HIV-seronegative Individuals Research Articles

C1q autoantibodies in HIV infection: correlation to elevated levels of autoantibodies against 60-kDa heat-shock proteins.

Antibodies to solid phase C1q (C1qAb) were determined in 295 serum samples from 132 HIV-infected subjects and in sera from 140 HIV-seronegative healthy individuals as control. An ELISA method applied for the determination of C1qAb in other diseases was used. In part of these sera, other autoantibodies (antibodies reacting with 60-kDa human heat shock protein (hsp60) or mycobacterial hsp65; IgA and IgG class antibodies against the Fab and F(ab')2 moieties of IgG) as well as complement-mediated antibody-dependent enhancement/neutralization (C'-ADE) were also determined. Increased amount of C1qAb was found in HIV-infected subjects as compared with HIV-seronegative controls (P = 0.0138). In 17 of 132 (13.0%) seropositive individuals but only in 7/140 (5.0%) samples from the controls, the amount of C1qAb exceeded the upper limit (95th percentile) of the normal values (P = 0.031). The amount of C1qAb significantly decreased during a follow-up period of 65 months. C1qAb levels were found to strongly correlate to hsp60/65 autoantibodies but did not correlate or only weakly correlated to the amount of anti-Fab or anti-F(ab')2 autoantibodies measured in the same serum samples. Anti-C1q antibodies recognized the solid phase hsp60/65. Three predicted epitope regions of M. paratuberculosis hsp65 were able to bind efficiently C1q antibodies. An inverse correlation was found between C1qAb and C'-ADE, neutralization was more frequent in the sera with detectable C1qAb, whereas sera without C1qAb more likely enhanced HIV infection in vitro.

Classifying individuals based on predictors of random effects. Multicenter AIDS Cohort Study.

Often one wishes to describe individuals according to whether their average exposure over a period of time is above or below some meaningful threshold. In this article, we treat predictors of random effects as diagnostic tools to aid in such classification, given that the true unobservable mean exposure for each of a set of individuals is defined according to a mixed linear model. Viewing candidate predictors in this light engenders the consideration of a unique set of performance criteria, and invites the use of nomenclature commonly used by epidemiologists and decision analysts to evaluate diagnostic techniques. We describe these criteria analytically and graphically under a random effects analysis of variance model, with the expressed goal of classifying subjects with regard to their true mean. Given knowledge of the model parameters, we compare typical predictors and illustrate the fact that completely new alternatives can arise depending on the particular set of criteria emphasized. We include a brief simulation study in which we also compare prediction methods according to various classification criteria, after incorporating estimates of the unknown model parameters. We provide two examples using data from participants in the Multicenter AIDS Cohort Study. In the first example, we seek to classify HIV seronegative individuals based on their mean diastolic blood pressure. In the second, via a natural extension to a randomized regression model, we classify HIV seropositive individuals according to their CD4+ slope over time.

Relationship between immunoclinical status and prevalence of viral sexually transmitted diseases among human immunodeficiency virus-1 seropositive patients in Ghana.

In view of the strong association between the acquired immunodeficiency syndrome (AIDS) and sexually transmitted diseases (STDs), we screened 182 human immunodeficiency virus (HIV)-1 infected patients over a 15-month period for serological markers to previously encountered or current STDs, most of viral etiology. The relationship between their immunological and clinical status and the prevalence of STDs was assessed and compared with that of 88 HIV-seronegative patients. Hepatitis B virus and Treponema pallidum were the most frequently occurring pathogens in both HIV-1-infected and HIV-seronegative patients. Hepatitis C virus (HCV) infection was also observed in both groups, but no HIV-seronegative patient was infected with human T-lymphotropic virus type 1 (HTLV-1). The Centers for Disease Control clinical staging of A1 through C3, representing asymptomatic to severe AIDS conditions, was observed in HIV-1 patients with or without STDs. A mean CD4 count of 288 cells per microliter (95% CI of 237-340 cells per microliter) in HIV-1 patients was significantly lower (P < 0.05) than that in HIV-seronegative individuals with 1019 cells per microliter (95% CI of 924-1115 cells per microliter), irrespective of whether subjects in either group had previous or current STDs. The mean CD4 count of patients with a single infection from HIV-1 was not significantly different (P = 0.36) from that of HIV-1 patients with multiple infections. HIV-1 infection alone appears to be responsible for the marked immunodeficiency status of seropositive patients observed in this study.

Altered ex vivo balance between CD28+ and CD28 cells within HIV-specific CD8+ T cells of HIV-seropositive patients

The CD8+ CD28− cell population in the blood of HIV-infected individuals is considerably expanded. Yet the cause of this expansion is not clear. The recent demonstration of identical TCR-rearranged genes in CD8+ CD28+ and CD8+ CD28− expanded T cells of HIV-seropositive patients supports the hypothesis that these two subpopulations are phenotypic variants of the same lineage. To further elucidate the precise relationship between them, we measured the fraction of CD28+ and CD28− T cell subsets in IFN-γ-producing CD8+ T cells by intracellular staining and cytofluorometry as a functional test for ex vivo recognition of epitopes derived from HIV-1, Epstein-Barr virus (EBV) and influenza virus. HIV-specific CD8+ T cells were predominantly CD28− in all the eight HIV-seropositive subjects tested. In contrast, the anti-EBV and anti-influenza CD8+ T cells were mainly CD28+ in these patients as well as in HIV-seronegative individuals. This supports the notion that the CD8+ CD28− hyperlymphocytosis observed in HIV infection is due mainly to chronic activation and differentiation of HIV-specific memory CD8+ CD28+ T cells into terminally differentiated CD8+ CD28− lymphocytes, because of intense HIV-1 replication and without any important bystander activation. This clarification of the mechanisms underlying the CD8+ CD28− expansion in HIV-induced pathogenesis may have important therapeutic implications.

Altered ex vivo balance between CD28+ and CD28- cells within HIV-specific CD8+ T cells of HIV-seropositive patients.

The CD8+CD28- cell population in the blood of HIV-infected individuals is considerably expanded. Yet the cause of this expansion is not clear. The recent demonstration of identical TCR-rearranged genes in CD8+CD28+ and CD8+CD28- expanded T cells of HIV-seropositive patients supports the hypothesis that these two subpopulations are phenotypic variants of the same lineage. To further elucidate the precise relationship between them, we measured the fraction of CD28+ and CD28- T cell subsets in IFN-gamma-producing CD8+ T cells by intracellular staining and cytofluorometry as a functional test for ex vivo recognition of epitopes derived from HIV-1, Epstein-Barr virus (EBV) and influenza virus. HIV-specific CD8+ T cells were predominantly CD28 in all the eight HIV-seropositive subjects tested. In contrast, the anti-EBV and anti-influenza CD8+ T cells were mainly CD28+ in these patients as well as in HIV-seronegative individuals. This supports the notion that the CD8 CD28 hyperlymphocytosis observed in HIV infection is due mainly to chronic activation and differentiation of HIV-specific memory CD8+CD28+ T cells into terminally differentiated CD8+CD28-lymphocytes, because of intense HIV-1 replication and without any important bystander activation. This clarification of the mechanisms underlying the CD8+CD28- expansion in HIV-induced pathogenesis may have important therapeutic implications.

Simian-virus-40 footprints in human lymphoproliferative disorders of HIV- and HIV+ patients.

SV40 sequences were investigated by PCR DNA amplification followed by filter hybridization in a series of human lymphoproliferative disorders obtained from human-immunodeficiency-virus (HIV)-seronegative and HIV-infected patients. Our PCR and filter-hybridization conditions enabled us to detect SV40 sequences in the range of 10(-4) to 10(-2) genome equivalents per cell. In non-Hodgkin's lymphomas (NHL) from HIV- patients, SV40 footprints were found in 11 out of 79 (13.9%) samples, while in NHL from HIV+ patients SV40 DNA sequences were detected in 2/16 (12.5%). In Hodgkin's disease (HD), SV40 sequences were found in 7/43 (16.3%) and 1/12 (8.3%) in HIV- and HIV+ patients respectively. A slightly higher prevalence of SV40 footprints was observed in reactive lympho-adenopathies both in HIV- (3/9, 33.3%) and in HIV+ (6/17, 35.3%) patients. Sequence analysis of 2 NHL and 2 HD DNA samples established that the amplified PCR products belong to the SV40 sequences. SV40 prevalence and load were similar in samples from HIV-seronegative and HIV-infected individuals, suggesting that SV40 probably does not undergo strong reactivation phenomena in the context of HIV-related immunosuppression. Moreover, the large T-antigen(Tag) expression was detected by immunohistochemistry in 5/18 SV40-DNA-positive samples analyzed; however, few tumor cells (<1%) in 3/5 samples displayed positivity for SV40 Tag, while this viral oncoprotein was revealed in several reactive histiocytes present in all 5 SV40-positive tissues. These results suggest that the lymphoid tissue could represent a reservoir for SV40 and may constitute the first step in understanding whether this DNA tumor polyomavirus has a role in the pathogenesis of human lymphoproliferative disorders.

The impact of HIV on Streptococcus pneumoniae bacteraemia in a South African population

To determine the impact of HIV infection on Streptococcus pneumoniae bacteraemia in adults and children by analysing the prevalence and clinical features of such diseases and determining the prevalent serotypes/serogroups and susceptibility patterns of isolates. Patients were identified prospectively from January to October 1996. Chris Hani Baragwanath Hospital, Soweto, a tertiary referral hospital treating adults and children, in an urban district near Johannesburg, South Africa. All patients with S. pneumoniae isolated from blood culture by the Microbiology Department, Chris Hani Baragwanath Hospital were studied. Clinical and microbiological features were recorded. A total of 178 patients with S. pneumoniae were investigated as part of the study; 49 were aged < 13 years. HIV seroinfection was present in 25 (51%) children and 58 (45%) adults. The incidence of S. pneumoniae bacteraemia was 36.9-fold increased in HIV-seropositive children and 8.2-fold increased in HIV-seropositive adults compared with HIV-seronegative individuals. Both adult and paediatric HIV-seropositive patients with S. pneumoniae bacteraemia were significantly younger than HIV-seronegative patients. Pneumonia was a significantly more common presentation in HIV-seropositive children, otherwise the spectrum of disease and outcome were similar in HIV-seronegative and positive groups. Serotype 1 S. pneumoniae isolates were significantly less common in HIV-infected individuals (both adults and children). Resistance to penicillin was increased in S. pneumoniae isolates from HIV-infected patients (significant in adults). Patients with penicillin-resistant isolates did not have a poorer outcome. The potential coverage of serotypes/serogroups included in the proposed nine-valent conjugate pneumococcal vaccine was 88% in HIV-seronegative children and 83% in HIV-seropositive children. The potential coverage of the currently available 23-valent pneumococcal vaccine for adults was 98.2 and 100)% for HIV-infected and HIV-uninfected adults, respectively. The burden of bacteraemia due to S. pneumoniae in HIV-seropositive individuals admitted to our hospital is considerable. Differences in the S. pneumoniae serotypes/serogroups in HIV-infected patients have been demonstrated with resultant differences in antibiotic susceptibility patterns. Excellent potential for vaccine coverage was demonstrated for both HIV-seronegative and HIV-seropositive individuals. Further studies are necessary to test the clinical efficacy of pneumococcal vaccination of HIV-seropositive adults and children as a potential preventative measure against this prevalent disease.

Clinical and in situ cellular responses to Haemophilus ducreyi in the presence or absence of HIV infection

We aimed to determine if the clinical and histological features of chancroid are altered by HIV infection. Male patients presenting to the Nairobi special treatment clinic with a clinical diagnosis of chancroid were eligible for the study. A detailed history, physical examination, swabs for Haemophilus ducreyi culture and blood for HIV serology, syphilis serology and CD4 counts were obtained from all patients. Punch biopsies from an ulcer were obtained from 10 patients and either fixed in 10% formalin or snap frozen in Optimum Cutting Temperature (OCT) medium compound at -70 degrees C. Patients were treated with erythromycin and followed for 3 weeks. Chi-square and Student's t-test were used to determine if the clinical and laboratory features of chancroid differed between HIV-seropositive and seronegative individuals. Cox regression survival analysis was used to determine if HIV infection altered cure rates of chancroid at 21 days. Immunohistochemical staining was performed using lymphocytic and macrophage markers and tissue sections were analysed by 2 pathologists in a blinded manner. Between February and November 1994, 109 HIV-seropositive and 211 HIV-seronegative individuals were enrolled in the study. HIV patients had ulcers of longer duration than HIV-seronegative patients (P=0.03). Although cure rates were similar at 3 weeks, HIV patients had lower cure rates at 1 week (23% v 54%, P=0.002). A dense interstitial and perivascular inflammatory infiltrate extending from the reticular to deep dermis was present in all biopsies. This consisted of equal amounts of CD4 and CD8 T-lymphocytes as well as macrophages. The histological and immunohistochemical picture was identical for HIV-positive and negative patients. HIV infection slows the healing rates of chancroid ulcers despite appropriate antibiotic therapy. This clinical difference cannot be attributed to an altered histopathological response to HIV infection. Additional studies are needed to elucidate the mechanisms responsible for this finding.

Primary Th1 Cell Immunization Against HIVgp160 in SCID-hu Mice Coengrafted with Peripheral Blood Lymphocytes and Skin

SCID-hu mouse models are of interest in the pathologic investigation of HIV infection, but obtaining a T cell response in SCID-hu-PBL mice is still controversial. We have developed a SCID model by engrafting human skin and autologous PBLs from HIV-seronegative individuals. The study describes the ability of this human-mouse chimera to generate in vivo a primary T lymphocyte response against HIV Ag. The injection of human autologous PBLs was performed 4 to 5 wk after the skin engraftment. Two weeks after injection of PBLs, chimeric mice were immunized with recombinant canary pox virus expressing HIV-1 LAIgp160 (vCP-LAIgp160) and supplemented or not with rIL-2. Intradermal vCP-LAIgp160 injection induced an intradermal perivascular human lymphocytic infiltrate and an epidermic network of CD1a+, CD80+, and CD86+ cells. We derived CD4+ T cell lines (STLs) from the human skin graft of immunized mice, showing that STLs mediated an MHC class II-restricted cytolytic activity directed against HIV-LAIgp160 Ags. Cytokine gene expression in both human skin cells and in STLs showed a predominance of IL-2, IFN-gamma, and IL-12 transcripts. Finally, the T cell repertoire analysis using the immunoscope technique showed a very limited CDR3 length polymorphism in the skin infiltrating lymphocytes suggesting an Ag-specific repertoire. The ability to induce a primary Th1 cell response in vivo affords a useful preclinical model for testing vaccine strategies.

Serum IgE Levels in Patients with Human Immunodeficiency Virus Infection

Increased serum IgE levels are associated with advanced HIV infection. The magnitude of the increase has varied greatly between studies which generally did not assess potential confounding factors. To determine whether the increased serum IgE levels reported with HIV infection is affected by demographic or behavioral factors, we studied injection drug users, women, and minority ethnic and racial groups with HIV infection, for whom little data now exist. A prospective cross-sectional study of ambulatory patients with or at risk for HIV infection was performed. We enrolled 83 injection drug users and 56 non-drug users seropositive for HIV and 43 seronegative at-risk individuals from an Infectious Diseases clinic and a longitudinal study of HIV infection in injection drug users in the Bronx, New York City. Fifteen HIV-seronegative non-atopic controls were also studied. Total serum IgE levels were measured by a solid phase fluorescent assay and lymphocyte phenotypes were measured by monoclonal antibodies. On multiple linear regression analysis, HIV infection (P=.01) and advanced HIV disease (P < or =.01) were independently associated with increased serum IgE levels, controlling for gender, race, age, and use of injection drugs. In both HIV-seronegative and seropositive individuals, female gender was independently associated with lower IgE levels (P < or = .001). We did not find an independent effect of race or injection drug use on IgE levels. Increased serum IgE levels were associated with HIV infection, the highest levels existing in those with advanced HIV disease. Women had lower IgE levels than men, independent of HIV status. Active or past drug use, race, and age were not found to be independently associated with serum IgE levels. Further studies are necessary to elucidate the mechanisms underlying the increased serum IgE levels seen with HIV infection and its associated immunodeficiency, and to substantiate and explore the decreased levels found in women.

Heterogeneity of Macrophage and T Cell Subpopulations in Peripheral Nerves from HIV Infected Individuals

To determine the heterogeneity of surface marker expression of macrophages in peripheral nerve of patients who died with AIDS. Peripheral neuropathy occurs in 20%-40% of AIDS patients. There is evidence that activated macrophages may be involved in the neural damage associated with HIV-1 infection. We studied the expression of macrophage surface markers CD14, CD11c, CD68, and HLA-DR and also T cell surface markers CD3, CD4, and CD8 in peripheral nerves of AIDS patients. Three levels of peripheral nerves (sciatic, tibial, or sural) were examined from a limited number of subjects consisting of 4 HIV-seropositive and 5 HIV-seronegative individuals. Standard immunohistochemical technique utilized alkaline phosphatase conjugate and fuchsin substrate. Surface antigen expression was significantly (p < .0025 increased in HIV-positive tissues compared with HIV-negative controls for CD14 and CD4 in sciatic nerves, CD68 and CD4 in tibial nerves, and CD68 in sural nerves. There were trends for increased expression of HLA-DR, CD3, and CD8 in sciatic nerves, CD11c and CD14 in tibial nerves, and CD14, HLA-DR, and CD4 in sural nerves in HIV-positive tissues compared with HIV-negative controls. During the course of AIDS there may be an involvement of all three levels of peripheral nerves suggesting that HIV-related neuropathy is a multifocal process.

Rhodococcus equi infection of monocytes/macrophages from human immunodeficiency virus (HIV)-infected patients and healthy individuals: evaluation of intracellular killing and nitric oxide production

Monocytes/macrophages from human immunodeficiency virus (HIV)-infected patients had a defect in their ability to kill Rhodococcus equi in vitro, as compared with healthy HIV-seronegative individuals. Virulent and avirulent R. equi strains isolated from humans and horses showed no significant intracellular replicative differences within both HIV-positive and -negative monocytes/macrophages. Infection with R. equi induced the production of nitric oxide (NO) by monocytes/macrophages from healthy individuals, but not by cells from HIV-positive patients. The NO formation was significantly inhibited by l- N G-monomethyl arginine and arginase. However, neither competitive inhibition of NO synthesis from l-arginine with l-NMMA nor depletion of arginine with arginase altered the killing activity of human monocytes/macrophages against R. equi, thus suggesting that l-arginine:NO pathway is not required for the intracellular antirhodococcal mechanisms of human monocytes/macrophages.

Clinico-epidemiologic features of granuloma inguinale in the era of acquired immune deficiency syndrome.

Granuloma Inguinale (GI) is an endemic sexually transmitted disease (STD) in India. With increasing prevalence of human immunodeficiency virus (HIV) among patients with STD at a clinic in Mumbai, a study was conducted to determine clinico-epidemiologic features of GI and HIV. To determine possible interaction between GI and HIV. Prospective follow-up of 21 consecutive cases (GI in HIV-seropositive individuals) and 29 controls (GI in HIV-seronegative individuals) to determine time to heal. All cases and controls received a standard treatment regimen of erythromycin, 2 g po daily, under supervision until healing occurred. Although GI ulcers at recruitment were not significantly larger among HIV-seropositive individuals as compared with those seen among HIV-seronegative individuals (mean size 4.4 cm2 vs. 3.6 sq2; odds ratio [OR] 1.22, confidence interval [CI] .95, 0.63, 2.40; p = 0.52), the former took longer time to heal completely (mean 25.7 days vs. 16.8 days; OR 1.82, CI .95, 0.99, 3.36; p = 0.03) and tended to produce greater tissue destruction (as included in results). These findings are important because slow-healing GI ulcers with underlying HIV infection, which may be caused by their interaction, will lead to increased transmission of both the infections.

Association of phenotypic changes in B cell lymphocytes and plasma viral load in human immunodeficiency virus-infected patients.

Many B cell abnormalities have been reported in human immunodeficiency virus (HIV)-infected patients, including changes in the expression of mu, gamma, and CD22 molecules on the cell surface. Phenotypic changes in these markers on B cells isolated from HIV-seropositive patients with high or low levels of plasma viremia were measured. The phenotypic changes in B cells isolated from such patients were compared with the markers on B cells isolated from HIV-seronegative individuals using three-color flow cytometry. HIV patients showed a reduction in the proportion of mature B cells isolated from peripheral blood mononuclear cells compared with B cells isolated from HIV-seronegative individuals. An increase in the proportion of B cells expressing both mu and gamma molecules on the cell surface was also seen in association with high-HIV plasma viremia. A low plasma viral load was accompanied by a reduction in the proportion of B cells expressing both mu and gamma molecules to a level comparable to those seen in HIV-seronegative individuals. HIV-seropositive individuals demonstrated an increase in the proportion of committed B cells, as indicated by an increase in the proportion of B cells expressing gamma molecules. This observation may explain the poor humoral response of HIV seropositive patients to neo-antigens. Our results demonstrate that phenotypic changes indicative of in vivo B cell activation and an increase in immature cells are associated with HIV infection, particularly with a high plasma viral load. Phenotypic changes in B cell markers may correlate with functional deficits of B cells.

A synthetic peptide from the first conserved region in the envelope protein gp160 is a strong T-cell epitope in HIV-infected chimpanzees and humans.

We reported earlier that synthetic peptides corresponding to highly conserved regions in the envelope protein gp160 of the human immunodeficiency virus type 1 (HIV-1), in particular an 11-amino acid sequence (peptide 104) from the first conserved region at the amino-terminus, were capable of inducing strong HIV-specific T-cell proliferative responses in several inbred mouse strains as well as in outbred Rhesus monkeys. We have now obtained evidence of the presence of significant levels of proliferative response to peptide 104 in 7 of 9 chimpanzees chronically infected with HIV-1 (p < or = 0.05) and 8 of 17 HIV+ individuals (p < or = 0.001). Further, four other conserved HIV envelope-derived peptides, identified previously in our murine and Rhesus monkey model systems, were widely recognized as T-cell epitopes in both chimpanzees and humans infected with HIV-1. In none of the infected subjects did peripheral blood mononuclear cells show proliferative responses to unrelated control peptides. Also, neither the control normal chimpanzees nor HIV-seronegative individuals showed proliferative responses to the conserved peptides. With respect to the humoral responses, serum samples from none of the chimpanzees showed reactivity with any of the conserved peptides, and only low levels of antibody responses against peptide 104 were observed in 3 of the 17 patients (p > 0.05). Importantly, three of the conserved envelope-derived peptides, including peptide 104, overlap with sequences that were reported in the literature to be epitopes for virus-induced cytotoxic T lymphocytes in asymptomatic HIV+ individuals. These observations, together with our results in multiple animal models and humans, establish that these conserved HIV envelope-derived peptides, particularly peptide 104, are significant T-cell epitopes with potential usefulness for induction of HIV-specific cell-mediated immune responses in humans.

Apoptotic T cell death in HIV/AIDS

Apoptotic T cell death may play an important role in the progression of HIV infection to AIDS. Experimental observations suggest that T lymphocytes of HIV-infected individuals produce less type 1 cytokines (including IL-2 and IL-12) and more type 2 cytokines (including IL-10). Data have shown that type 1 cytokines reduce apoptotic death of HIV-infected lymphocytes induced in vitro by at least three different methods: gp120-CD4 cross-linking, CD3-TcR activation, and IL-2 deprivation. In contrast, type 2 cytokines have either no effect or enhance apoptotic death of lymphocytes of HIV-infected individuals. The model shown predicts that, whereas T lymphocytes of HIV-seronegative individuals are mostly in a resting situation and produce IL-2 upon antigenic stimulation, exposure of CD4 T cells to HIV or HIV products activate T cells for a second death-inducing stimulus, resulting in extensive apoptotic T cell death. These non-infectious interactions between CD4 cells and HIV or its products contribute to the depletion of CD4 T cells without the need for infection of such cells. This mechanism would result in pan-depletion of activated T cells expressing a broad spectrum of antigen specificities. The observation that type 1 cytokines are reduced, whereas type 2 cytokines are augmented in HIV infection accounts for the continuous and massive destruction of CD4 lymphocyte leading to the appearance of AIDS.

HIV-specific mucosal and cellular immunity in HIV-seronegative partners of HIV-seropositive individuals.

HIV-specific mucosal and cellular immunity was analyzed in heterosexual couples discordant for HIV status in serum and in HIV-unexposed controls. HIV-specific IgA but not IgG was present in urine and vaginal wash samples from HIV-exposed seronegative individuals (ESN), whereas both IgA and IgG were observed in their HIV-seropositive partners; antibodies were not detected in low-risk controls. Envelope protein (Env) peptide-stimulated interleukin-2 (IL-2) production by peripheral blood mononuclear cells (PBMCs) was detected in 9 out of 16 ESNs, 5 out of 16 HIV-infected patients and 1 out of 50 controls. Env peptide-stimulated PBMCs of ESNs produced more IL-2 and less IL-10 compared with those of HIV-infected individuals; no differences were observed in chemokine production or in CCR5 expression. These data demonstrate that a compartmentalized immune response to pathogens is possible in humans and raise the possibility of protective roles for cell-mediated immunity and mucosal IgA in HIV-seronegative individuals exposed to HIV.

Enhancement of natural killer and antibody-dependent cytolytic activities of the peripheral blood mononuclear cells of HIV-infected patients by recombinant IL-15.

Natural killer (NK) cells are an important subset of lymphocytes capable of killing virus-infected target cells without prior sensitization. HIV-infected individuals show impairment of their NK cell activity. Although the mechanism responsible for this defect remains unclear, NK cytotoxicity of lymphocytes from these individuals can be partially restored by interleukin (IL)-2. IL-15 is a recently discovered cytokine that shares many biologic activities with IL-2--for example, enhancement of NK activity. In this study, we investigated the effect of recombinant IL-15 (rIL-15) on the NK and antibody-dependent cellular cytotoxicity (ADCC) effector activities of peripheral blood mononuclear cells (PBMCs) from HIV-infected individuals using K562 cell line and HIV gp120-expressing cells. The effect of anti-IL-15 antibodies on NK activity was also examined using PBMCs of HIV-seronegative individuals. Our results show that NK and ADCC activities of PBMCs in HIV-seropositive patients were significantly lower than those of seronegative donors (p < or = 0.05). However, these two activities were significantly enhanced when rIL-15 was added to the assay wells (p < or = 0.05). Moreover, addition of saturating concentrations of neutralizing monoclonal antibodies (mAb) specific for IL-2, IL-12, or interferon (IFN)-gamma in the assays failed to inhibit IL-15-mediated enhancement of NK cell functions. Only the antibody against IL-15 abrogated the upregulation of NK and ADCC activities mediated by IL-15, suggesting that this cytokine enhances NK cell functions through a mechanism that is independent of the induction of other cytokines. IL-15 did not exert any modulatory effect on the expression of CD16 or CD56 molecules. Our results show that IL-15 can increase the NK and ADCC activities of the PBMCs of HIV-infected individuals in vitro. In view of its higher therapeutic index as determined using murine models, IL-15 may represent a better immunotherapeutic agent than IL-2 to restore these functions in HIV-seropositive patients.

Mannan-binding lectin serum concentrations in HIV-infected patients are influenced by the stage of disease

Serum concentrations of mannan-binding lectin (MBL) were determined in the sera of 67 HIV-seropositive patients in different stages of HIV disease and in the sera of 75 HIV-seronegative healthy individuals. In the asymptomatic (AS) HlV-infected persons MBL concentrations were found to be significantly ( P<0.05) lower than in the HIV-seronegative controls, whereas in the AIDS patients they were not. Very low (≤25 ng/ml) MBL serum concentrations were detected in 5/19 (26.3%) and 7/75 (9.3%) of the AS HIV-seropositive and HIV-seronegative individuals, respectively ( P=0.06). In the sera of the HIV-infected patients, MBL levels positively correlated to the neopterin concentrations (Spearman correlation coefficient, 0.401, P=0.0009) while they negatively correlated to the percentage (−0.447, P=0.0011) and absolute number (−0.453, P=0.0012) of the CD4 + lymphocytes. These observations indicate that MBL level, which is under strict genetic control, may influence the susceptibility to HIV infection and the progression of HIV disease.

Is there an association between periodontal condition and HIV infection?

Individuals in Tanzania who have limited access to medical and dental treatment provide an opportunity to study the natural association between periodontal condition and HIV infection and the stage of infection. 119 HIV-infected adult individuals and 73 individuals with AIDS from the AIDS Clinical Trial Clinic at Muhimbili Medical Centre (MMC) in Dar-es-Salaam participated as cases. Mean age was 35.3 and 35.1 years, respectively. 156 individuals with a mean age of 28.3 years, confirmed as HIV-seronegative, served as controls. There were no significant differences in bleeding on probing, pocket formation or attachment loss among the HIV-seronegative individuals, HIV-seropositive and AIDS patients. We applied multiple logistic regression to calculate odds ratios for presence of periodontal conditions adjusting for age, gender and DMFT. Our odds ratios did not reveal any significant associations between bleeding on probing, pocket formation or attachment loss with regard to lymphocyte and CD4+ T-cell counts among the HIV-infected individuals and AIDS patients. When associations were investigated with regard to HIV-serostatus (HIV-seronegative, HIV-seropositive or AIDS), our adjusted odds ratios were insignificant, too. In fact, most odds ratios were close to 1. Thus, our study supports recent views that the presence, extent and severity of periodontal disease among HIV-infected individuals, may be less that hitherto thought.