R5 HIV productively infects Langerhans cells, and infection levels are regulated by compound CCR5 polymorphisms

Langerhans cells (LCs) are suspected to be initial targets for HIV after sexual exposure (by becoming infected or by capturing virus). Here, productive R5 HIV infection of LC ex vivo and LC-mediated transmission of virus to CD4+ T cells were both found to depend on CCR5. By contrast, infection of monocyte-derived dendritic cells and transfer of infection from monocyte-derived dendritic cells to CD4+ T cells were mediated by CCR5-dependent as well as DC-specific ICAM-3-grabbing nonintegrin-dependent pathways. Furthermore, in 62 healthy individuals, R5 HIV infection levels in LCs ex vivo were associated with CCR5 genotype. Specifically, genotyping for ORF Delta 32 revealed that LCs isolated from ORF Delta 32/wt individuals were significantly less susceptible to HIV when compared with LCs isolated from ORFwt/wt individuals (P = 0.016). Strikingly, further genetic analyses of the A-2459G CCR5 promoter polymorphism in ORF Delta 32/wt heterozygous individuals revealed that LCs isolated from -2459A/G + ORF Delta 32/wt individuals were markedly less susceptible to HIV than were LCs from -2459A/A + ORF Delta 32/wt individuals (P = 0.012). Interestingly, these genetic susceptibility data in LCs parallel those of genetic susceptibility studies performed in cohorts of HIV-infected individuals. Thus, we suggest that CCR5-mediated infection of LCs, and not capture of virus by LCs, provides a biologic basis for understanding certain aspects of host genetic susceptibility to initial HIV infection.

Recent progress in discovery of small-molecule CCR5 chemokine receptor ligands as HIV-1 inhibitors

This review addresses key pharmacology and virology issues relevant in discovery and development of CCR5 antagonists as anti-HIV drugs, such as target validation, receptor internalization, allosterism, viral resistance and tropism. Recent progress in the discovery and development of CCR5 antagonists, SAR and clinical status are reviewed. Finally, modeling-based structure of CCR5 is discussed in the context of a small-molecule antagonism of the CCR5 receptor.

Broad spectrum of coreceptor usage and rapid disease progression in HIV-1-infected individuals from Central African Republic

To study the progression of HIV-1 infection and coreceptor usages in Central African Republic, clinical data, plasma viral load, and coreceptor usage of sequential HIV-1 isolates were analyzed in a seroincident prospective cohort (PRIMOCA). Twenty-three HIV-1 infected individuals from the Central African Armed Forces were followed from 1995 to 2000. Viruses were isolated from 17 patients at various time points after seroconversion and their coreceptor usage was examined using GHOST cells expressing CD4 and one of the HIV-1 chemokine coreceptors CCR5, CXCR4, BOB/GPR15, and Bonzo/STRL33/CXCR6. Eleven patients died from AIDS. Eight of them died between 2 and 5 years after seroconversion, after a brief symptomatic stage. Patients who rapidly progressed to AIDS and death displayed the highest viral loads after seroconversion. All isolates obtained soon after seroconversion used CCR5, albeit, in some cases, CXCR4, BOB, or Bonzo were also used. Most isolates remained R5 (59 out of 61 isolates), although viruses using CXCR4 appeared in some cases of progression to AIDS. In several cases, a broad tropism was observed during the course of infection, with a frequent usage of BOB and Bonzo in addition to CCR5. Rapid progression to disease and short survival time among Central African HIV-1 patients appear more frequent than those reported in industrialized countries. Viral coreceptor used was mainly CCR5, but, interestingly, a large part of isolates also used BOB and Bonzo. However, there was no strict correlation between the clinical outcome and extended viral tropism.

The chemokine receptor CCR5 is not a necessary inflammatory mediator in kainic acid-induced hippocampal injury: evidence for a compensatory effect by increased CCR2 and CCR3

Chemokines and their receptors have been strongly implicated in the inflammatory process. However, their roles in excitotoxic brain injury are largely unknown. In this study we used C-C chemokine receptor 5 (CCR5) knockout (KO) mice to investigate the role of CCR5 in neurodegeneration induced by intranasal administration of the excitotoxin kainic acid (KA). Although KA treatment resulted in an increased CCR5 mRNA level in the hippocampi of wild-type mice, a CCR5 deficiency in KO mice did not affect either the clinical and pathological changes in vivo or the neuronal susceptibilities to KA insult in vitro. KA treatment stimulated mRNA expression of the monocyte chemoattractant protein-2 (MCP-2) in both the wild-type and KO mice. KA treatment did not affect mRNA levels for the macrophage inflammatory protein-1alpha (MIP-1alpha) or the regulated upon activation normal T cells expressed and secreted protein (RANTES) in either wild-type or CCR5 KO mice. CCR2 mRNA expression was undetectable in the hippocampi of wild-type mice regardless of KA treatment. In contrast, CCR5 KO mice showed CCR2 mRNA expression that was remarkably increased after KA treatment. KA treatment did not affect CCR3 mRNA expression in the wild-type mice, whereas KO mice showed both a higher basal level of CCR3 mRNA expression as well as a strong upregulation following KA treatment. These results indicate that CCR5 is not a necessary inflammatory mediator in KA induced neurodegeneration. The roles of CCR5 in excitotoxic injury in CCR5 deficient mice are compensated by increased CCR2 and CCR3 expression, which share the common MCP-2 ligand with CCR5.

CCR5 deficiency decreases susceptibility to experimental cerebral malaria

Infection of susceptible mouse strains with Plasmodium berghei ANKA (PbA) is a valuable experimental model of cerebral malaria (CM). Two major pathologic features of CM are the intravascular sequestration of infected erythrocytes and leukocytes inside brain microvessels. We have recently shown that only the CD8+ T-cell subset of these brain-sequestered leukocytes is critical for progression to CM. Chemokine receptor-5 (CCR5) is an important regulator of leukocyte trafficking in the brain in response to fungal and viral infection. Therefore, we investigated whether CCR5 plays a role in the pathogenesis of experimental CM. Approximately 70% to 85% of wild-type and CCR5+/- mice infected with PbA developed CM, whereas only about 20% of PbA-infected CCR5-deficient mice exhibited the characteristic neurologic signs of CM. The brains of wild-type mice with CM showed significant increases in CCR5+ leukocytes, particularly CCR5+ CD8+ T cells, as well as increases in T-helper 1 (Th1) cytokine production. The few PbA-infected CCR5-deficient mice that developed CM exhibited a similar increase in CD8+ T cells. Significant leukocyte accumulation in the brain and Th1 cytokine production did not occur in PbA-infected CCR5-deficient mice that did not develop CM. Moreover, experiments using bone marrow (BM)-chimeric mice showed that a reduced but significant proportion of deficient mice grafted with CCR5+ BM develop CM, indicating that CCR5 expression on a radiation-resistant brain cell population is necessary for CM to occur. Taken together, these results suggest that CCR5 is an important factor in the development of experimental CM.

CC chemokine ligand 5/RANTES chemokine antagonists aggravate glomerulonephritis despite reduction of glomerular leukocyte infiltration

The chemokine CC chemokine ligand (CCL)5/RANTES as well as its respective receptor CCR5 mediate leukocyte infiltration during inflammation and are up-regulated early during the course of glomerulonephritis (GN). We tested the effects of the two CCL5/RANTES blocking analogs, Met-RANTES and amino-oxypentane-RANTES, on the course of horse apoferritin (HAF)-induced GN. HAF-injected control mice had proliferative GN with mesangial immune complex deposits of IgG and HAF. Daily i.p. injections of Met-RANTES or amino-oxypentane-RANTES markedly reduced glomerular cell proliferation and glomerular macrophage infiltration, which is usually associated with less glomerular injury and proteinuria in HAF-GN. Surprisingly, however, HAF-GN mice treated with both analogs showed worse disease with mesangiolysis, capillary obstruction, and nephrotic range albuminuria. These findings were associated with an enhancing effect of the CCL5/RANTES analogs on the macrophage activation state, characterized by a distinct morphology and increased inducible NO synthetase expression in vitro and in vivo, but a reduced uptake of apoptotic cells in vivo. The humoral response and the Th1/Th2 balance in HAF-GN and mesangial cell proliferation in vitro were not affected by the CCL5/RANTES analogs. We conclude that, despite blocking local leukocyte recruitment, chemokine analogs can aggravate some specific disease models, most likely due to interactions with systemic immune reactions, including the removal of apoptotic cells and inducible NO synthetase expression.

Human microglial cell isolation from adult autopsy brain: brain pH, regional variation, and infection with human immunodeficiency virus type 1

Microglia are the main source of productive infection by human immunodeficiency virus type 1 (HIV-1) in the central nervous system (CNS). Infection of microglia is difficult to study because nonhuman microglia are not infected by HIV-1, adult human microglia from surgically removed brain tissues are scarce, and fetal human microglial cells differ from adult cells in potentially important ways. Adult autopsies are a potential source of brain tissue for HIV-1 research, but the technique of isolating and infecting cells postmortem is not completely standardized. The authors determined optimal conditions for isolating and infecting adult microglial cells using 18 adult autopsy brain specimens from HIV-1-infected and noninfected decedents. The yield of mixed glial cells overall was on average 0.5 x 10(6) cells per gram of wet tissue. There was no correlation between the number of microglia isolated and the postmortem interval (PMI), HIV seropositivity, age, or gender. Brain pH accounted for about 41% of yield variability; a pH of less than 6.0 generally was not compatible with adequate cell recovery. The highest microglial cell yields were derived from anterior brain sectors (frontal lobe and temporal lobe) versus occipital lobe and cerebellum. A PMI of up to 25.5 h produced excellent cell yields in frontal lobe samples with high brain pH. HIV-1 infection of frontal lobe microglia was 100% successful using both CXCR4- and CCR5-tropic strains of HIV-1. With proper selection of cases and brain region, autopsy brain specimens are a dependable source of viable microglial cells to study CNS HIV-1 infection.

Chemokine receptor CCR2 is not essential for the development of experimental cerebral malaria

Infection with Plasmodium berghei ANKA induces cerebral malaria in susceptible mice. Brain-sequestered CD8(+) T cells are responsible for this pathology. We have evaluated the role of CCR2, a chemokine receptor expressed on CD8(+) T cells. Infected CCR2-deficient mice were as susceptible to cerebral malaria as wild-type mice were, and CD8(+) T-cell migration to the brain was not abolished.

Innate and adaptive mucosal immunity in protection against HIV infection

Control of the HIV pandemic requires an effective vaccine. The difficulties in developing a preventive vaccine are generally believed to be due to the rapid rate of mutation of HIV that escapes cytotoxic lymphocytes (CTL) and the problems in induction of neutralising antibodies to wild strains of HIV. These difficulties should re-orientate vaccine strategy into four somewhat neglected areas of immunisation. Innate immunity, with its rapid protective response to infection that is independent of memory and relies on an optimal mucosal adjuvant. Targeting the genital and rectal mucosa, with the associated lymph nodes, as an immune response has to be elicited directly on encountering HIV during sexual intercourse. Stimulating a broadly based adaptive immune response that enhances the memory CD4(+) and CD8(+) T cells and B cells, induces maturation of dendritic cells and results in Th1 polarised immunity. Taking advantage of "experiments of nature", by utilising host antigens, as manifested by protection against HIV infection in homozygous Delta32 CCR5 individuals and in allo-immunity.

Interleukin-8-mediated heterologous receptor internalization provides resistance to HIV-1 infectivity. Role of signal strength and receptor desensitization

Human immunodeficiency virus type 1 (HIV-1) entry into CD4(+) cells requires the chemokine receptors CCR5 or CXCR4 as co-fusion receptors. We have previously demonstrated that chemokine receptors are capable of cross-regulating the functions of each other and, thus, affecting cellular responsiveness at the site of infection. To investigate the effects of chemokine receptor cross-regulation in HIV-1 infection, monocytes and MAGIC5 and rat basophilic leukemia (RBL-2H3) cell lines co-expressing the interleukin-8 (IL-8 or CXCL8) receptor CXCR1 and either CCR5 (ACCR5) or CXCR4 (ACXCR4) were generated. IL-8 activation of CXCR1, but not the IL-8 receptor CXCR2, cross-phosphorylated CCR5 and CXCR4 and cross-desensitized their responsiveness to RANTES (regulated on activation normal T cell expressed and secreted) (CCL5) and stromal derived factor (SDF-1 or CXCL12), respectively. CXCR1 activation internalized CCR5 but not CXCR4 despite cross-phosphorylation of both. IL-8 pretreatment also inhibited CCR5- but not CXCR4-mediated virus entry into MAGIC5 cells. A tail-deleted mutant of CXCR1, DeltaCXCR1, produced greater signals upon activation (Ca(2+) mobilization and phosphoinositide hydrolysis) and cross-internalized CXCR4, inhibiting HIV-1 entry. The protein kinase C inhibitor staurosporine prevented phosphorylation and internalization of the receptors by CXCR1 activation. Taken together, these results indicate that chemokine receptor-mediated HIV-1 cell infection is blocked by receptor internalization but not desensitization alone. Thus, activation of chemokine receptors unrelated to CCR5 and CXCR4 may play a cross-regulatory role in the infection and propagation of HIV-1. Since DeltaCXCR1, but not CXCR1, cross-internalized and cross-inhibited HIV-1 infection to CXCR4, the data indicate the importance of the signal strength of a receptor and, as a consequence, protein kinase C activation in the suppression of HIV-1 infection by cross-receptor-mediated internalization.

Real-time PCR assay of individual human immunodeficiency virus type 1 variants in coinfected human lymphoid tissues

In the course of infection, human immunodeficiency virus type 1 (HIV-1) mutates, diverging into a "swarm" of viral quasispecies, and the predominance of CCR5- or CXCR4-utilizing quasispecies is strongly associated with the pattern of disease progression. Quantification of CCR5- and CXCR4-utilizing viruses in viral swarms is important in the investigation of the mechanisms of this phenomenon. Here, we report on a new real-time PCR-based methodology for the evaluation of replication of individual CCR5- and CXCR4-utilizing variants. The assay is highly reproducible, with a coefficient of variation of <3%, and it accurately estimates the numbers of virus-specific RNA copies even when their difference in the mixture is 2 orders of magnitude. We demonstrate that replications of CCR5- and CXCR4-utilizing variants can be evaluated and distinguished in experimentally coinfected human lymphoid tissue. The assay we developed may facilitate study of the mechanisms of the R5-to-X4 switch in viral swarms in human tissues infected with HIV-1.

[Role of chemokines in the HIV infection process]

In order to infect a target cell, the HIV envelope glycoprotein gp 120 has to interact with both the cellular receptor CD4 and an HIV-coreceptor, i.e. the CC or CXC chemokine receptor CCR5 or CXCR4. Both coreceptors were immediately recognized as novel targets for anti-HIV-therapy. Blocking these coreceptors would protect the cell from viral entry and would reduce the viral transmission and pathogenesis. Here we describe the purification and characterization of natural chemokine variants and compare their antiviral activity. In addition, the role of proteases for the processing of the CC chemokines RANTES, eotaxin, MDC and MIP-1 alpha and of the CXC chemokine SDF-1 are studied. The MIP-1 alpha-isoform LD78 beta, that was purified form natural sources, inhibited HIV-infection completely in CCR5-transfected cells, mononuclear leukocytes and purified monocytes at low (ng/ml) concentrations. This research will make it feasible to develop specific chemokine-analogs that block HIV-entry. Deciphering the processes that play a role during the complicated interactions between HIV-gp120 and the cellular membrane may lead to a more efficient treatment of HIV-infections.

Host absence of CCR5 potentiates dendritic cell vaccination

Previous work has shown that dendritic cells (DCs) express specific chemokine receptors that allow for coordinated movement in vivo. To test the in vivo relevance of this, we used a murine melanoma system and knockout mice to investigate the function of the chemokine receptor CCR5 and its ligands, CCR ligand (CCL)3 and CCL5. We found that the lack of CCR5 in the host mouse resulted in delayed tumor growth, but this effect was overcome at a higher tumor load. With the administration of tumor charged DCs, CCR5(-/-) mice that had previously been injected with tumor were completely protected from tumor. This effect was dependent on the dose of tumor cells and the expression of CCR5 on the DC and its absence in the host. In contrast, the loss of the CCR5 ligand, CCL3, led to an early delay in tumor growth that did not persist, while the absence of the CCR5 ligand, CCL5, had no effect. Blocking the activity of CCR5 in the host may represent a new strategy for enhancing the activity of a therapeutic melanoma DC vaccine.

The CCR5 and CXCR4 coreceptors are both used by human immunodeficiency virus type 1 primary isolates from subtype C

Human immunodeficiency virus type 1 (HIV-1) subtype C viruses with different coreceptor usage profiles were isolated from 29 South African patients with advanced AIDS. All 24 R5 isolates were inhibited by the CCR5-specific agents, PRO 140 and RANTES, while the two X4 viruses and the three R5X4 viruses were sensitive to the CXCR4-specific inhibitor, AMD3100. The five X4 or R5X4 viruses were all able to replicate in peripheral blood mononuclear cells that did not express CCR5. When tested using coreceptor-transfected cell lines, one R5 virus was also able to use CXCR6, and another R5X4 virus could use CCR3, BOB/GPR15, and CXCR6. The R5X4 and X4 viruses contained more-diverse V3 loop sequences, with a higher overall positive charge, than the R5 viruses. Hence, some HIV-1 subtype C viruses are able to use CCR5, CXCR4, or both CXCR4 and CCR5 for entry, and they are sensitive to specific inhibitors of entry via these coreceptors. These observations are relevant to understanding the rapid spread of HIV-1 subtype C in the developing world and to the design of intervention and treatment strategies.

Evidence for CD4-enchanced signaling through the chemokine receptor CCR5

The chemokine receptor CCR5 is constitutively associated with the T cell co-receptor CD4 in plasma cell membranes, but the physiological role of this interaction has not been elucidated. Here we show that detergent-solubilized, purified CCR5 can directly associate with purified soluble fragments of the extracellular portion of CD4. We further demonstrate that the physical association of CCR5 and CD4 in membrane vesicles results in the formation of a receptor complex that exhibits macrophage inflammatory protein 1beta (MIP-1beta) binding properties that are distinct from CCR5. The affinity of the CD4-CCR5 complex for MIP-1beta was 3.5-fold lower than for CCR5, but the interaction of CD4 and CCR5 resulted in a receptor complex that exhibited enhanced G-protein signaling as compared with CCR5 alone. MIP-1beta-induced G-protein activation was further increased by simultaneous stimulation of CD4 with its natural agonist, interleukin-16. Thus, the physical association of CD4 and CCR5 results in receptor cross-talk with allosteric CD4-dependent regulation of the binding and signaling properties of CCR5. Although the precise physiological role of the CD4 effects on CCR5-mediated signaling remains unknown, one can speculate that the cross-talk is a component of mechanisms involved in the fine tuning of immune system cell responses.

Entry inhibitors SCH-C, RANTES, and T-20 block HIV type 1 replication in multiple cell types

The small-molecule CCR5 antagonist SCH-C (SCH 351125) was tested for its ability to inhibit HIV-1 replication in peripheral blood mononuclear cells (PBMCs), cord blood mononuclear cells, immature dendritic cells (DCs), and macrophages. Inhibition of infection of PBMCs by virus associated with mature DC in trans was also studied. For comparison, the peptide-based fusion inhibitor T-20 and the CC-chemokine RANTES were also evaluated. Although some cell type-dependent differences in potency were observed, each of the three entry inhibitors was active against the replication of three different CCR5-using primary isolates in each cell type. CCR5-dependent HIV-1 infectivity, whether DC associated or not, is thus vulnerable to inhibitors that block the virus-cell fusion process by different mechanisms. Together, these results suggest that SCH-C and other entry inhibitors should be evaluated for their clinical potential as inhibitors of HIV-1 replication in several settings, including the prevention of maternal-infant transmission and the prevention of sexual transmission by topical application as a microbicide.

The unique target specificity of a nonpeptide chemokine receptor antagonist: selective blockade of two Th1 chemokine receptors CCR5 and CXCR3

CC chemokine receptor (CCR) 5 and CXC chemokine receptor (CXCR)3 are expressed on T helper cell type 1 cells and have been implicated in their migration to sites of inflammation. Our preceding study demonstrated that a nonpeptide synthetic CCR5 antagonist, TAK-779 (N, N-dimethyl-N-[4-[[[2-(4-methylphenyl)-6, 7-dihydro-5H-benzocyclohepten-8-yl]carbon-yl]amino]benzyl]-tetrahydro-2H-pyran4-aminium chloride, inhibits the development of experimentally induced arthritis by modulating the migration of CCR5(+)/CXCR3(+) T cells to joints. The present study investigated the functional properties of TAK-779, including the effect of this antagonist on CXCR3 function. For this purpose, transfectants expressing mouse CCR5 (mCCR5) or mCXCR3 and expressing mCCR4 or mCXCR4 as controls were established by introducing each relevant gene into 2B4 T cells and were subjected to the following assays. First, the ligand binding to chemokine receptors was assayed by incubating transfectants with [(125)I]-labeled relevant ligand or with the unlabeled relevant ligand followed by staining with anti-ligand antibody. Second, chemokine-induced lymphocyte function-associated antigen-1 (LFA-1) activation was assayed by measuring the adhesion of cells to microculture plates coated with purified intercellular adhesion molecule-1. Third, chemokine-stimulated chemotaxis was assayed by observing the cell migration through transwells. In these assays, TAK-779 blocked the ligand binding as well as LFA-1 up-regulating and chemotactic function of mCXCR3 and mCCR5 but did not elicit a biologically significant inhibition of those functions of mCCR4 and mCXCR4. These observations indicate the unique target specificity of TAK-779 and explain why this antagonist efficiently blocks the migration of T cells expressing CCR5 and CXCR3 to sites of inflammation.

Sustained inhibition of corneal neovascularization by genetic ablation of CCR5

PURPOSE

To determine whether genetic ablation of the CC chemokine receptor CCR5 (involved in leukocyte and endothelial chemotaxis) inhibits the development of corneal neovascularization.

METHODS

Wild-type C57BL/6J mice and species-specific counterparts with targeted homozygous disruption of the CCR5 gene underwent chemical and mechanical denudation of corneal and limbal epithelium. Corneas were harvested 2 and 4 weeks after injury. Neovascularization was quantified by CD31 immunostaining. Expression of VEGF protein was quantified by ELISA.

RESULTS

The mean percentages of neovascularized corneal area in control mice and CCR5-deficient mice 2 weeks after denudation were 58.3% and 38.5% (P = 0.05), respectively. At 4 weeks after denudation, the corresponding percentages were 67.6% and 44.0% (P = 0.028). In CCR5-deficient mice, VEGF protein levels were reduced 51.1% at 2 weeks (P = 0.05) after injury and 37.3% at 4 weeks (P = 0.03).

CONCLUSIONS

CCR5-deficient mice showed a persistent 34% to 35% inhibition of corneal neovascularization for up to 4 weeks. This inhibition correlates with reduced expression of VEGF. These data implicate CCR5 as one essential component in the development of corneal neovascularization.

In the belly of the beast: subversion of macrophage proinflammatory signalling cascades during Toxoplasma gondii infection

Macrophages (MØ) are used as the intracellular niche by several bacterial and protozoan microorganisms. Such microbial pathogens adopt diverse strategies to avoid MØ microbicidal effects. Recent insights into the Toxoplasma gondii-MØ interaction reveal novel ways that intracellular parasites subvert MØ function. In contrast to some microbial pathogens, Toxoplasma infection is not silent but induces rapid activation of transcription factors such as STAT-1 and NFkappaB. However, the parasite blocks nuclear translocation of both factors, and MØ cannot produce IL-12 or TNF-alpha when subsequently triggered with lipopolysaccharide. The nuclear import blockade is lifted 24 h after infection, but cells remain actively suppressed in TNF-alpha production. Nevertheless, IL-12 synthesis is initiated at this later time point. Toxoplasma gondii-induced production of this cytokine occurs through both MyD88- and CCR5-dependent pathways. The balance of cytokine subversion and stimulation during infection probably results from the parasite's need to simultaneously avoid immune elimination and trigger immunity to prevent host death.

Increased mucosal transmission but not enhanced pathogenicity of the CCR5-tropic, simian AIDS-inducing simian/human immunodeficiency virus SHIV(SF162P3) maps to envelope gp120

Through rapid serial transfer in vivo, the chimeric CCR5-tropic simian/human immunodeficiency virus SHIV(SF162) evolved from a virus that is nonpathogenic and poorly transmissible across the vaginal mucosa to a variant that still maintains CCR5 usage but which is now pathogenic and establishes intravaginal infection efficiently. To determine whether envelope glycoprotein gp120 is responsible for increased pathogenesis and transmissibility of the variant SHIV(SF162P3), we cloned and sequenced the dominant envelope gene (encoding P3 gp120) and characterized its functions in vitro. Chimeric SHIV(SF162) virus expressing P3 gp120 of the pathogenic variant, designated SHIV(SF162PC), was also constructed and assessed for its pathogenicity and mucosal transmissibility in vivo. We found that, compared to wild-type SHIV(SF162) gp120, P3 gp120 conferred in vitro neutralization resistance and increased entry efficiency of the virus but was compromised in its fusion-inducing capacity. In vivo, SHIV(SF162PC) infected two of two and two of three rhesus macaques by the intravenous and intravaginal routes, respectively. Nevertheless, although peak viremia reached 10(6) to 10(7) RNA copies per ml of plasma in some infected animals and was associated with depletion of gut-associated CD4(+) lymphocytes, none of the animals maintained a viral set point that would be predictive of progression to disease. Together, the data from this study suggest a lack of correlation between entry efficiency and cytopathic properties of envelope glycoproteins with viral pathogenicity. Furthermore, whereas env gp120 contains the determinant for enhanced mucosal transmissibility of SHIV(SF162P3), the determinant(s) of its increased virulence may require additional sequence changes in env gp41 and/or maps to other viral genes.

Comparing the ex vivo fitness of CCR5-tropic human immunodeficiency virus type 1 isolates of subtypes B and C

Continual human immunodeficiency virus type 1 (HIV-1) evolution and expansion within the human population have led to unequal distribution of HIV-1 group M subtypes. In particular, recent outgrowth of subtype C in southern Africa, India, and China has fueled speculation that subtype C isolates may be more fit in vivo. In this study, nine subtype B and six subtype C HIV-1 isolates were added to peripheral blood mononuclear cell cultures for a complete pairwise competition experiment. All subtype C HIV-1 isolates were less fit than subtype B isolates (P < 0.0001), but intrasubtype variations in HIV-1 fitness were not significant. Increased fitness of subtype B over subtype C was also observed in primary CD4(+) T cells and macrophages from different human donors but not in skin-derived human Langerhans cells. Detailed analysis of the retroviral life cycle during several B and C virus competitions indicated that the efficiency of host cell entry may have a significant impact on relative fitness. Furthermore, phyletic analyses of fitness differences suggested that, for a recombined subtype B/C HIV-1 isolate, higher fitness mapped to the subtype B env gene rather than the subtype C gag and pol genes. These results suggest that subtype B and C HIV-1 may be transmitted with equal efficiency (Langerhans cell data) but that subtype C isolates may be less fit following initial infection (T-cell and macrophage data) and may lead to slower disease progression.

Functional expression of chemokine receptor CCR5 on CD4(+) T cells during virus-induced central nervous system disease

Intracranial infection of C57BL/6 mice with mouse hepatitis virus (MHV) results in an acute encephalomyelitis followed by a demyelinating disease similar in pathology to the human disease multiple sclerosis (MS). CD4(+) T cells are important in amplifying demyelination by attracting macrophages into the central nervous system (CNS) following viral infection; however, the mechanisms governing the entry of these cells into the CNS are poorly understood. The role of chemokine receptor CCR5 in trafficking of virus-specific CD4(+) T cells into the CNS of MHV-infected mice was investigated. CD4(+) T cells from immunized CCR5(+/+) and CCR5(-/-) mice were expanded in the presence of the immunodominant epitope present in the MHV transmembrane (M) protein encompassing amino acids 133 to 147 (M133-147). Adoptive transfer of CCR5(+/+)-derived CD4(+) T cells to MHV-infected RAG1(-/-) mice resulted in CD4(+)-T-cell entry into the CNS and clearance of virus from the brain. These mice also displayed robust demyelination correlating with macrophage accumulation within the CNS. Conversely, CD4(+) T cells from CCR5(-/-) mice displayed an impaired ability to traffic into the CNS of MHV-infected RAG1(-/-) recipients, which correlated with increased viral titers, diminished macrophage accumulation, and limited demyelination. Analysis of chemokine receptor mRNA expression by M133-147-expanded CCR5(-/-)-derived CD4(+) T cells revealed reduced expression of CCR1, CCR2, and CXCR3, indicating that CCR5 signaling is important in increased expression of these receptors, which aid in trafficking of CD4(+) T cells into the CNS. Collectively these results demonstrate that CCR5 signaling is important to migration of CD4(+) T cells to the CNS following MHV infection.

Further support for the association of CCR5 allelic variants with asthma susceptibility

English and German nuclear families containing multiple asthmatic children and asthmatic parents were analysed to retest a recently reported association between resistance to asthma and the delta32 allele of chemokine receptor 5 (CCR5). Analysis of the families by the transmission-disequilibrium test (TDT) revealed a non-significant trend in the English families that provided marginal confirmation of the association (P < 0.125), but no similar trend was observed in the German families. Case-control comparison of delta32 allele and genotype frequencies in asthmatic vs. non-asthmatic parents revealed a significantly lower frequency of delta32 in asthmatic English parents (P < 0.009) and a similar but non-significant trend in German parents (P < 0.265). Taken together, the pattern of results provides confirmation for the previously observed delta32-asthma association and indicates that susceptibility to asthma may be influenced by CCR5 or another gene in chromosomal region 3p21.