Coreceptor usage and RANTES sensitivity of non-syncytium-inducing HIV-1 isolates obtained from patients with AIDS

OBJECTIVES: The biologic phenotype of HIV-1 primary isolates obtained from approximately 50% of patients who progress to AIDS switches from non-syncytium-inducing (NSI) to syncytium-inducing (SI). We evaluated possible associations between virus coreceptor usage, sensitivity to inhibition by beta-chemokines, and disease progression of patients who continue to yield NSI isolates after developing AIDS. STUDY DESIGN/METHODS: Sequential virus isolates were analyzed for biologic phenotype using the MT-2 cell assay, for sensitivity to beta-chemokines using RANTES inhibition, and for coreceptor usage using U87.CD4 and GHOST.CD4 cells expressing different chemokine/orphan receptors or donor peripheral blood mononuclear cells (PBMC) defective in CCR5 expression. In addition, the env V3 region was sequenced and the length of the V2 region determined. RESULTS: All NSI isolates, regardless of patient status at time of isolation, were dependent on CCR5 expression for cell entry. Furthermore, there was no indication of broadened coreceptor usage of NSI isolates obtained from persons with late-stage AIDS. A majority of NSI isolates remained RANTES sensitive; however, virus variants with reduced sensitivity were observed. The V2 lengths and the V3 sequences exhibited no or minor changes at analysis of sequential NSI isolates. CONCLUSIONS: Our data suggest that NSI isolates obtained from AIDS patients remain CCR5 dependent (ie, R5) and, in many cases, also remain sensitive to RANTES inhibition. However, virus variants with decreased sensitivity to RANTES inhibition may evolve during disease progression, not only as a result of a switch from NSI to SI but also in patients who develop AIDS while continuing to maintain R5 isolates.     

Five human immunodeficiency virus type 1 phenotypic variants with different MT-2 cell tropisms correlate with prognostic markers of disease

OBJECTIVES: We correlated virologic and immunologic parameters of disease progression with cytopathogenicity of HIV isolates. STUDY DESIGN/METHODS: Human immunodeficiency virus type 1 (HIV-1) isolates from 207 patients with CD4+ cell counts < 500/mm3 were examined for biologic phenotype in MT-2 cells. We used a cross-sectional study design. RESULTS: Three subtypes of syncytium-inducing (SI) strains with different times of appearance of syncytia formation in cell culture and two subtypes of non-syncytium-inducing (NSI) isolates, with (NSI/MT2+) or without (NSI/MT2-) replicative capacity in MT-2 cells, were identified. Early SI strains were associated with the lowest CD4+ cell counts and the highest levels of viral load, and NSI/MT2- isolates correlated with the highest CD4+ cell counts and the lowest viral loads. Patients with late SI and NSI/MT2+ strains showed minimal differences in immunologic and virologic markers. CONCLUSIONS: Five HIV phenotypic variants that correlate significantly (P < 0.001) with markers of disease progression were identified.     

The HIV-2 genotype and the HIV-1 syncytium-inducing phenotype are associated with a lower virus replication in dendritic cells

During sexual transmission, HIV infects the mucosal dendritic cells and is transferred to CD4 T cells. Whether HIV variants of a particular genetic (sub)type or phenotype selectively infect dendritic cells (DC) or are preferentially transferred to T cells remains highly controversial. To avoid the cumbersome use of primary dendritic cells, in vitro dendritic cell models were generated from precursors, either hematopoietic progenitor cells (HPC) or monocytes (MO). Productive infection in the dendritic cells and transfer of the virus to T cells was assessed for a range of HIV variants. HPC-derived dendritic cells (HPC-DC) were more susceptible to HIV-1 than to HIV-2 isolates. The HIV-1 group O strains were more productive in HPC-DC than group M, but amongst the latter, no subtype-related difference was observed. Both non-syncytium-inducing (NSI) and SI HIV isolates and lab strains could productively infect HPC-DC, albeit with a different efficiency. Adding blocking antibodies confirmed that both CCR-5 and CXCR-4 co-receptors were functional. Biological HIV-1 clones of the NSI/R5 phenotype infected more readily HPC-DC than SI/X4 clones. MO-derived dendritic cells were, however, more exclusive in their preference for NSI/R5 clones. Some HIV variants, that did not grow readily in HPC-DC alone, could be rescued by adding resting or pre-activated T cells. The present data show that HIV-2 isolates and SI clones replicate less in model-DC, but no preference for a particular HIV-1 subtype was evident. Co-culture with T cells could "correct" a limited growth in dendritic cells. Clearly, both intrinsic dendritic cell susceptibility and enhancement by T cells are explained only partly by HIV genotype and phenotype. The in vitro dendritic cell models seem useful tools to further unravel interactions between HIV, DC, and T cells.     

High IL-7 plasma levels may induce and predict the emergence of HIV-1 virulent strains in pediatric infection.

BACKGROUND: HIV-1 infection results in severe immunodeficiency when T-cell loss cannot be compensated. IL-7 is one of the main cytokines involved in the maintenance of T-cell homeostasis. However, IL-7 can also enhance HIV-1 replication in vivo and lead to an accelerated progression of AIDS. OBJECTIVE: The aim of our study was to evaluate if the increase of IL-7 levels in response to CD4+ T cell depletion could favor the emergence of HIV-1 strains with more aggressive phenotypes in pediatric infection. STUDY DESIGN: Plasma IL-7 levels were measured in 42 HIV-1 vertically infected infants at different times of infection, and HIV-1 isolates were obtained from primary cell cultures to determine replication rate and syncytium-inducing (SI) capability on MT-2 cell line. RESULTS: IL-7 levels were significantly higher in infants harboring HIV-1 SI strains compared to those with non-syncytium-inducing (NSI) viruses (p<0.0001). Likewise, IL-7 levels were higher in infants with rapid replicating viral strains versus those with slow replicating viruses (p=0.0006). Despite the strong negative correlation between IL-7 levels and CD4+ T lymphocyte counts (r=-0.55, p=0.0001), covariance analysis demonstrated that the high levels of IL-7 were associated with more virulent phenotype features (SI and rapid replicating strains) independently of CD4+ T cell depletion. In 19 of the 42 infants, longitudinal follow-up studies showed that SI to NSI phenotype switch can occur after HAART administration, with a reduction in IL-7 levels and an increase in CD4+ T cell counts. CONCLUSIONS: IL-7 response to T-cell depletion may enhance T-cell production, but at the same time may foster HIV-1 disease progression favoring the emergence of more virulent HIV-1 strains characterized by SI capability and rapid replication rate.     

Effect of the HIV-1 syncytium-inducing phenotype on disease stage in vertically-infected children

The syncytium-inducing (SI) capability of HIV-1 isolates from 48 HIV-infected children was determined in order to examine the association of the SI phenotype with an AIDS diagnosis and/or with other clinical parameters in HIV-infected children. In a retrospective cross-sectional analysis, phenotypic data were linked to clinical and immunologic data from each patient. Multiple longitudinal samples were analyzed from 14 patients. Children with SI viruses were older than children with nonsyncytium-inducing (NSI) strains. Twelve of 13 children less than 2 years old carried NSI viruses, seven of the 12 already had a diagnosis of AIDS. Two children under 2 years of age died within 1 month of NSI virus isolation. Although plasma p24 antigen levels tended to be higher in the NSI group, the difference appeared to reflect high p24 levels in children under 2 years old with AIDS. When children under 2 were omitted, differences in age, CD4+ cell counts, p24 antigenemia, and clinical parameters were not significant. The SI phenotype of HIV-1 did not occur more frequently in children with an AIDS diagnosis. Four children remained stable with SI isolates over time periods of 16 to 31 months. Three children's isolates converted from NSI to SI and 2 converted from SI to NSI. These data indicate that SI viruses do not play a significant role in progression to AIDS during the first 2 years of life. Furthermore, for children above the age of 2, the association between advanced disease stage and the SI phenotype in adults may not apply. J. Med. Virol. 55:56–63, 1998. © 1998 Wiley-Liss, Inc.     

Co-receptor usage was more predictive than NSI/SI phenotype for HIV replication in macrophages: is NSI/SI phenotyping sufficient?

A monocyte-derived macrophage (MDM) culture assay was used to define the replication kinetics of HIV isolates. Ten-day-old MDMs were infected with HIV. Supernatants were collected and assayed for HIV p24 on days 3, 7, 10, and 14 post-infection (PI). In this assay, SF162 (macrophage tropic, NSI) produced increasing amounts of HIV p24 antigen with increasing time in culture. BRU (nonmacrophage tropic, SI) infection resulted in low levels of HIV p24 antigen with no increase in production during the culture period. A panel of 12 clinical isolates was evaluated. All isolates produced detectable levels of HIV p24 antigen in MDMs. However, the NSI viruses had significantly higher log10 HIV p24 antigen values at all times PI (P < 0.01). Co-receptor usage was determined for all 12 isolates (8 NSI and 4 SI). All SI isolates used CXCR4 for entry; two used CXCR4 only, one used CXCR4, CCR5, and CCR3, and one was a mixture of two isolates using CXCR4 and CCR5. None of the NSI viruses used CXCR4 for entry. All used CCR5 as their predominant co-receptor. Of the eight NSI isolates, three used CCR5 only, two used CCR5 and CCR2b, one used CCR5 and CCR3, and one used CCR5, CCR3, and CCR2b. Log10 HIV p24 antigen production on day 14 PI for viruses that used CCR5+CCR3 (3.79 + 1.40) was greater than for viruses that used CCR5+CCR2b (3.22 + 1.55) or CCR5 (3.32 + 1.49), and all were greater than those that used CXCR4 only (1.69 + 0.28), regardless of SI phenotype (P < 0.05). Thus, in these primary isolates, macrophage tropism and replication kinetics were closely linked to CCR5 utilization, whereas SI capacity was closely linked to CXCR4 utilization. Furthermore, viruses, which could use CCR5 and CCR3 for entry, had a replication advantage in macrophages, regardless of SI phenotype.     

HIV colonizing peripheral blood monocytes follows lymphocytic isolates in shifting from NSI to SI genotype

Summary Non-syncytium inducing (NSI) and syncytium inducing (SI) variants of human immunodeficiency virus (HIV) isolated from peripheral blood mononuclear cells (PBMC) could be definitely typed by sequence analysis of the env-gene V3 region. It was thus possible to compare the genotypes of viral variants isolated from PBMC and accompanying monocyte cultures and those derived directly from the patients' blood cells prior to cultivation. Within the investigated group of patients it was shown that HIV variants colonizing monocytes displayed a similar shift from NSI to SI as observed previously for PBMC, i.e. lymphocyte derived isolates. Lymphocytic SI variants could be isolated from the blood of patients, while simultaneously the predominant provirus in both blood and monocytic isolate was NSI. Consequently, we observed a delayed switch in the predominant provirus genotype found in blood which was associated with a synchronous change in the genotype of the corresponding monocytic isolate. The results show that monocytes/macrophages can be colonized by heterogeneous HIV variants in vivo and can therefore also function as carriers for the spread of highly virulent SI variants into the tissues.     

Role of HIV-1 phenotype in viral pathogenesis and its relation to viral load and CD4+ T-cell count

The predictive value of HIV-1 phenotype in peripheral blood mononuclear cell (PBMC) coculture and the relation among viral phenotype, viral load, and CD4+ T-cell count were examined in two studies. In study A, 132 HIV-1–infected individuals were examined retrospectively for the relation between the result of their initial HIV cultivation in PBMC coculture and survival rate 6 years later. In study B, 176 patients were examined since 1994 for markers of HIV disease progression. HIV-1 phenotype was determined by PBMC cocultivation, viral load by NASBA HIV RNA QT System, and CD4+ T-cell count by flow cytometry. In study A, the percentage of survival for patients with initial negative virus culture was significantly higher (95%) than in patients with nonsyncytia-inducing (NSI) isolates (78%) and syncytia-inducing (SI) isolates (21%) (P < 0.05 and P < 0.0001, respectively). When SI phenotype was subdivided into moderately cytopathogenic and highly cytopathogenic, significant differences in the rate of survival between these subgroups could be observed (45% vs. 14%; P < 0.05). In study B, progression from negative virus culture to the isolation of NSI variants was associated with increasing viral load (P < 0.0001) but did not affect CD4+ T-cell count significantly (P > 0.07), whereas the switch from NSI to SI virus was accompanied by significant decline of CD4+ T-cells (P < 0.0001) but no change in viral load (P > 0.21). Thus, isolation and phenotyping of HIV represents an additional striking predictive marker for progression of HIV infection. J. Med. Virol. 56:259–263, 1998. © 1998 Wiley-Liss, Inc.     

Relationship between V3 genotype, biologic phenotype, tropism, and coreceptor use for primary isolates of human immunodeficiency virus type 1.

OBJECTIVES: The predictive value of positively charged amino acids at positions 11 and 25 within the V3 loop region of the human immunodeficiency virus type 1 (HIV-1) envelope gene for the syncytium-inducing (SI) phenotype was assessed. STUDY DESIGN/METHODS: Sequencing was performed on DNA extracted from primary peripheral blood mononuclear cells (PBMCs) and complementary DNA (cDNA) prepared from serial viral isolates from 10 HIV-1-seropositive subjects. Proviral DNA sequencing was also performed on biologic clones from most of these subjects. RESULTS: Positive charge at position 11 and/or 25 in 257 isolate cDNA, PBMC DNA, and biologic clone PBMC DNA sequences was compared with 69 phenotypic determinations, of which 62.3% were SI. V3 genotype was 51.2% sensitive and 85.8% specific for the SI phenotype, with positive and negative predictive values of 62.8% and 79.0%, respectively. Cellular tropism failed to correlate with V3 genotype, coreceptor use, or biologic phenotype. Exclusive use of CCR5 was associated with the nonsyncytium-inducing (NSI) phenotype. Overall, V3 loop charge was higher in SI than in NSI isolates (5.01 and 3.78, respectively; p = 0.0211). CONCLUSIONS: The predictive power of SI phenotype from V3 genotype is relatively weak, especially in a low SI prevalence population. The direct measurement of viral phenotype, cellular tropism, and coreceptor use in HIV-1 isolates is essential for accurate biologic characterization.     

M嗜性HIV-1毒株一过性感染T细胞系的研究

目的了解早期分离毒株一过性感染Ｔ细胞的分子机制。方法将毒株在Ｔ细胞系培养后,在观察其生物学性状的同时,对外膜基因进行序列分析,确定毒株的基因变异,并结合异源双链泳动分析,了解病毒群的复杂度。结果序列分析显示这些病毒都是Ｍ嗜性、非介导融合型（ＮＳＩ）,与其生物学性状一致;在Ｔ细胞系传代过程中发生较大变异,都在不同程度上表现出偏离Ｍ嗜性、ＮＳＩ的序列特征;尽管有一毒株（编号：ＣＮ９７００１）在末代序列中已有介导融合型（ＳＩ）的特征,但却未能显示ＳＩ的表型。异源双链泳动分析显示,病毒群复杂度在传代刚开始时低,以后一直较高。结论结果提示,Ｍ嗜性、ＮＳＩ毒株为适应Ｔ细胞系,向不同变异方向作了尝试,但都未成功。虽然ＨＩＶ外膜基因与毒株的细胞嗜性、受体使用,与介导融合等特性有关,但这些表型的体现与否,还与毒株的整个基因组背景有关。在早期感染的Ｍ嗜性、ＮＳＩ毒株群中并没有Ｔ嗜性／ＳＩ毒株存在,是后来在体内随感染延续而产生的。     

Phenotypic variations and switches in HIV isolated from the blood and the gastrointestinal tissues of patients with HIV-1 infection

The objective of this study was to determine the initial and subsequent phenotypes of HIV-1 isolated from the blood, duodenal, and colonic biopsies of 51 HIV-1 positive patients followed prospectively over 2 years. Blood and tissues were cocultured with stimulated peripheral blood monocytes, and HIV was analyzed for phenotypic expression of syncytia-induction (SI). A total of 45/51 patients had HIV-1 isolated from the blood and 35/51 had HIV isolated from gastrointestinal tract. In 12/45 patients SI-HIV-1 was isolated from the blood. In 6/12 patients the blood phenotype reverted to the NSI phenotype. SI phenotypes were also isolated from the colon and duodenum of 8/35 patients and reversion from SI to NSI virus phenotype was again observed in gut tissue of 3/8 patients. These results show that gastrointestinal tissues can harbor SI HIV phenotype. Discordant phenotypes can be found in tissue and blood of late-stage patients. Reversion of phenotypic SI expression to NSI may occur in patients receiving monotherapy as antiretroviral treatment. These results suggest that gastrointestinal tissues may act as a separate and distinct site involved in HIV replication and its associated pathogenesis. J. Med. Virol. 52:31–34, 1997. © 1997 Wiley-Liss, Inc.     

HIV-1 evolves into a nonsyncytium-inducing virus upon prolonged culture in vitro.

HIV-1 LAI is a syncytium-inducing (SI) virus with a broad host cell range. We previously isolated a LAI variant that improved replication in the SupT1 T cell line due to mutations within the C1 and C4 constant regions of the Env protein. We now report that this variant exhibits a severely restricted host cell range, as replication in other T cell lines and primary cells was abolished. Several Env-mediated functions were analyzed to provide a mechanistic explanation for this selective adaptation. The change in host cell tropism was not caused by a switch to a SupT1-specific coreceptor. Biosynthesis of the variant Env glycoprotein was not improved in SupT1 cells, and in fact a small defect in intracellular Env processing was observed. SupT1 infection assays did not reveal an improved Env function either, and a dramatic loss of infectivity was measured with other cell types. The Env-mutated HIV-1 reached an approximately fivefold higher level of virus production in SupT1 cells at the peak of infection. Unlike the LAI virus, the variant did not trigger the formation of syncytia. Our combined results suggest that the HIV-1 variant allows the infected host cell to survive longer, thus producing more viral progeny. The intricate virus-cell interaction results in a balance between optimal virus replication and host cell survival, causing a cytopathic SI isolate to evolve toward a nonsyncytium-inducing (NSI) phenotype in cell culture. These findings may help explain the absence of SI variants in the initial phase of HIV-1 infection, and the results dispute the notion that HIV-1 evolution should always go from the NSI to SI phenotype.     

Genotypic and phenotypic analysis of the env gene from South African HIV-1 subtype B and C isolates

The objective of the study was to assess the genotypic and phenotypic properties of 18 viral strains from human immunodeficiency virus-1 (HIV-1) positive patients and to identify subtype C isolates for vaccine design strategies. All the isolates were non-syncytium-inducing (NSI) in both the primary and MT-2 cell cultures. The amino acid charge of the V3 loop correlated with the NSI phenotype of the strains. The V3 competitive peptide enzyme immunoassay and DNA sequencing of the partial gp120 region gave concordant results on the 15 subtype C strains, whereas the three B genotypes gave a positive to B, a nonreactive to B, and a dual reaction to the B-D peptides, respectively. Sixteen of the isolates used only CCR5 as coreceptor whereas two isolates made use of additional coreceptors including CXCR4. In summary, all our subtype C isolates are NSI phenotypically and almost all of them use CCR5 exclusively as their coreceptor.     

Biological phenotypes of HIV-1 subtypes A and B strains of diverse origins

The identification of specific biologic phenotypic traits that can be correlated with different HIV-1 genetic subtypes was sought. The genetic subtypes were determined by either sequencing (Cameroonian strains, n = 18) or by the heteroduplex mobility assay (HMA) (Belgian strains, n = 21 and lvorian strains, n = 25). Seventeen (81%) of the 21 Belgian isolates belonged to subtype B and 4 (17%) were subtype A strains. Subtype A variants were predominant in the two African countries studied; 11 (61%) of 18 strains from Cameroon and 23 (92%) of 25 strains from the Ivory Coast. Of the 64 isolates, 38 (58%) and 19 (29%) belonged to subtypes A and B, respectively. No significant difference was observed for biological phenotypes (slow/low and rapid/high) of both genetic subtypes. In symptomatic individuals, however, a significantly higher number of subtype B isolates were of rapid/high phenotype, compared with subtype A (5 of 10; 50%) vs. 2 of 22; 9%), respectively; X² = 6.7, P = 0.02). The findings suggest that overall HIV-1 isolates belonging to genetic subtype B are not distinguishable from subtype A variants on the basis of their biological phenotypes. Syncytium-inducing variants were less prevalent regardless of the geographic origin of the isolates. © Wiley-Liss, Inc.     

No association of HIV-1 envelope (C2-V3-C3) sequence pattern with long-term nonprogression

We previously identified a group of 10 long-term nonprogressors (LTNP) with HIV-1 infection. In this study, we have sequenced the envelope gene (C2-V3-C3) from the 10 LTNPs and from a control group of 9 people with rapidly progressing infection (RPI). The 19 individuals' CCR5 genotype and virus phenotype (i.e., syncytium-inducing/non-syncytium-inducing [SI/NSI]) were obtained from a previous study. A phylogenetic tree was constructed containing the 19 envelope sequences together with 42 local control env sequences obtained from other studies. Analysis of the phylogenetic tree did not reveal any relation between the envelope gene (C2-V3-C3) from LTNPs versus RPIs. When data from the CCR5 genotype and the virus phenotype were assembled in the phylogenetic tree, no significant clustering was observed. From alignment of the protein sequences, we found a possible N-glycan in position aa294 in env that was conserved in only 1 of 10 LTNPs; however, it was conserved in 6 of 9 RPIs. Our study could not demonstrate any association between LTNPs and the sequenced envelope gene segment (C2-V3-C3). This lack of association could be due to the relatively small sample size of the data set. Nor did we find any relation between the CCR5 genotype or the SI/NSI phenotype with the sequenced envelope genes from the 19 participants. The possible N-glycan position we have described is an interesting observation that may require further investigation.     

Evaluation of type-specific and non-type-specific pseudomonas vaccine for treatment of pseudomonas sepsis during granulocytopenia.

The protective role of serotype-specific and non-type-specific active immunity against Pseudomonas aeruginosa infection was assessed in granulocytopenic dogs. Dogs were preimmunized with either specific serotype 6 vaccine (SI) or nonspecific serotype 3 vaccine (NSI) and challenged intravenously with 10(7) viable serotype 6 P. aeruginosa during granulocytopenia. Control dogs (C) having insignificant anti-pseudomonas antibody levels were also tested. Results showed: (i) significant increase in survival of SI dogs (P less than 0.05) compared to C and NSI dogs, with no significant difference between C and NSI animals; (ii) lower febrile responses in SI dogs; and (iii) markedly reduced bacteremia in SI dogs compared to C and NSI animals. SI dog sera from survivor animals did not kill the infecting pseudomonas strain in vitro. The study demonstrated that type-specific immunity to P. aeruginosa induced by active immunization is effective in protection against pseudomonas during granulocytopenia and that non-type-specific immunity offers no cross-reactive protection. The findings suggest that the reticuloendothelial system in conjunction with specific immunity constitute an important defense against pseudomonas infections.     

The strain features of the HIV-1 circulating in the USSR based on data from a study of its properties in cell cultures]

Both variants of HIV-1 reported in the literature: slow/low and rapid/high types, were detected among the strains isolated from the subjects examined in 4 foci of HIV-1 infection in the south of the RSFSR and Byelorussia. All the 17 strains isolated in the southern RSFSR foci belonged to the slow/low type and had a low and unstable replication potential in donor peripheral blood mononuclear cells and in MT-4 cell line. All of them were isolated from subjects with asymptomatic infection and from children with initial clinical manifestations of the disease. Only one strain isolated in Byelorussia belonged to the rapid/high type. Its replicative activity was very similar to that of the classical HIV-1--HTLV-IIIB strain. Long-term (up to 7 months) propagation of slow/low strains did not result in any increase of their replicative activity. The capacity to form syncytia was found not only in the rapid/high type strains but also in the majority of slow/low strains under study.     

Screening of HIV-1 Env Glycoproteins for the Ability to Raise Neutralizing Antibody Using DNA Immunization and Recombinant Vaccinia Virus Boosting

HIV-1 envelopes from two series of primary isolates (from Swedish patients 5 and 6), from JR-FL and BaL (prototypic monocyte/macrophage tropic viruses) and from HXB-2 (a prototypic T-cell-line-adapted virus), have been screened for their ability to elicit neutralizing antibody to HIV-1. Rabbits were primed by gene gun inoculation with plasmids expressing secreted monomeric (gp120) and oligomeric (gp140) forms of each Env. After four to six DNA immunizations administered over a 1-year period, rabbits were boosted with 10⁸plaque-forming units of a mixture of seven recombinant vaccinia viruses which express chimeric gp140 Envs (primary clade B sequences in a IIIb-related BH10 backbone). Neutralizing antibodies were assayed against two T-cell-line-adapted viruses (MN and IIIb), two non-syncytium-inducing (NSI) and two syncytium-inducing (SI) primary isolates, and two HIV-1-NL4-3-recombinants with patient 5 or 6 Envs (NL4-3/5A, NL4-3/6C). The DNA priming and recombinant vaccinia virus boosting raised low titers of neutralizing antibody in 10 of 19 rabbits. The highest titers of neutralizing activity (1:150 for MN) were raised in rabbits DNA primed with Envs from Swedish patient 5. These sera cross-neutralized IIIb and MN but did not neutralize the primary isolates or the NL4-3 recombinant with the homologous 5A Env. Sera from rabbits primed with the HXB-2 Env DNA were, for the most part, type-specific for neutralization of IIIb. In one of three assays, sera from rabbits primed with plasmids expressing the JR-FL and BaL Envs had possible low titer neutralizing activity for two NSI, but not two SI, primary isolates. Our results highlight the low immunogenic potential of the HIV-1 Env and demonstrate that different Envs have different potentials to raise low titer neutralizing antibody.     

SDF-1 gene polymorphisms and syncytia induction in Brazilian HIV-1 infected individuals

Stromal-derived factor (SDF-1) is the principal ligand for CXCR4, a co-receptor with CD4 for T lymphocyte cell line-tropic human immunodeficiency virus-type 1 (HIV-1). A common polymorphism, SDF1-3' A, was identified in an evolutionary conserved segment of the 3' untranslated region of the SDF-1 gene. Sequence analysis revealed a common variant at position 801, a G-->A transition referred to as SDF1-3' A. Because this variant eliminates the Msp I restriction site PCR-restriction fragment length polymorphism (RFLP) analysis was used for rapid detection of genotypes. We genotyped 62 HIV infected patients and 60 non-HIV blood donors by RFLP analysis. We also assessed syncytia formation through co-culture of MT-2 cells with peripheral blood mononuclear cells from HIV patients. Syncytium-inducing HIV-1 variants have been shown to be clinically significant in the pathogenesis of HIV-1 infection. In our study, we detected a low frequency of 3'A/3'A (5%) in the blood donors but this genotype was absent in all HIV patients. We found that 41 (68%) HIV patients including syncytia inducing (SI) and non-syncytia inducing (NSI) groups contained the wild type (wt/wt) genotype for SDF-1. Our data indicate that there is no correlation between SDF-1 alleles and syncytium inducing HIV.