Sherri Burda

Conserved and Exposed Epitopes on Intact, Native, Primary Human Immunodeficiency Virus Type 1 Virions of Group M

ABSTRACT 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.

Cross-Clade Neutralizing Activity of Human Anti-V3 Monoclonal Antibodies Derived from the Cells of Individuals Infected with Non-B Clades of Human Immunodeficiency Virus Type 1

ABSTRACT The majority of global human immunodeficiency virus infections are caused by viruses characterized by a GPGQ motif at the tip of the V3 loop. Characterization of anti-V3 monoclonal antibodies (MAbs) that neutralize isolates with the GPGQ V3 motif is an important step in designing vaccines that will induce such Abs. Consequently, seven human anti-V3 MAbs derived from the cells of individuals infected with non-B-subtype viruses (anti-V3non-B MAbs) were generated from the cells of individuals from Africa infected with circulating recombinant forms CRF02_AG, CRF09_cpx, and CRF13_cpx, each of which contains a subtype A env gene. Sequence analysis of plasma viruses revealed a GPGQ motif at the apex of the V3 loop from six of the seven subjects and a GPGR motif from one subject. The MAbs were selected with fusion proteins (FP) containing V392UG037.8 or V3JR-CSF from subtype A or B, respectively. In virus binding assays, five of the seven (71%) anti-V3non-B MAbs bound to V3-FPs from both subtype A and subtype B, while only four of the nine (44%) anti-V3B MAbs recognized both V3-FPs. Using two neutralization assays, both the anti-V3non-B and the anti-V3B MAbs neutralized subtype B viruses with similar activities, while the anti-V3non-B MAbs exhibited a tendency toward both increased potency and breadth of neutralization against non-B viruses compared to anti-V3B MAbs. Statistical significance was not achieved, due in large measure to the sizes of the MAb panels, but the overall pattern of data strongly suggests that viruses with the GPGQ motif at the tip of the V3 loop induce anti-V3 Abs with broader cross-neutralizing activity than do viruses with the GPGR motif.

Preferential use of the VH5-51 gene segment by the human immune response to code for antibodies against the V3 domain of HIV-1.

Human anti-V3 monoclonal antibodies (mAbs) generated from HIV-1 infected individuals display diversity in the range of their cross-neutralization that may be related to their immunogenetic background. The study of the immunoglobulin (Ig) variable region gene usage of heavy chains have shown a preferential usage of the VH5-51 gene segment which was detected in 35% of 51 human anti-V3 mAbs. In contrast, human mAbs against other envelope regions of HIV-1 (anti-Env), including the CD4-binding domain, the CD4-induced epitope, and gp41 preferentially used the VH1-69 gene segment, and none of them used the VH5-51 gene. Furthermore, the usage of the VH4 family by anti-V3 mAbs was restricted to only one gene segment, VH4-59, while the VH3 gene family was used at a significantly lower frequency by all of the analyzed anti-HIV-1 mAbs. Multivariate analysis showed that usage of VH gene segments was significantly different between anti-V3 and anti-Env mAbs, and compared to antibodies from healthy subjects. In addition, the anti-V3 mAbs preferentially used the JH3 and D2-15 gene segments. The preferential usage of selected Ig gene segments and the characteristic pattern of Ig gene usage by anti-V3 mAbs can be related to the conserved structure of the V3 region.

Immunoreactivity of Intact Virions of Human Immunodeficiency Virus Type 1 (HIV-1) Reveals the Existence of Fewer HIV-1 Immunotypes than Genotypes

ABSTRACT In order to protect against organisms that exhibit significant genetic variation, polyvalent vaccines are needed. Given the extreme variability of human immunodeficiency virus type 1 (HIV-1), it is probable that a polyvalent vaccine will also be needed for protection from this virus. However, to understand how to construct a polyvalent vaccine, serotypes or immunotypes of HIV must be identified. In the present study, we have examined the immunologic relatedness of intact, native HIV-1 primary isolates of group M, clades A to H, with human monoclonal antibodies (MAbs) directed at epitopes in the V3, C5, and gp41 cluster I regions of the envelope glycoproteins, since these regions are well exposed on the virion surface. Multivariate analysis of the binding data revealed three immunotypes of HIV-1 and five MAb groups useful for immunotyping of the viruses. The analysis revealed that there are fewer immunotypes than genotypes of HIV and that clustering of the isolates did not correlate with either genotypes, coreceptor usage (CCR5 and CXCR4), or geographic origin of the isolates. Further analysis revealed distinct MAb groups that bound preferentially to HIV-1 isolates belonging to particular immunotypes or that bound to all three immunotypes; this demonstrates that viral immunotypes identified by mathematical analysis are indeed defined by their immunologic characteristics. In summary, these results indicate (i) that HIV-1 immunotypes can be defined, (ii) that constellations of epitopes that are conserved among isolates belonging to each individual HIV-1 immunotype exist and that these distinguish each of the immunotypes, and (iii) that there are also epitopes that are routinely shared by all immunotypes.

HIV infection in rural villages of Cameroon.

Objective: To evaluate HIV‐1 antibody seroprevalence and risk factors for HIV seropositivity in rural areas of Cameroon. Method: The prevalences of HIV antibodies in 53 villages in rural Cameroon visited during May‐October 2000 were determined with an HIV 1/2 rapid assay, standard ELISA, and western blot. Demographic data and risk factors were elicited via face‐to‐face interviews with a structured questionnaire. Results: HIV seroprevalence was 5.8% (243/4156, 95% confidence interval [CI] = 5.1‐6.6) overall, 6.3% (151/2394, 95% CI = 5.4‐7.4) among females and 5.2% (92/1762, 95% CI = 4.3‐6.4) among males. HIV seroprevalence among persons aged 15 ‐ 70 years did not differ significantly by province (5.6% in Center, 4.5% in East, 6.9% in South, and 5.8% in South‐West) (p = .10). Analysis of age‐ and genderstandardized prevalence by village across provinces indicated a near‐significant difference (nonparametric Wilcoxon signed rank test, p = .06), with highest prevalence in South‐West, followed by South, Center, and East. Multivariate analysis revealed that single women were significantly more likely to be HIV seropositive than were married or widowed women. Women with a history of sexual relations while traveling were at significantly increased risk of HIV seropositivity (OR adjusted for age and marital status = 2.4, 95% CI = 1.4‐9.7). Among men, those who reported ever having a sexually transmitted disease were at significantly increased risk of HIV‐seropositivity (OR adjusted for age = 1.8, 95% CI = 1.1‐2.8). Conclusion: We have documented a wide range of HIV prevalences among rural villages of Cameroon. Age, marital status (in women) and sexual risk factors appear to be associated with HIV infection in this setting.

Genetic and Biological Properties of HIV Type 1 Isolates Prevalent in Villagers of the Cameroon Equatorial Rain Forests and Grass Fields: Further Evidence of Broad HIV Type 1 Genetic Diversity

To understand the evolution of HIV-1, the genetic and biological characteristics of viruses that infect persons living in regions in which the virus has been evolving for several decades must be studied. Thus, we investigated teh genetic subtypes, coreceptor usage, and syncytium-inducing ability of viruses in 47 HIV-1-infected blood samples from individuals living in rural villages in the equatorial rain forest and grass field regions in Cameroon. Heteroduplex mobility analysis (HMA) of gag (part of p24 and p7) and env (C2V5) or sequence and phylogenetic analysis of gag (part of p24 and p7), pol (protease), and env (C2V5), revealed a broad HIV-1 group M genetic diversity. Subtype analysis revealed genetic evidence of seven subtypes (A, C, D, F, G, H, and J) and three circulating recombinant froms (CRFs) (CRF01_AE, CRF02_AG, and CRF11_cpx). Only 15 (32%) of the 47 samples analyzed revealed a concordant subtype in all three genes (gag, pol, and env), while discordant subtypes and CRFs were identified for the remaining 32 (68%) samples. Two patterns of HIV-1 diversity could be discerned in two provinces. While more concordant subtypes in gag, pol, and env genes were identified in villages of South province (10 of 13, 77%), the HIV-1 diversity in the West province was characterized by intersubtype recombinants (63%). Five new intersubtype recombinants were identified including Agag Jpol Genv, Ggag Upol Aenv, AGgag Jpol Aenv, Agag AGpol Henv, and Cgag AGpol AGenv. All of the 40 viruses tested used the R5 coreceptor, of which four also used the X4 coreceptor. Four viruses were able to induce syncytia in MT-2 cells, however, syncytium induction did not correlate with coreceptor usage. This study further reveals the complexity of HIV-1 infection in rural Cameron and points to the future of the global epidemic, which may be characterized by more genetically diverse viruses.

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

Summary: Though the HIV‐1 subtypes infecting patients living in urban and semiurban 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 CRF1l_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.

Vaccination of Rhesus Macaques with Recombinant Mycobacterium bovis Bacillus Calmette-Guérin Env V3 Elicits Neutralizing Antibody-Mediated Protection against Simian-Human Immunodeficiency Virus with a Homologous but Not a Heterologous V3 Motif

ABSTRACT Although the correlates of vaccine-induced protection against human immunodeficiency virus type 1 (HIV-1) are not fully known, it is presumed that neutralizing antibodies (NAb) play a role in controlling virus infection. In this study, we examined immune responses elicited in rhesus macaques following vaccination with recombinant Mycobacterium bovis bacillus Calmette-Guérin expressing an HIV-1 Env V3 antigen (rBCG Env V3). We also determined the effect of vaccination on protection against challenge with either a simian-human immunodeficiency virus (SHIV-MN) or a highly pathogenic SHIV strain (SHIV-89.6PD). Immunization with rBCG Env V3 elicited significant levels of NAb for the 24 weeks tested that were predominantly HIV-1 type specific. Sera from the immunized macaques neutralized primary HIV-1 isolates in vitro, including HIV-1BZ167/X4, HIV-1SF2/X4, HIV-1CI2/X4, and, to a lesser extent, HIV-1MNp/X4, all of which contain a V3 sequence homologous to that of rBCG Env V3. In contrast, neutralization was not observed against HIV-1SF33/X4, which has a heterologous V3 sequence, nor was it found against primary HIV-1 R5 isolates from either clade A or B. Furthermore, the viral load in the vaccinated macaques was significantly reduced following low-dose challenge with SHIV-MN, and early plasma viremia was markedly decreased after high-dose SHIV-MN challenge. In contrast, replication of pathogenic SHIV-89.6PD was not affected by vaccination in any of the macaques. Thus, we have shown that immunization with an rBCG Env V3 vaccine elicits a strong, type-specific V3 NAb response in rhesus macaques. While this response was not sufficient to provide protection against a pathogenic SHIV challenge, it was able to significantly reduce the viral load in macaques following challenge with a nonpathogenic SHIV. These observations suggest that rBCG vectors have the potential to deliver an appropriate virus immunogen for desirable immune elicitations.

Predominance of infection with HIV-1 circulating recombinant form CRF02_AG in major Cameroonian cities and towns.

Our observations add to previous results on molecular epidemiology in different provinces in Cameroon demonstrating a high prevalence of CRF02_AG and subtype A accounting for 90% of circulating HIV-1 strains. The country-wide high prevalence of HIV-1 CRF02_AG in Cameroon compared with the relatively low prevalence of CRF02_AG in the Democratic Republic of Congo suggest an early founder effect of this AG recombinant in West Central Africa initiating major CRF02 epidemics. (excerpt)

Identification and distribution of HIV type 1 genetic diversity and protease inhibitor resistance-associated mutations in Shanghai, P. R. China.

Objective To investigate the genetic diversity of the HIV-1 circulating in Shanghai and to analyze the mutations in the protease (PR) gene associated with resistance to protease inhibitors (PIs). Design The genetic diversity of HIV-1 and PI resistance–associated mutations was studied in 40 Shanghai HIV-1-seropositive treatmentnaive residents. The patients studied were exposed to the infection mainly through contaminated blood products (hemophiliacs) (n = 17) and sexual contacts (n = 19). Samples from 2 injecting drug users (IDUs) and 2 children born to HIV-1 infected mothers were also analyzed. Methods HIV-1 partial gag, pol, and env genes in infected plasma samples were amplified by reverse transcriptase polymerase chain reaction, sequenced, and phylogenetically analyzed. Analysis of PI resistance–associated amino acid substitution in PR was performed. Results HIV - 1 genes in 38 of the 40 plasma samples were successfully amplified and analyzed. Polymerase chain reaction amplification was successful for 16/17 hemophilia patients and 18/19 sexually infected individuals. While all the 16 hemophilia patients infected through contaminated blood products were infected with subtype B′, the 18 patients infected through sexual contact were infected with several subtypes including subtype A (n = 2), B (n = 4), B′ (n = 1), C (n = 2), CRF08_BC (n = 1), CRF01_AE (n = 7), and intersubtype recombinant CRF01_AE/B (n = 1). The 2 IDUs were infected with CRF08_BC and the 2 children born to HIV-1 infected mothers were infected with subtype B′ and CRF01_AE. PI resistance–associated amino acid substitutions were found at 1 codon in primary and 7 codons in secondary regions of the PR gene. Amino acid substitutions were more frequently found in the B/B′ sequences (69%) than in the non-B sequences (31%). Substitutions characteristic with the subtype B/B′ sequences mainly among hemophiliacs included L63P (87%), A71V/T (27%), and V77I (93%) while those that characterized the non-B sequences mainly found among heterosexuals included M36I (69%) and K20R (19%). Conclusion This study reveals the presence of multiple HIV-1 subtypes and recombinants infecting Shanghai residents. The broad HIV-1 diversity is being introduced into this city through heterosexual contacts. This study also reveals that viruses infecting these treatment-naive patients have acquired both primary or secondary mutations in their PR genes. These studies should provide the basis for further epidemiologic surveys of HIV-1 subtypes and set strategies for treatment intervention and vaccine programs.