HIV type 1 circulating recombinant form CRF09_cpx from west Africa combines subtypes A, F, G, and may share ancestors with CRF02_AG and Z321

Time-scale of minor HIV-1 complex circulating recombinant forms from Central and West Africa

Background

Several HIV-1 circulating recombinant forms with a complex mosaic structure (CRFs_cpx) circulate in central and western African regions. Here we reconstruct the evolutionary history of some of these complex CRFs (09_cpx, 11_cpx, 13_cpx and 45_cpx) and further investigate the dissemination dynamic of the CRF11_cpx clade by using a Bayesian coalescent-based method.

Results

The analysis of two HIV-1 datasets comprising 181 pol (36 CRF09_cpx, 116 CRF11_cpx, 20 CRF13_cpx and 9 CRF45_cpx) and 125 env (12 CRF09_cpx, 67 CRF11_cpx, 17 CRF13_cpx and 29 CRF45_cpx) sequences pointed to quite consistent onset dates for CRF09_cpx (~1966: 1958–1979), CRF11_cpx (~1957: 1950–1966) and CRF13_cpx (~1965: 1958–1973) clades; while some divergence was found for the estimated date of origin of CRF45_cpx clade [pol = 1970 (1964–1976); env = 1960 (1952–1969)]. Phylogeographic reconstructions indicate that the HIV-1 CRF11_cpx clade most probably emerged in Cameroon and from there it was first disseminated to the Central Africa Republic and Chad in the early 1970s and to other central and western African countries from the early 1980s onwards. Demographic reconstructions suggest that the CRF11_cpx epidemic grew between 1960 and 1990 with a median exponential growth rate of 0.27 year⁻¹, and stabilized after.

Conclusions

These results reveal that HIV-1 CRFs_cpx clades have been circulating in Central Africa for a period comparable to other much more prevalent HIV-1 group M lineages. Cameroon was probably the epicenter of dissemination of the CRF11_cpx clade that seems to have experienced a long epidemic growth phase before stabilization. The epidemic growth of the CRF11_cpx clade was roughly comparable to other HIV-1 group M lineages circulating in Central Africa.

Electronic supplementary material

The online version of this article (doi:10.1186/s12862-016-0824-8) contains supplementary material, which is available to authorized users.

Tracing the origin of a singular HIV-1 CRF45_cpx clade identified in Brazil

The HIV-1 epidemiology has changed over the past decade toward a marked increase in the circulation of strains previously restricted to local epidemics. Recent molecular epidemiological surveys identified some HIV-1 strains of probable African origin circulating in Brazil, including the Circulating Recombinant Form (CRF) 45_cpx, a complex A1/K/U recombinant that circulates in Central Africa. Here, we characterize partial genomic sequences and reconstruct the evolutionary history of HIV-1 CRF45_cpx-related recombinant samples identified in independent studies carried out with HIV+ individuals in Brazil. The sequences were obtained by overlapping PCR amplifications followed by direct sequencing. Recombination profiles were determined by phylogenetic and bootscaning analyses. The evolutionary history was estimated by a Bayesian coalescent-based method using datasets representing the gag, pol and env gene fragments. Six of the 10 samples isolated in Rio de Janeiro showed a CRF45_cpx-like pattern throughout the sequenced genome. The remaining were classified as second-generation recombinants, showing the mosaic patterns: CRF45_cpx/B/D/F1/U, CRF45_cpx/B/F1/U, CRF45_cpx/B/U and CRF45_cpx/F1. All Brazilian CRF45_cpx sequences, except one, formed a monophyletic clade (CRF45-BR), which seems to be the result of a single introduction event that has spread to the Rio de Janeiro, São Paulo and Minas Gerais states and is related to sequences from Argentina, Italy and Belgium. The Bayesian analyses pointed out quite consistent onset dates for CRF45-BR clade (~1984: 1976-1996) in the three gene datasets. These results indicate that the CRF45-BR clade has been circulating in the Southeastern Brazilian region for about 30years, although its presence was not detected until recently due to its very low prevalence. This reinforces the relevance of large-scale molecular surveillance data to identify the emergence of new HIV variants and their impact on local epidemics.

Antigen-specific T-cell-mediated immunity after HIV-1 infection: implications for vaccine control of HIV development

The definition of immune correlates of protection in HIV-1 infection is pivotal to the design of successful vaccine candidates and strategies. Although significant methodological and conceptual strides have been made in our understanding of HIV-specific cellular immunity, we have not yet defined those parameters that have a role in controlling the spread of HIV infection. This review discusses the basis of our understanding of HIV-specific cellular immunity and identifies its shortcomings. Furthermore, potential protective characteristics will be proposed that may ultimately be required for an effective vaccine designed to stimulate cellular immunity against HIV-1.

Surveillance programs for detection and characterization of emergent pathogens and antimicrobial resistance: results from the Division of Infectious Diseases, UNIFESP

Several epidemiological changes have occurred in the pattern of nosocomial and community acquired infectious diseases during the past 25 years. Social and demographic changes possibly related to this phenomenon include a rapid population growth, the increase in urban migration and movement across international borders by tourists and immigrants, alterations in the habitats of animals and arthropods that transmit disease, as well as the raise of patients with impaired host defense abilities. Continuous surveillance programs of emergent pathogens and antimicrobial resistance are warranted for detecting in real time new pathogens, as well as to characterize molecular mechanisms of resistance. In order to become more effective, surveillance programs of emergent pathogens should be organized as a multicenter laboratory network connected to the main public and private infection control centers. Microbiological data should be integrated to guide therapy, adapting therapy to local ecology and resistance patterns. This paper presents an overview of data generated by the Division of Infectious Diseases, Federal University of São Paulo, along with its participation in different surveillance programs of nosocomial and community acquired infectious diseases.

Identification and characterization of CRF02_AG, CRF06_cpx, and CRF09_cpx recombinant subtypes in Mali, West Africa

Abstract Multiple HIV-1 subtypes and circulating recombinant forms (CRFs) are known to cocirculate in Africa. In West Africa, the high prevalence of CRF02_AG, and cocirculation of subtype A, CRF01_AE, CRF06_cpx, and other complex intersubtype recombinants has been well documented. Mali, situated in the heart of West Africa, is likely to be affected by the spread of recombinant subtypes. However, the dynamics of the spread of HIV-1 recombinant subtypes as well as nonrecombinant HIV-1 group M subtypes in this area have not been systematically assessed. Herein, we undertook genetic analyses on full-length env sequences derived from HIV-1-infected individuals living in the capital city of Mali, Bamako. Of 23 samples we examined, 16 were classified as CRF02_AG and three had a subsubtype A3. Among the remaining HIV-1 strains, CRF06_cpx and CRF09_cpx were each found in two patients. Comparison of phylogenies for six matched pol and full-length env sequences revealed that two strains had discordant subtype/CRF designations between the pol and env regions: one had A3(pol)CRF02_AG(env) and the other had CRF02_AG(pol)A3(env). Taken together, our study demonstrated the high prevalence of CRF02_AG and complexity of circulating HIV-1 strains in Mali. It also provided evidence of ongoing virus evolution of CRF02_AG, as illustrated by the emergence of more complex CRF02_AG/A3 intersubtype recombinants in this area.

Twenty years of prospective molecular epidemiology in Senegal: changes in HIV diversity

Over a 20-year period we have observed the dynamics of HIV-1 subtypes and HIV-2 infection in a prospective cohort of registered female sex workers (FSW) in Dakar, Senegal. Prevalence and incidence rates for HIV-1 and HIV-2 are described from 290 seroprevalent and 193 seroincident subjects who were among the 3,910 women enrolled between 1985 and 2004. We report a significant decrease of HIV-2 prevalence in the cohort, parallel to the introduction and rise of HIV-1 infection. In 328 HIV-1-infected women, a 385-bp C2-V3 fragment of the envelope gene was sequenced and classified into the following subtypes or recombinant forms: 239 (72%) were subtype A [of which 180 (55%) were CRF02_AG and 53 (16%) were A3], 10 (3%) were B, 12 (4%) were C, 11 (4%) were D, 18 (6%) were G, 24 (7%) were CRF06_cpx, and 7 (2%) were CRF09_cpx. We found an increasing proportion of CRF02_AG over many years, but recently subsubtype A3 has over-taken CRF02_AG, with the largest proportion of new infections. The predominance of existing HIV-1 subtypes did not preclude the emergence and increase of other closely related subtypes or recombinant forms. This 20-year prospective serological and sequence analysis of HIV viruses reveals a complex and changing HIV epidemic in Senegal.

The complexity of circulating HIV type 1 strains in Oyo state, Nigeria

Multiple HIV-1 subtypes and circulating recombinant forms (CRFs) are known to circulate in West Africa. We undertook a survey of HIVs in Oyo state, in southwestern Nigeria. We analyzed 71 samples from Ibadan, the capital city, and 33 samples from Saki, 100 miles west of Ibadan. We sequenced part of the gag gene and the envelope C2V3 region from 102 and 89 samples, respectively. In the 87 samples for which both genes were sequenced, subtype G and CRF02_AG were found in equal proportions (32.2% each). Other samples included CRF06_cpx (8.0%), subtype A (2.3%), C (1.1%), unclassified (1.1%), or discordant sequences suggesting the presence of a large number of recombinants involving CRF02_AG and/or subtype G (20.7%) or other subtypes (2.3%). The subtype/CRF designation was concordant in two gene fragments in the majority of samples evaluated. However, we observed differences in subtype distribution between the two locations with a predominance of subtype G in Ibadan and CRF02 in Saki. This is the first in-depth analysis of HIV variability at a state level in Nigeria. Our analysis revealed a significant level of viral heterogeneity and a geographical difference in subtype distribution, and demonstrated that CRF02_AG does not account for the majority of circulating strains.

Identification of a novel circulating recombinant form (CRF) 36_cpx in Cameroon that combines two CRFs (01_AE and 02_AG) with ancestral lineages of subtypes A and G

An array of CRFs have been identified in Cameroon, the most notable being CRF02_AG. HIV-1 in the East Province of Cameroon is particularly diverse: in a recent study, we found a high proportion of unique recombinant forms (URFs). Herein we describe the analysis of the full-length sequences of two of these URFs, which, after preliminary analysis of gag, pol, and env fragments, appeared to be a novel CRF. This novel strain, CRF36_cpx, contains fragments that can be assigned to the CRF01_AE, CRF02_AG, and subtype A and G radiations. Forty percent of the genome can be classified as CRF02_AG, including regions in gag, pol, env, and the accessory genes. Twenty-seven percent is CRF01_AE, comprising the majority of gag, the beginning of env, and the end of env into the 3' LTR. Twenty percent of the genome can be assigned to subtype A, with segments in pol and env. The remaining 13% of the sequence is classifiable as subtype G, in pol and vpu. The subtype A and G lineages formed by the CRF36_cpx sequences are unique and appear ancestral in nature. CRF36_cpx is both the first to combine more than one CRF and the first to include fragments of CRF02_AG. The ancestral sequences present in CRF36_cpx represent a link to extinct strains, and, potentially, insight into the evolution of HIV-1.

Circulating recombinant form (CRF) 37_cpx: an old strain in Cameroon composed of diverse, genetically distant lineages of subtypes A and G

HIV-1 in Cameroon is genetically diverse, but is predominated by the circulating recombinant form (CRF) 02_AG, which cocirculates among an array of other CRFs, unique recombinant forms (URFs), and all group M subtypes. In particular, our studies of HIV-1 diversity in the East Province found a high proportion of URFs and second generation recombinants (SGRs), suggesting this region of Cameroon may be a breading ground for new CRFs. Herein we present the full-length sequence analysis of one such CRF, composed primarily (66%) of unique, distant lineages of subtypes A and G in alternating regions throughout the genome. This CRF also combines segments in pol and env genes possessing intrasubtype distance (<15%) to the CRF01_AE and CRF02_AG radiations. The genomic composition of this strain comprising gene segments of subtypes A and G as well as CRF01_AE and CRF02_AG defines this strain as a circulating SGR (CSGR), and the 37th CRF to be identified. Furthermore, more than half of CRF19_cpx, a CRF identified in Cuba, clusters with CRF37_cpx, and the clear genetic distance among the viruses in this cluster suggests this strain has been in circulation since the early days of the epidemic. The genetically distant segments comprising CRF37_cpx, which were found to cluster outside the crown groups of previously described viruses, may represent a link to very rare or extinct strains, and, potentially, to understanding the evolutionary history of HIV-1 in this region.

Multicenter performance evaluation of a new TaqMan PCR assay for monitoring human immunodeficiency virus RNA load

A TaqMan real-time PCR assay, the COBAS TaqMan human immunodeficiency virus (HIV) (HPS-CTMHIV) PCR assay, recently developed for the quantification of HIV type 1 RNA in plasma, was evaluated in comparison with the licensed COBAS AMPLICOR HIV-1 MONITOR (CAHIM) assay. In this study, we have analyzed the tests' sensitivities, precisions, and linearities using multiple replicates of a standard panel of HIV RNA covering a 7-logarithm range of concentrations, as well as serial threefold dilutions of high-titer clinical samples. The subtype inclusivity was also investigated, using a panel of subtypes A to H, while a collection of 160 clinical samples was analyzed to assess the tests' specificities and the systems' similarities. The results of these experiments showed that the HPS-CTMHIV assay has a sensitivity of 53 copies/ml (95% hit rate), 100% specificity, and good intra- and interassay precision. The results of the HPS-CTMHIV assay were linear in the 50- to 10(7)-copies/ml range, with a correlation coefficient (R) for expected versus observed results of 0.98. Compared to the CAHIM assay, the HPS-CTMHIV assay showed a high correlation (R=0.99) across the dynamic range of RNA concentrations that, for the CAHIM assay, requires two different sample preparations. Equivalent performances were also observed for the two systems in the detection and quantification of HIV subtypes A to H. These data indicate that the HPS-CTMHIV assay may be one of the tests of choice for monitoring viral load throughout the course of HIV infection and during highly active antiretroviral therapy.

Global epidemiology of HIV

HIV is among the most generically variable of human pathogens. A comprehensive and detailed description of HIV strains in the pandemic is an important foundation for diagnosis, treatment, and prevention. The current sequence database for HIV includes almost 800 complete genome sequences, documenting HIV-1 groups M, O, and N, and HIV-2. Among HIV-1 group M strains, responsible for the vast majority of HIV infections worldwide, 743 sequences represent 9 genetic subtypes, 16 circulating recombinant forms (CRF) that are spreading in populations, and a variety of unique recombinant forms (URF), identified so far only from a single individual. The global distribution of HIV is complex and dynamic with regional epidemics harboring only a subset of the global diversity. HIV strains differ enormously in terms of global prevalence. Six strains account for the majority of HIV infections: HIV-1 subtypes A, B, C, D, and two of the CRF, CRF01-AE and CRF02_AG, respectively. Many of the known subtypes and recombinant forms are currently rare in the epidemic, but could spread more widely if favorable conditions arise. HIV-2 is largely restricted to West Africa at relatively low prevalence there. Groups O and N of HIV-1 are very rare in the pandemic. The goal of universal coverage of HIV-1 strains by diagnostic tests can be met by minimizing false negative test rates for the six globally prevalent HIV-1 group M strains and HIV-2, and by evaluating systematically coverage of rare subtypes and recombinant forms.

Identification of conserved lentiviral sequences as landmarks of genomic flexibility

Considering that recombinations produce quasispecies in lentivirus spreading, we identified and localized highly conserved sequences that may play an important role in viral ontology. Comparison of entire genomes, including 237 human, simian and non-primate mammal lentiviruses and 103 negative control viruses, led to identify 28 Conserved Lentiviral Sequences (CLSs). They were located mainly in the structural genes forming hot spots particularly in the gag and pol genes and to a lesser extent in LTRs and regulatory genes. The CLS pattern was the same throughout the different HIV-1 subtypes, except for some HIV-1-O strains. Only CLS 3 and 4 were detected in both negative control HTLV-1 oncornaviruses and D-particle-forming simian viruses, which are not immunodeficiency inducers and display a genetic stability. CLSs divided the virus genomes into domains allowing us to distinguish sequence families leading to the notion of ‘species self’ besides that of ‘lentiviral self’. Most of acutely localized CLSs in HIV-1s (82%) corresponded to wide recombination segments being currently reported. To cite this article: M.L.J. Moncany et al., C. R. Biologies 329 (2006).

Circulating and unique recombinant forms of HIV type 1 containing subsubtype A2

HIV-1 strains containing subsubtype A2 are relatively rare in the pandemic but have been repeatedly identified in Kenya, where candidate vaccines based in part on subtype A, but not A2 strains, may be evaluated. Among the most recent is CRF16_A2D, a circulating recombinant form (CRF) whose prototypes are complete or partial HIV-1 sequences from Kenya, Korea, and Argentina. Using samples from blood bank discards in Kenya and complete genome sequencing, this report further documents CRF16_A2D and related recombinants and identifies a second CRF, CRF21_A2D. The two A2-containing CRFs, and two recombinants related to CRF16_A2D, share common structural elements but appear to have been independently derived. Concerted selection may have influenced the emergence and spread of certain A2-containing strains in Kenya. The second complete subtype C sequence from Kenya is also reported here. Monitoring of A2-containing recombinants and subtype C strains, both relatively rare in Kenya, may be informative in the course of cohort development and evaluation of candidate vaccines.

A jumping profile Hidden Markov Model and applications to recombination sites in HIV and HCV genomes

BACKGROUND

Jumping alignments have recently been proposed as a strategy to search a given multiple sequence alignment A against a database. Instead of comparing a database sequence S to the multiple alignment or profile as a whole, S is compared and aligned to individual sequences from A. Within this alignment, S can jump between different sequences from A, so different parts of S can be aligned to different sequences from the input multiple alignment. This approach is particularly useful for dealing with recombination events.

RESULTS

We developed a jumping profile Hidden Markov Model (jpHMM), a probabilistic generalization of the jumping-alignment approach. Given a partition of the aligned input sequence family into known sequence subtypes, our model can jump between states corresponding to these different subtypes, depending on which subtype is locally most similar to a database sequence. Jumps between different subtypes are indicative of intersubtype recombinations. We applied our method to a large set of genome sequences from human immunodeficiency virus (HIV) and hepatitis C virus (HCV) as well as to simulated recombined genome sequences.

CONCLUSION

Our results demonstrate that jumps in our jumping profile HMM often correspond to recombination breakpoints; our approach can therefore be used to detect recombinations in genomic sequences. The recombination breakpoints identified by jpHMM were found to be significantly more accurate than breakpoints defined by traditional methods based on comparing single representative sequences.

HIV-1 subtypes: epidemiology and significance for HIV management

PURPOSE OF REVIEW

This review presents an update on the molecular epidemic patterns of HIV-1 infection and the effects of subtype-related genetic variability on transmission, disease progression, response to antiretroviral therapy and drug-resistance pathways.

RECENT FINDINGS

The molecular epidemiology of HIV-1 infection is complex and evolving. The emergence of new variants reflects HIV-1 prevalence, subtype epidemiology and risk-behaviour patterns in different geographical areas. Evidence indicates that certain subtypes may have a transmission advantage while others display higher replicative efficiency. The molecular mechanisms underlying these differences are being identified and include both virus- and host-related factors. Although drug susceptibility varies and clinical evidence remains limited, current antiretroviral regimens appear to have comparable efficacy in patients infected with B and non-B subtypes. Subtype-related variability influences resistance pathways. However, the major treatment-associated resistance mutations seen in subtype B also confer resistance in non-B subtypes and vice versa.

SUMMARY

Genetic differences among HIV-1 variants can influence the virus biological properties, susceptibility to existing and candidate antiretroviral drugs, and evolution of antiretroviral drug resistance. Further studies are required to define the impact of this variability on risk of transmission, disease outcomes, responses to antiretroviral therapy and resistance pathways. Meanwhile, plasma viral load and CD4 count remain the important predictors of disease outcome, regardless of the infecting subtype. Current antiretroviral regimens can be used reliably to treat patients with both B and non-B subtypes, and resistance interpretation algorithms provide adequate guidance. The limitations of current evidence should be acknowledged and instigate ongoing vigilance.

Genetic subtypes of human immunodeficiency virus type 1 (HIV-1) in Istanbul, Turkey

BACKGROUND

Epidemiological surveillance of HIV-1 subtypes is an important and ongoing element of preparation for global antiviral interventions.

OBJECTIVE

To assess the molecular epidemiology of HIV-1 in Istanbul, Turkey.

STUDY DESIGN

27 HIV/AIDS patients were investigated. Data on age, sex, country of birth, and HIV acquisition route were collected. Following amplification with PCR the sequences of the gp41 region of the env gene were determined using a 310 DNA sequencer (ABI prism, Foster City, USA) and phylogenetically analyzed.

RESULTS

Among the 27 patients (26 adults and 1 infant), 22 were male, born in Turkey, and 20 infected through heterosexual contact. Two patients acquired the virus through blood and/or blood transfusion and one infant by vertical transmission. The distribution of the subtypes was as follows: four were subtype A, 19 subtype B, one subtype C, one subtype D, and two subtype F1. According to our results, although the B subtype is still predominant, non-B subtypes are also present, even though the number of registered HIV/AIDS patients is low.

CONCLUSION

These are the first subtyped HIV-1 strains in Turkey where a low level of HIV prevalence has been observed since the first reported case in 1985. These findings and Turkey's specific geographic localization indicate the need for a nationwide surveillance to detect all subtypes including the new recombinant ones.

Presence of CRF09_cpx and complex CRF02_AG/CRF09_cpx recombinant HIV type 1 strains in Côte d'Ivoire, West Africa

Based on partial env and pol (protease and RT) subtyping, we recently documented that the majority (>80%) of the HIV-1 strains that circulate in Côte d'Ivoire were CRF02_AG and about 11% were recombinants or could not be clearly assigned to a known subtype or CRF. In order to determine in more detail the precise structure of these viruses we sequenced the full-length genomes for six such strains. Bootscan and phylogenetic tree analysis showed that four strains were complex and unique CRF02_AG/CRF09_cpx recombinants, one was a CRF02_AG/CRF06_cpx recombinant, and one was a pure CRF09_cpx. Reanalysis of the remaining recombinants asserted the predominance of CRF09_cpx within intersubtype recombinants and circulation of CRF09_cpx in Côte d'Ivoire. More detailed analysis of the CRF09_cpx strains revealed also that part of the pol gene belonged to subtype K. This is the first time that such recombinants are described.

Characterization of complete HIV type 1 genomes from non-B subtype infections in U.S. military personnel

Infections with non-B HIV-1 subtypes are rare in the United States, but comprise a significant percentage of infections among U.S. military personnel. Risk behavior while on overseas deployment correlates with non-B infection in this population. Extensive genetic characterization will be required to define HIV-1 diversity, and to effectively evaluate requirements for HIV-1 vaccines and other prevention strategies in this group. From 1997 to 2000, 520 recent seroconverters, identified through routine HIV-1 testing in the U.S. active military force, volunteered for a prospective study. V3 loop serology or partial genome sequencing identified 28 non- B subtype infections; 14 were studied by full genome sequencing and phylogenetic analysis. Five strains were CRF01_AE. Four of these clustered with CM240 from Thailand, and one clustered with African CRF01_AE. Four strains were CRF02_AG, prevalent in West and West Central Africa. Two strains were subtype C. One strain was a unique recombinant between CRF01_AE and subtype B, and another was a complex unique recombinant between subtype A and D. The final strain was a member of a complex circulating recombinant first identified in Senegal, CRF09_cpx, incorporating subtypes A, F, G, and an unclassified genome. This diversity of non-B subtype HIV-1 strains, encompassing three globally prevalent non-B strains and including rare or even possibly unique strains, illustrates the breadth of U.S. military exposure while deployed and sets the bar higher for breadth of cross-subtype protection to be afforded by an HIV-1 vaccine.