Chemokine receptors expression on T cells and response to HAART among chronic HIV-1-infected subjects

Chemokines receptors are used by HIV-1 for entry into CD4(+) T cells. The beta-chemokines are capable of inhibiting HIV replication. This study determined the CCR5 and CXCR4 expression on T cells in HIV-1-infected patients treated with HAART. The successfully treated group (plasma viral load <400 copies/mL), when compared with the failure group (plasma viral load >400 copies/mL), had higher median CD4(+) T cells count (583 and 245 cells/mm(3); respectively, p< 0.0001). The failure patients had higher numbers and intensity of CCR5 and CXCR4-expressing T cells. Successfully treated patients were able to normalize the co-receptors expression-over on T cells. The viremic group showed higher CCR5 expression on CD4(+) T cells and lower number of cells; CCR5 expression was normalized in the aviremic group; the na?ve group showed lower CCR5 expression and higher numbers of CD4 T cells; all groups showed normal CXCR4 expression compared to healthy controls. These findings may have clinical implications, since down-regulation of these co-receptors could be an adjuvant strategy for anti-HIV treatment.     

Short communication: Influence of active tuberculosis on chemokine and chemokine receptor expression in HIV-infected persons

Tuberculosis (TB) is the major opportunistic infection of HIV-1-infected patients in developing countries. Concurrent infection with TB results in immune cells having enhanced susceptibility to HIV-1 infection, which facilitates entry and replication of the virus. Cumulative data from earlier studies indicate that TB provides a milieu of continuous cellular activation and irregularities in cytokine and chemokine circuits that favor viral replication and disease progression. To better understand the interaction of the host with HIV-1 during active tuberculosis, we investigated in vivo expression of the HIV-1 coreceptors, CCR5 and CXCR4, and circulating levels of the inhibitory beta-chemokines, macrophage inflammatory protein-1-alpha (MIP-1alpha), macrophage inflammatory protein-1-beta (MIP-1beta), and regulated upon activation T cell expressed and secreted (RANTES), in HIV-positive individuals with and without active pulmonary tuberculosis. We found a significant decrease from normal in the fraction of CD4+ T cells expressing CCR5 and CXCR4 in individuals infected with HIV. However, CCR5 and CXCR4 expression did not differ significantly between HIV patients with and without tuberculosis. Higher amounts of MIP-1alpha, MIP-1beta, and RANTES were detected in plasma of HIV-1-positive individuals, particularly those with dual infection, although the increase was not found to be statistically significant.     

Generation of CD8+ T cell-generated suppressor factor and beta-chemokines by targeted iliac lymph node immunization in rhesus monkeys challenged with SHIV-89.6P by the rectal route

The targeted lymph node (TLN) immunization strategy was investigated in macaques, in order to determine the efficacy in generating secretory, systemic, and cellular immune responses, CD8+ T cell-generated suppressor factors, and beta-chemokines. TLN immunization of the rectal and genital mucosa-associated iliac lymph nodes (TILNs) was compared with axillary TLN immunization (TAxLN) using HIV-1 MN/LAI gp140env and SIV p27gag in alum. Significantly higher immune responses, as well as CD8+ T cell-generated anti-SIV factors and the beta-chemokines RANTES, MIP-1alpha, and MIP-1beta, were elicited by iliac as compared with axillary TLN immunization. The immune responses induced by TLN immunization were examined for their capacity to prevent rectal mucosal infection by the pathogenic dual-tropic SHIV-89.6P. Despite significant secretory, serum, cellular, and beta-chemokine responses, the macaques were infected by SHIV-89.6P. Whether the lack of protection was associated with the antigenic unrelatedness of SHIV-89.6P to the immunizing HIV-1 MN/LAI gp140 or to the virus utilizing CXCR4 to a much greater extent than CCR5, remains to be determined.     

Limited expression of R5-tropic HIV-1 in CCR5-positive type 1-polarized T cells explained by their ability to produce RANTES, MIP-1alpha, and MIP-1beta

Human T helper (Th) cells (Th1- or Th2-oriented memory T cells as well as Th1- or Th2-polarized naive T cells) were infected in vitro with an R5-tropic HIV-1 strain (BaL) and assessed for their profile of cytokine production, CCR5 receptor expression, and HIV-1 p24 antigen (p24 Ag) production. Higher p24 Ag production was found in CCR5-negative Th2-like memory T cells than in CCR5-positive Th1-like memory T cells. By contrast, p24 Ag production was higher in Th1-polarized activated naive T cells in the first 4 days after infection. However, p24 Ag production in Th1-polarized T cells became comparable or even lower than the production in Th2-polarized populations later in infection or when the cells were infected with HIV-1BaL after secondary stimulation. The higher levels of p24 Ag production by Th1-polarized naive T cells soon after infection reflected a higher virus entry, as assessed by the single round infection assay using the HIV-chloramphenicol acetyl transferase (HIV-CAT) R5-tropic virus that contains the envelope protein of HIV-1 YU2 strain. The limitation of viral spread in the Th1-polarized populations, despite the initial higher level of T-cell entry of R5-tropic strains, was due to the ability of Th1 cells to produce greater amounts of beta-chemokines than Th2 cells. In fact, an inverse correlation was observed between Th1-polarized naive T cells and Th1-like memory-activated T cells in regards to p24 Ag production and the release of the following CCR5-binding chemokines: regulated on activation normal T expressed and secreted (RANTES), macrophage inflammatory protein-1alpha (MIP-1alpha), and MIP-1beta. Moreover, infection with the HIV-1BaL strain of Th1-polarized T cells in the presence of a mixture of anti-RANTES, anti-MIP-1alpha, and anti-MIP-1beta neutralizing antibodies resulted in a significant increase of HIV-1 expression. These findings suggest that Th1-type responses may favor CD4(+) T-cell infection by R5-tropic HIV-1 strains, but HIV-1 spread in Th1 cells is limited by their ability to produce CCR5-binding chemokines. (Blood. 2000;95:1167-1174)     

No difference in in vitro susceptibility to HIV type 1 between high-risk HIV-negative Ethiopian commercial sex workers and low-risk control subjects

Host factors such as increased beta-chemokine production, HIV-1 coreceptor expression level, and HIV-1 coreceptor polymorphism have been thought to influence susceptibility to HIV-1 infection. To determine the protective role of these factors in Ethiopians who remained HIV-1 uninfected, despite multiple high-risk sexual exposures, we studied 21 Ethiopian women who had been employed as commercial sex workers (CSWs) for five or more years. The HIV-1-resistant CSWs were compared with low-risk age-matched female controls who had a comparable CD4+ cell percentage and mean fluorescence intensity (MFI). Genetic polymorphism in the CCR5, CCR2b, or SDF-1 genes appeared not to be associated with resistance in the Ethiopian CSWs. Expression levels of CCR5 and CXCR4 on naive, memory, and total CD4+ T cells tended to be higher in the resistant CSWs, while the production of beta-chemokines RANTES, MIP-1alpha, and MIP-1beta by phytohemagglutinin (PHA)-stimulated peripheral blood mononuclear cells (PBMCs) was lower compared with low-risk HIV-1 negative controls. In vitro susceptibility of PHA-stimulated PBMCs to primary, CCR5-restricted, Ethiopian HIV-1 isolates was comparable between resistant CSWs and low-risk controls. In vitro susceptibility was positively correlated to CD4+ cell mean fluorescence intensity and negatively correlated to CCR5 expression levels, suggesting that infection of PBMCs was primarily dependent on expression levels of CD4 and that CCR5 expression, above a certain threshold, did not further increase susceptibility. Our results show that coreceptor polymorphism, coreceptor expression levels, beta-chemokine production, and cellular resistance to in vitro HIV-1 infection are not associated with protection in high-risk HIV-1-negative Ethiopian CSWs.     

Positive association between beta-chemokine-producing T cells and HIV type 1 viral load in HIV-infected subjects in Abidjan, Côte d'Ivoire

The role of beta-chemokines in controlling HIV replication in vivo is still controversial. Therefore, the association between HIV-1 plasma viral load and the capacity of CD4(+) and CD8(+) T cells to produce beta-chemokines was studied in 28 antiretroviral drug-na?ve HIV-1-infected female sex workers in Abidjan, C?te d'Ivoire. Percentages of beta-chemokine-positive T cells were measured in peripheral blood mononuclear cells by flow cytometry after intracellular staining for RANTES (regulated on activation, normal T expressed and secreted), macrophage inflammatory protein (MIP)-1alpha, and MIP-1beta. HIV-1-infected subjects had higher percentages of MIP-1alpha- and MIP-1beta-positive CD4(+) and CD8(+) T cells (p < 0.02) and of RANTES-positive CD8(+) T cells (p = 0.054) than uninfected controls. Percentages of RANTES- and MIP-1beta-positive CD8(+) T cells correlated directly with HIV-1 plasma viral load (p < 0.02). Percentages of beta-chemokine-positive CD4(+) and CD8(+) T cells correlated directly with percentages of HLA-DR-positive T cells (p < 0.02) and inversely (except RANTES in CD4(+) T cells) with absolute numbers of CD4(+) T cells (p < 0.05) in peripheral blood. These data indicate that increased percentages of beta-chemokine-producing T cells in HIV-1-infected subjects correlate with disease progression and are a sign of viremia-driven chronic T cell activation.     

HIV-1 glycoprotein 120 induces the MMP-9 cytopathogenic factor production that is abolished by inhibition of the p38 mitogen-activated protein kinase signaling pathway

It has been previously shown that the HIV-1 envelope glycoprotein 120 (gp120) activates cell signaling by CXCR4, independently of CD4. The present study examines the involvement of different intracellular signaling pathways and their physiopathologic consequences following the CD4-independent interaction between CXCR4 or CCR5 and gp120 in different cell types: primary T cells, CD4(-)/CXCR4(+)/CCR5(+) T cells, or glioma cells. These interactions were compared with those obtained with natural ligands, stromal cell-derived factor 1 alpha (SDF-1alpha) (CXCL12) and macrophage inflammatory protein 1 beta (MIP-1beta) (CCL4) of their respective coreceptors. Thus, both p38 and SAPK/Jun N-terminal kinase mitogen-activated protein kinases (MAPKs) are activated on stimulation of these cells with either T- or M-tropic gp120, as well as with SDF-1alpha or MIP-1beta. In contrast, extracellular signal-related kinase 1 and 2 MAPKs are only activated by MIP-1beta but not by M-tropic gp120. Importantly, T- and M-tropic gp120 are able to induce the secretion of matrix metalloproteinase 9 (MMP-9), an extracellular metalloproteinase present in cerebrospinal fluid of patients with HIV-1 by T cells or glioma cells. Specific inhibition of MAPK p38 activation resulted in a complete abrogation of the induction of the MMP-9 pathogenic factor expression by gp120 or chemokines in both cell types. Because neurodegenerative features in acquired immune deficiency syndrome dementia may involve demyelinization by MMP-9, the specific targeting of p38 could provide a novel means to control HIV-induced cytopathogenic effects and cell homing to viral replication sites. (Blood. 2001;98:541-547)     

gp120 envelope glycoproteins of human immunodeficiency viruses competitively antagonize signaling by coreceptors CXCR4 and CCR5

Signal transductions by the dual-function CXCR4 and CCR5 chemokine receptors/HIV type 1 (HIV-1) coreceptors were electrophysiologically monitored in Xenopus laevis oocytes that also coexpressed the viral receptor CD4 and a G protein-coupled inward-rectifying K⁺ channel (Kir 3.1). Large Kir 3.1-dependent currents generated in response to the corresponding chemokines (SDF-1α for CXCR4 and MIP-1α; MIP-1β and RANTES for CCR5) were blocked by pertussis toxin, suggesting involvement of inhibitory guanine nucleotide-binding proteins. Prolonged exposures to chemokines caused substantial but incomplete desensitization of responses with time constants of 5–7 min and recovery time constants of 12–19 min. CXCR4 and CCR5 exhibited heterologous desensitization in this oocyte system, suggesting possible inhibition of a common downstream step in their signaling pathways. In contrast to chemokines, perfusion with monomeric or oligomeric preparations of the glycoprotein of M_r 120,000 (gp120) derived from several isolates of HIV-1 did not activate signaling by CXCR4 or CCR5 regardless of CD4 coexpression. However, adsorption of the gp120 from a T-cell-tropic virus resulted in CD4-dependent antagonism of CXCR4 response to SDF-1α, whereas gp120 from macrophage-tropic viruses caused CD4-dependent antagonism of CCR5 response to MIP-1α. These antagonisms could be partially overcome by high concentrations of chemokines and were specific for coreceptors of the corresponding HIV-1 isolates, suggesting that they resulted from direct interactions of gp120–CD4 complexes with coreceptors and that they did not involve the desensitization pathway. These results indicate that monomeric or oligomeric gp120s specifically antagonize CXCR4 and CCR5 signaling in response to chemokines, but they do not exclude the possibility that gp120s might also function as weak agonists in some cells. The gp120-mediated disruption of CXCR4 and CCR5 signaling may contribute to AIDS pathogenesis.     

CXCR3 and CCR5 chemokines in induced sputum from patients with COPD

BACKGROUND: COPD is associated with increased numbers of CD4(+) and CD8(+) lymphocytes and macrophages in the small airways and lung parenchyma. The chemokines regulating T-cell recruitment into the lung are unknown but may involve CXCR3 and CCR5 chemoattractants. The aims of this study were to determine the concentrations of CXCR3 chemokines CXCL9, CXCL10, CXCL11, and the CCR5 chemokine CCL5 in induced sputum from patients with COPD, smokers, and nonsmokers, and to examine the relationship between chemokine expression, inflammatory cells, and airway obstruction. METHODS: Differential cell counts were performed and concentrations of CXCL9, CXCL10, CXCL11, and CCL5 were measured in induced sputum from nonsmokers (n = 18), smokers (n = 20), and COPD patients (n = 35) using an enzyme-linked immunosorbent assay. RESULTS: Concentrations of CXCL9, CXCL10, CXCL11, and CCL5 were significantly increased in the sputum of patients with COPD when compared with nonsmokers but not smokers without obstruction: CXCL9 (median, 14.3 pg/mL; interquartile range [IQR], 6.5 to 99.3; vs median, 1.4 pg/mL; IQR, 0 to 10.4 [p < 0.001]; vs 8.5 pg/mL; IQR, 0 to 16.0, respectively); CXCL10 (16.9 pg/mL; IQR, 6.2 to 148.8; vs 3.7 pg/mL; IQR, 0 to 18.8 [p < 0.05]; vs 11.3 pg/mL; IQR, 3.7 to 46.7); CXCL11 (58.1 pg/mL; IQR, 34.5 to 85.3; vs 33.5 pg/mL; IQR, 23.2 to 49.7 [p < 0.05]; vs 49.8 pg/mL; IQR, 32.6 to 105.6); and CCL5 (59.9 pg/mL; IQR, 57.1 to 67.8; vs 33.5 pg/mL; IQR, 31.6 to 36.9 [p < 0.001]). CCL5 in sputum from smokers was also significantly increased compared with that from nonsmokers (median, 63.0 pg/mL; IQR, 60.8 to70.2; p < 0.001). There was a negative correlation between FEV(1) percentage of predicted, FEV(1)/FVC ratio, and percentage of macrophages, and all the chemokines analyzed. Neutrophil numbers correlated positively with the concentrations of chemokines. CONCLUSIONS: CXCR3 chemokines and CCL5 are increased in sputum from COPD patients compared with nonsmokers, and may be important in COPD pathogenesis.     

SDF-1alpha is a potent inducer of HIV-1-Specific CD8+ T-cell chemotaxis, but migration of CD8+ T cells is impaired at high viral loads

Multiple impairments in HIV-1-specific cytotoxic T cells (CTL) have been reported, but derangements in HIV-1-specific CD8+ T-cell chemotaxis have not been described previously. We assessed migration to SDF-1alpha (stromal cell-derived factor 1-alpha) and CX3CL1 in vitro and expression of cognate receptors, CXCR4 and CX3CR1, by flow cytometry in peripheral blood and lymph node CD8+ T cells from HIV-1-seropositive and -seronegative individuals. Compared with seronegative individuals, percentages of CXCR4+CD8+ T cells were reduced (median, 26% versus 74%, p < 0.001) and percentages of CX3CR1+CD8+ T cells were increased (median, 33% versus 15%, p = 0.03) in seropositive individuals. Robust migration of peripheral blood mononuclear cell (PBMC) CD8+ T cells to SDF-1alpha (1 alphag/ml) was observed in both HIV-1-seropositive (median chemotactic index [CI] 4.9) and -seronegative (median CI 2.8) subjects (p = 0.46). CI to SDF-1alpha was not significantly related to percentage of CXCR4+CD8+ T cells or density of CXCR4, but correlated inversely with plasma HIV-1 RNA concentration (r = -0.82, p = 0.03). Little chemotaxis was observed in response to CX3CL1 and it was unrelated to CX3CR1 expression. Lymph node CD8+ T-cell chemotaxis to SDF-1alpha and CX3CL1 in four subjects demonstrated the same patterns observed in PBMC. HIV-1-specific tetramer-staining CD8+ T cells exhibited chemotaxis of similar magnitude as PBMC CD8+ T cells in a subset of subjects. These data suggest that SDF-1alpha is a potent chemoattractant for HIV-1-specific CTL, but that impairments in migration of HIV-1-specific CTL may exist at high viral loads. Improved understanding of the determinants of CTL localization may provide insight into novel therapies to enhance delivery of CTL to sites of HIV-1 replication.     

HIV-1-suppressive factors are secreted by CD4+ T cells during primary immune responses

CD4+ T cells are required for immunity against many viral infections, including HIV-1 where a positive correlation has been observed between strong recall responses and low HIV-1 viral loads. Some HIV-1-specific CD4+ T cells are preferentially infected with HIV-1, whereas others escape infection by unknown mechanisms. One possibility is that some CD4+ T cells are protected from infection by the secretion of soluble HIV-suppressive factors, although it is not known whether these factors are produced during primary antigen-specific responses. Here, we show that soluble suppressive factors are produced against CXCR4 and CCR5 isolates of HIV-1 during the primary immune response of human CD4+ T cells. This activity requires antigenic stimulation of na?ve CD4+ T cells. One anti-CXCR4 factor is macrophage-derived chemokine (chemokine ligand 22, CCL22), and anti-CCR5 factors include macrophage inflammatory protein-1 alpha (CCL3), macrophage inflammatory protein-1 beta (CCL4), and RANTES (regulated upon activation of normal T cells expressed and secreted) (CCL5). Intracellular staining confirms that CD3+CD4+ T cells are the source of the prototype HIV-1-inhibiting chemokines CCL22 and CCL4. These results show that CD4+ T cells secrete an evolving HIV-1-suppressive activity during the primary immune response and that this activity is comprised primarily of CC chemokines. The data also suggest that production of such factors should be considered in the design of vaccines against HIV-1 and as a mechanism whereby the host can control infections with this virus.     

Acquisition of HIV type 1 resistance by beta-chemokine-producing CD4+ T cells.

The CD4+ T cell is a major target cell type for human immunodeficiency virus type 1 (HIV-1) infection. In this study, we provide evidence that the susceptibility to HIV-1 infection is variable in individual CD4+ T cells. Five CD4+ T cell clones were isolated from an HIV-1-seronegative donor and were investigated for their susceptibility to HIV-1 infection. Four CD4+ T cell clones were resistant to infection by a macrophage-tropic (R5) HIV-1 isolate whereas one clone was fully permissive. The level of susceptibility to HIV-1 correlated inversely with beta-chemokine production, including RANTES (regulated on activation, normally T cell expressed and secreted), macrophage inflammatory protein 1alpha (MIP-1alpha), and MIP-1beta. Resistance to HIV-1 infection was abrogated by the combined use of neutralizing antibodies against these three beta-chemokines. Interestingly, a complete inhibition of HIV-1 infection was observed in peripheral blood mononuclear cells on infection induced by adding the culture supernatant or a small number of HIV-1-resistant cell clones. Our results suggest the presence of a clonal self-defense mechanism within the CD4+ T cell population in vivo that involves the secretion of beta-chemokines.     

Circulating levels and ex vivo production of beta-chemokines, interferon gamma, and interleukin 2 in advanced human immunodeficiency virus type 1 infection: the effect of protease inhibitor therapy

Cytokines and beta-chemokines play an important role in the complex interaction between HIV-1 and the immune system. We studied platelet-free plasma (PFP) levels and ex vivo production of cytokines and beta-chemokines at different HIV disease stages and the influence of potent protease inhibitor therapy on their production in late-stage patients. Mitogen-induced production of MIP-1alpha, MIP-1beta, and RANTES by PBMCs was higher in HIV-infected patients than in HIV-seronegative controls. Patients with late-stage HIV infection (CD4+ cells <50/microl) showed a higher production of MIP-1alpha and RANTES and lower plasma levels of IL-2 compared with HIV-positive patients at the intermediate stage (CD4+ cells >150/microl). Pretreatment RANTES production correlated negatively with CD4+ and CD8+ cell counts; also, MIP-1alpha production was inversely correlated with CD4+ cell counts. Among patients with a CD4+ cell count <50/microl, RANTES production before protease inhibitor treatment was inversely correlated with viral load. Late-stage patients with IL-2 production higher than 50 pg/ml before treatment showed a more impressive increase in CD4+ cell counts after protease inhibitor therapy. The production of MIP-1alpha, MIP-1beta, RANTES, and IFN-gamma was markedly reduced at 8 weeks and partially restored at 24 weeks after beginning protease inhibitor therapy. PFP levels of RANTES showed a concurrent decrease. Patients with more advanced HIV infection show a higher production of inflammatory cytokines, which is reduced by protease inhibitor therapy. Residual late-stage IL-2 producers may represent a subset of patients with a higher potential for immunologic reconstitution.     

Induction of G1 cycle arrest in T lymphocytes results in increased extracellular levels of beta-chemokines: a strategy to inhibit R5 HIV-1

The beta-chemokines RANTES (regulated on activation, normal T cell expressed and secreted), macrophage inflammatory protein-1alpha (MIP-1alpha), and MIP-1beta are the natural ligands of the HIV-1 coreceptor CCR5 and compete with the virus for receptor binding. We show that secretion of the beta-chemokines by activated lymphocytes starts before cellular DNA synthesis is detected and demonstrate that transient prolongation of the G(1) phase of the cell cycle by treatment with cytostatic drugs results in increased levels of the three chemokines in culture supernatants. Supernatants collected from peripheral blood mononuclear cells exposed to hydroxyurea, which arrests the cell cycle in late G(1), contained high levels of beta-chemokines. These supernatants were able to inhibit HIV-1 replication when added to cultures of infected lymphocytes. The observed antiviral effect likely was due to the increased levels of beta-chemokines RANTES, MIP-1alpha, and MIP-1beta because (i) supernatants greatly inhibited the replication of HIV-1 BaL, whereas they affected HIV-1 IIIb replication only slightly; (ii) neutralizing antibodies against the chemokines abrogated the antiviral effect of the supernatants; and (iii) the hydroxyurea concentrations shown to up-regulate chemokine levels were not sufficient to inhibit virus replication by depletion of intracellular nucleotide pools. Although antiviral properties have been reported previously for the cytostatic agents shown here to up-regulate beta-chemokine levels, our results provide an additional mechanism by which these drugs may exert antiviral activity. In summary, increased extracellular levels of anti-HIV-1 beta-chemokines resulting from transient prolongation of the G(1) phase of the lymphocyte cell cycle by treatment with cytostatic drugs may help to control the replication of CCR5-using strains of HIV-1.     

Quantification of CD4, CCR5, and CXCR4 levels on lymphocyte subsets, dendritic cells, and differentially conditioned monocyte-derived macrophages

CCR5 and CXCR4 are the major HIV-1 coreceptors for R5 and X4 HIV-1 strains, respectively, and a threshold number of CD4 and chemokine receptor molecules is required to support virus infection. Therefore, we used a quantitative fluorescence-activated cell sorting assay to determine the number of CD4, CCR5, and CXCR4 antibody-binding sites (ABS) on various T cell lines, T cell subsets, peripheral blood dendritic cells (PBDC), and monocyte-derived macrophages by using four-color fluorescence-activated cell sorting analysis on fresh whole blood. Receptor levels varied dramatically among the various subsets examined and typically varied from 2- to 5-fold between individuals. CCR5 was expressed at much higher levels in CD4+/CD45RO+/CD62L-true memory cells compared with CD4+/CD45RO+/CD62L+ cells. Fresh PBDC had the highest number of CCR5 ABS among the leukocyte subsets examined but had few CXCR4 ABS, affording a strategy for sort-purifying PBDC. In vitro maturation of PBDC resulted in median 3- and 41-fold increases in CCR5 and CXCR4 ABS, respectively. We found that macrophage colony-stimulating factor caused the greatest up-regulation of both CCR5 and CXCR4 on macrophage maturation (from approximately 5,000 to approximately 50, 000 ABS) whereas granulocyte-macrophage colony-stimulating factor caused a marked decrease of CXCR4 (from approximately 5,000 ABS to <500) while up-regulating CCR5 expression (from approximately 5,000 to approximately 20,000 ABS). Absolute ABS for CD4 and the major HIV-1 coreceptors serve as a more quantitative measure of cell surface expression, and we propose that this be used for future studies looking at the modulation of CD4 or chemokine receptor expression by cytokines, HIV-1 infection, or receptor polymorphisms.     

Dependence of CD8+ T-cell-mediated suppression of HIV type 1 on viral phenotypes and mediation of phenotype-dependent suppression by viral envelope gene and not by beta-chemokines

CD8+ T-cell-mediated HIV-1 suppressive activity has been shown against a number of strains of HIV-1 and HIV-2. In this study using a semiquantitative assay, we showed that CD8+ T cells from seropositive subjects and herpes virus saimiri transformed CD8+ T-cell clones from HIV-1-infected subjects exhibited 5 to 100-fold higher suppressive activity against slow replicating nonsyncytia-inducing strains (Slow/NSI) as compared to fast replicating syncytia-inducing strains (Fast/SI) of HIV-1. Such differential suppressive activity was not due to beta-chemokines as evidenced by the lack of blocking activity of antibodies to RANTES, MIP-1beta, and MIP-1alpha on the antiviral activities of CD8+ T cells. Moreover, there was no correlation between the level of CD8+ T-cell suppression and the level of these beta-chemokines in culture supernatant. Results from the CD8+ T-cell-mediated suppressive activity against two molecular cloned virus ME1 (Slow/NSI), ME46 (Fast/SI), and their interstrain recombinants indicate that the envelope gene carries a major genetic determinant responsible for this phenotypic-dependent differential suppressive activity.     

Better CD4+ T cell recovery in Brazilian HIV-infected individuals under HAART due to cumulative carriage of SDF-1-3'A, CCR2-V64I, CCR5-D32 and CCR5-promoter 59029A/G polymorphisms

Polymorphisms of chemokines and chemokine-receptors genes have been shown to influence the rate of progression to AIDS; however, their influence on response to HAART remains unclear. We investigated the frequency of the SDF-1-3'A, CCR2-64I, CCR5-D32 and CCR5-Promoter-59029-A/G polymorphisms in Brazilian HIV-1-infected and uninfected individuals and their influence on CD4+ T-cell evolution HIV-1 infected individuals before and during HAART. Polymorphism detection was done in a transversal study of 200 HIV-1-infected and 82 uninfected individuals. The rate of CD4+ T cell increase or decrease was studied in a cohort of 155 HIV-1 infected individuals on pre and post-HAART. Polymorphisms were determined by PCR associated with RFLP. The rate of CD4+ T-cell decline or increase was also determined. HIV-1 infected and uninfected subjects showed, respectively, frequencies of 0.193 and 0.220 for SDF-1-3'A, of 0.140 and 0.110 for CCR2-V64I, of 0.038 and 0.055 for CCR5-D32, and of 0.442 and 0.390 for CCR5-P-59029-A/G. HIV-1-infected subjects carrying one, two or three of these four polymorphisms showed better CD4+ T-cell recovery than HIV-1-infected subjects carrying the four wild-type alleles (+2.7, +1.6, +3.5, and -0.9 lymphocytes/microl/month, respectively). Regression logistic analysis showed that the CCR5-D32/CCR2-V64I association was predictor of positive CD4+ T cell slope after HAART. The distribution of polymorphisms did not differ between HIV-1-infected and uninfected individuals, but differed from more homogenous ethnic groups probably reflecting the miscegenation of the Brazilian population. We add further evidence of the role of these polymorphisms by showing that the CD4 gain was influenced by carriage of one or more of the polymorphisms studied here. These results highlight the possibility that these genetic traits can be useful to identify patients at risk for faster progression to AIDS or therapeutic failure.     

Segregation of R5 and X4 HIV-1 variants to memory T cell subsets differentially expressing CD62L in ex vivo infected human lymphoid tissue

OBJECTIVE: The mechanisms of HIV-triggered immunodeficiency were examined by determining the segregation of R5 and X4 HIV-1 variants into memory T cell subsets expressing differentially a homing receptor, CD62L-selectin, in human lymphoid tissue. METHODS: Subpopulations of CD3 and intracellular p24 gag-positive cells in human lymphoid tissue infected ex vivo with X4 HIV-1 variant NL4-3 and R5 HIV-1 variant AD8 were analysed for expression of the T cell memory markers CD45RO and CD45RA, the T cell homing receptor for lymphoid tissue CD62L, and the HIV-1 coreceptors CCR5 and CXCR4. RESULTS: Memory CD4 T cells were the predominant targets for productive infection of lymphoid tissue ex vivo with both R5 and X4 HIV-1. R5 HIV-1 predominantly infected CD62L-negative memory T cells, which selectively express CCR5. In contrast, X4 HIV-1 variants predominantly infected CD62L+ memory T cells, although CXCR4 coreceptor was equally expressed by memory T cells of both CD62L-positive and CD62L-negative subsets. A high proportion of X4 HIV-1, but not of R5 HIV-1, productively infected T cells, displayed a CD45RA+CD45RO+ phenotype. CONCLUSION: The selective expression of the CCR5 coreceptor by CD62L-negative terminally differentiated memory T cells correlates with the preferential productive infection of these cells with the R5 HIV-1 variant. The predominance of X4 HIV-1 variants in less-differentiated memory T cells may be related to their recent activation state, as suggested by the coexpression of both CD45RA and CD45RO molecules on their surface. Differential homing of CD62L-positive and CD62L-negative cells suggests different routes of dissemination of X4 and R5 viruses.