Characterization of full-length HIV type 1 subtype C sequences from South Africa.

Four full-length genome subtype C sequences from South Africa, three of which are being used for vaccine development, were characterized. Three isolates were obtained from recently infected individuals in KwaZulu/Natal: Du151, Du422, and Du179. A fourth isolate, CTSc2, was obtained from an individual residing in Cape Town. All four strains used the CCR5 coreceptor, although Du179 also used CXCR4. The four isolates clustered within subtype C, but the three Du isolates formed a subcluster with a bootstrap value of 100%, with CTSc2 outside the subcluster. None of the strains showed evidence of intersubtype recombination, as expected from the predominance of subtype C in South Africa. All 4 isolates had a 16-amino acid truncation on the 3' end of the Rev protein, identified in other subtype C isolates. Like many other subtype C strains, Du151, Du422, and Du179 had three NF-kappa B-binding sites in the LTR; however, CTSc2 had only two.

Restriction fragment length polymorphism analysis for rapid gag subtype determination of human immunodeficiency virus type 1 in South Africa.

A rapid method for identification of human immunodeficiency virus Type 1 (HIV-1) gag subtypes was developed based on restriction fragment length polymorphism (RFLP) analysis of 400 or 650 bp long polymerase chain reaction (PCR) fragments encompassing the start of the p17 (400 bp) and part of the p24 (650bp) regions. The consensus sequences of subtypes A-D, the only subtypes identified in South Africa, were analyzed to detect restriction endonucleases which generate unique patterns for each subtype. Four restriction endonucleases were identified: AluI, AccI, SwaI and XmnI. Digestion of a 400 bp fragment with AluI allowed identification of subtype C. Samples not identified were then reamplified, and a 650 bp fragment digested with AccI to identify subtype B, followed by SwaI and XmnI to distinguish between subtypes A and D. This strategy was applied to 87 samples previously subtyped by either sequence analysis of the gag p17 region (n = 33); or heteroduplex mobility assay (HMA) based on the env gene (n = 75); or both (n = 21). Out of the 87 samples, RFLP identified two samples as subtype A, 28 as subtype B, 56 as subtype C and one as a subtype D virus. No discrepancies were found between RFLP gag subtypes and gag sequence subtypes demonstrating the reliability of this method. There was also no discordance between gag RFLP subtypes and env HMA subtypes, suggesting that there were no recombinant viruses detected relating to the genomic regions analyzed. RFLP is an effective technique for the rapid screening in an HIV epidemic of limited diversity, such as in South Africa.

An association between HIV-1 subtypes and mode of transmission in Cape Town, South Africa.

OBJECTIVES: To determine HIV-1 env and gag subtypes in male homosexual and heterosexual populations in Cape Town, South Africa. DESIGN: DNA was isolated from blood originating from 61 patients attending local clinics. Samples were divided according to presumed mode of transmission: male homosexual (n = 26), heterosexual/vertical (n = 32), blood transfusion (n = 1) and unknown (n = 2). METHODS: Proviral HIV-1 DNA was subtyped by heteroduplex mobility assay (HMA) based on the 799 base-pair V3-V5 region of the env gene (n = 47) or by sequence analysis of the p17 region of the gag gene (n = 33), or both. For HMA, reference plasmids were constructed containing the V1-V5 env region sequences (1.2-kb) representative of local subtypes. Subtype designation of reference subtypes was confirmed by sequence analysis of the V3-loop region. RESULTS: Analysis of the partial gag sequences and HMA of the V3-V5 env region identified three subtypes: B, C and D. A fourth env subtype, subtype E, was also identified by HMA. Subtypes were found to segregate according to mode of transmission, with subtype B viruses found in 96% (25 out of 26) of the male homosexual group and subtype C viruses found in 81% (26 out of 32) of the heterosexual/vertical transmission group. Subtype B viruses were also found in four heterosexual patients, one patient infected by blood transfusion and in two patients with unknown mode of transmission. Subtype D viruses were found in one male homosexual patient and one heterosexual patient. A subtype E virus was identified in a heterosexual patient. No discrepancy was found in subtype designation in samples analysed in both between the gag and env regions (n = 19). CONCLUSIONS: Subtype B viruses were associated with male homosexual transmission and subtype C viruses with heterosexual transmission, suggesting two independent epidemics. This data may have implications in the selection of appropriate vaccines for different risk groups in the country.

PIP: Investigations of the genetic heterogeneity of human immunodeficiency virus (HIV) -1 are important both to monitor the spread of the virus to new population groups and to the development of vaccines the efficacy of which could be influenced by virus variations. This study analyzed serum samples from 61 HIV-1 infected individuals recruited from clinics in Cape Town, South Africa. The mode of transmission was male homosexual in 26 cases, heterosexual/vertical in 32 cases, blood transfusion in 1 case, and unknown in 2 cases. Proviral HIV-1 DNA was subtyped by heteroduplex mobility assay (HMA) based on the 700 base-pair V3-V5 region of the env gene or by sequence analysis of the p17 region of the gag gene. This process identified 3 subtypes: B, C, and D. A fourth env subtype (E) was also identified by HMA. Subtypes were significantly (p 0.001) associated with the mode of HIV transmission. Subtype B viruses were found in 96% of male homosexual sera and subtype C viruses were identified in 81% of the heterosexual/vertical transmission group. Subtype B viruses were also identified in 4 heterosexuals, 1 person infected through blood transfusion, and the 2 cases where the mode of transmission was unknown. Subtype D viruses were found in 1 male homosexual and 1 heterosexual, while a subtype E virus was identified in a heterosexual patient. These findings imply that heterosexual and homosexual HIV-1 epidemics in South Africa were independent. Both epidemiological and molecular data suggest that the initial epidemic in South Africa was, in part, a result of the introduction of HIV-1 by homosexuals who had sexual contacts with men in the US or Europe. The second, heterosexual epidemic was most likely a result of regional spread.