B, 2 of 45 as subtype C (4.4%), 1 of 45 as CRF01_AE (2.2%), and 1 as CRF02_AG recombinant (2.2%). Nucleotide divergence among subtype B sequences was 4.8%. Results of this study show that among HIV-1-infected patients in Yugoslavia subtype B predominates (91.5%), whereas non-B subtypes are present at a low percentage, mostly related to travel abroad.     

Diversity of human immunodeficiency virus type 1 subtypes in Kagera and Kilimanjaro regions, Tanzania

A strategy to prevent the spread of HIV-1 worldwide is complicated by the high genetic diversity of the virus. To gain a better understanding of the HIV-1 genetic diversity in Tanzania, a molecular epidemiological investigation was conducted in Kagera and Kilimanjaro regions. While several studies have addressed HIV-1 subtypes in Tanzania, this is the first study to describe the virus subtypes circulating in Kagera. The Kagera region is the epicenter of the HIV-1 epidemic in Africa, and it was therefore of interest to compare the prevalence of HIV subtypes in this region and Kilimanjaro. Blood samples were obtained from 246 HIV-1-infected pregnant women attending antenatal clinics. Plasma HIV-1 RNA was extracted, amplified, and sequenced in the env C2V3 and/or pol regions from 209 samples. Based on the analysis of env C2V3 and pol sequences, 47.4% had concordant subtypes, 19.1% were discordant indicating recombination, and for 33.5% sequences were obtained for only one region. The distribution HIV-1 subtypes based on the phylogenetic analysis of paired env C2V3/ pol sequences in Kagera region was A/A (27.8%), C/C (29.6%), D/D (16.7%), and unique recombinant forms (25.9%), and in Kilimanjaro region was A/A (32.9%), C/C (25.9%), D/D (10.6%), CRF10_CD (1.2%), and unique recombinant forms (29.4%). The env C2V3 subsubtype A2 and env C2V3/pol CRF10_CD were also observed indicating that these recombinants are circulating in Tanzania. The high diversity of HIV-1 subtypes and the high prevalence of recombinants demonstrated in this study necessitate expanded and continuous monitoring of the epidemic in Tanzania. The trend may have implications for current national control strategies against the HIV-1 epidemic.     

Near full-length sequence analysis of HIV type 1 BF recombinants from Italy

Recombination between HIV-1 subtypes B and F has generated several circulating and unique recombinant forms, particularly in Latin American areas. In Italy, subtype B is highly prevalent while subtype F is the most common pure non-B subtype. To investigate the recombination pattern in Italian BF recombinant viruses, we characterized full-length sequences derived from 15 adult patients, mostly Italian and infected by the heterosexual route. One of the BF mosaics was a CRF29, three sequences clustered with low bootstrap values with CRF39, CRF40, and CRF42. With the exception of the CRF29-like sequence, the other recombination patterns were unique, but two possible clusters were identified. Analysis of the gp120 V3 domain suggested a possible link with subtype F from Eastern Europe rather than from Latin America, favoring the hypothesis of local recombination between clade B and F viruses over that of import of BF recombinants from Latin America. HIV-1 subtypes B and F appear prone to generation of unique recombinants in Italy, warranting epidemiological surveillance and investigation of a possible clinical significance.     

Identification of subtype B, multiple circulating recombinant forms and unique recombinants of HIV type 1 in an MSM cohort in China

To study HIV-1 genetic diversity among HIV-positive men who have sex with men (MSM) in China, a cohort consisting of HIV-positive MSM was established in 2005 and was monitored every 2 years. In 2007, 44 HIVpositiveMSM subjects were genotyped, and the results showed HIV-1 subtype B decreased from 77.5% to41.9%, but non-B subtypes increased rapidly represented by CRF01_AE from 3.7% to 30.2% compared to 2005.In addition, one case of CRF07_BC was first identified in this population, which mainly circulated among HIV-1-infected injection drug users (IDUs) in China. There were 11 unique recombinant forms (URFs) consisting ofa recombination of CRF01_AE with subtype B or CRF07_BC. The subtype-specific phylogenic tree analysis showed that the genetic distance within subtype B group viruses was larger than the genetic distance within the CRF01_AE group (p 0.001). Of the identified viruses in the Chinese MSM population, over 80% of subtype B viruses might originate from the United States and Brazil, and over 85% of the CRF01_AE viruses mightoriginate from Thailand. In addition, epidemic study data showed that some of the HIV-1-infected MSM had foreign sexual partners (13.6%) and heterosexual activities (43.2%). The patients infected with HIV-1 URF viruses had more heterosexual encounters (54.5%) and more sexual partners (72.7%) compared to those infected with subtype B (44.4%; 33.3%) and CRF01_AE (23.1%; 69.2%) viruses. Taken together, we suspected that the genetic complexity of HIV-1 viruses identified in Chinese MSM populations was more likely a result of multiple introductions of viruses from the general population infected with HIV-1 through IDUs or heterosexual transmission.     

Molecular cloning and analysis of full-length genome of HIV type 1 strains prevalent in countries of the former Soviet Union

The HIV-1 epidemic among injecting drug users (IDUs) in countries of the former Soviet Union (FSU) was caused mainly by two HIV-1 variants: subtype A and CRF03-AB. To date only three full-length HIV-I genomes from the FSU have been sequenced: one subtype A from Byelorussia and two CRF03-AB from Russia. We report the full-length genome cloning and analysis of two more HIV-1 strains from the FSU countries (98UA0116 of subtype A and 98BY10443 of CRF03-AB). Isolate 98UA0116 is the second cloned and sequenced full-length HIV-1 genome of subtype A lineage from the FSU, which may be a novel subsubtype within sub-type A. Isolate 98BY10443 is the third full-length HIV-1 genome of CRF03-AB in the world to be cloned and sequenced. Additionally, it is the first CRF03-AB strain discovered in Byelorussia. Cloned genomic sequences of the FSU HIV-1 isolates are being used for the development of a region-specific HIV-1 vaccine.     

Sequence analysis of a South American HIV type 1 BC recombinant

We report the characterization of a near full-length sequence of a South American HIV-1 BC intersubtype recombinant, ARE195FL. This isolate contains a C(gag/pol) B(vpr/vpu/gp160(env)) C(gp41(env)/nef) mosaic structure differing from any BC full-length sequence described to date, and is the first full-length sequence obtained from a South American BC strain. Neighbor-joining analysis revealed that subtype C genomic segments of ARE195FL clustered with the South American group of subtype C strains, suggesting a local emergence of the BC recombinant. Despite having dissimilar genomic structures, ARE195FL shares a common recombination breakpoint in vif, which is a "hot spot" for recombinatory events, with the Chinese BC recombinant prototype CRF07_BC. Further full-length sequence analysis of South American HIV-1 C and BC strains is necessary to determine the relevance and spread of emerging HIV-1 BC recombinants in Latin America.     

Recombinant strains of HIV type 1 in the United Kingdom

Twenty-five recombinant (mosaic) HIV-1 genomes were detected among 151 samples comprising 118 non-B subtype sequences and 33 samples containing subtype B sequences. Seven of the 25 mosaic patterns were similar to characterized circulating recombinant forms (two A/E, four A/G, and one D/F) and one was a MAL-like A/D recombinant. Eighteen of the recombinants had evidence of subtype A sequences in at least one region of their genome. One sample was found to contain a novel recombinant form (pol F, env K). Two samples could not be characterized unambiguously as recombinant forms and a further one appeared to be a complex C/J/D/A genomic form. The majority of the mosaic genomes were recombinants between gag, pol, or env, whereas the C/J/D/A mosaic had cross-over breakpoints within pol. These findings suggest that almost 20% of non-B subtype isolates of HIV-1 circulating in the United Kingdom have mosaic genomes. This shows the diverse origin of HIV-1 strains circulating in the United Kingdom and may have implications for antiretroviral drug resistance.     

HIV-1 Subtype A,D, G,AG and unclassified sequences identified in South Africa

HIV-1 subtype C accounts for the vast majority of infections in South Africa. However, increasingly non-C subtypes are being detected. Here we report 10 viruses that contain sequences that group with subtypes A, D, and G as well as CRF02_AG and 1 that could not be classified. Most of these individuals were from other countries in Africa. Some of these sequences were in combination with subtype C, possibly indicating local recombination events. Although there is no indication of endemic spread of these viruses, continued monitoring is warranted to track genetic changes, which may impact on diagnostic testing, therapeutic responses to antiretroviral therapies, and vaccine design.