Common sequence in HIV 1 GP41 and HLA class II beta chains can generate crossreactive autoantibodies with immunosuppressive potential early in the course of HIV 1 infection

Altered gene expression in asymptomatic SHIV-infected rhesus macaques (Macacca mulatta)

Simian-Human immunodeficiency virus is a chimeric virus which, in rhesus macaques (Macacca mulatta) closely imitates immunodeficiency virus infection in human (HIV). A relatively new way to study pathogenesis of viral infection is to study alterations in host gene expression induced by the virus. SHIV infection with certain strains does not result in clinical signs. We hypothesized that alterations in gene expression relating to the immune system would be present in SHIV-infected animals despite the lack of clinical signs. Splenic tissue from four adult male Indian-origin Rhesus monkeys serologically positive for non-pathogenic SHIV 89.6 was processed by cDNA microarray analysis. Results were compared with the corresponding outcome using splenic tissues from four unexposed adult male Rhesus monkeys. Subsequent gene analysis confirmed statistically significant variations between control and infected samples. Interestingly, SHIV-infected monkeys exhibited altered expression in genes related to apoptosis, signal transduction, T and B lymphocyte activation and importantly, to immune regulation. Although infected animals appeared asymptomatic, our study demonstrated that SHIV-infected monkeys cannot reliably be used in studies of other infectious agents as their baseline gene expression differs from that of normal Rhesus monkeys. The gene expression differences in SHIV-infected animals relative to uninfected animals offer additional clues to the pathogenesis of altered immune function in response to secondary infection.

Human and Nonhuman Primate Lentiviral Infection and Autoimmunity

The goal of this communication is to summarize the following-the types of autoimmune responses that have been characterized in human HIV-1 infection; the potential mechanisms that were initially thought to be the basis for such autoimmune responses; the prevalence and incidence of conventional autoimmune diseases with HIV-1 infection; the spectrum of autoimmune disorders following the institution of HAART and its associated mechanisms; the role of such autoimmunity in SIV-infected nonhuman primates; and the molecular basis for autoimmune responses, such as the role of exosomes in lentiviral disease.

Activated peripheral T lymphocytes undergo apoptosis when cultured with monocytes activated by HLA class II ligation

We treated PBMC with anti-MHC class II mAb known to inhibit T lymphocyte proliferation. Adherent cells from mAb-treated PBMC showed increased metabolic activity by the MTS assay that was not due to cell proliferation. PBMC cultured with solid-phase anti-class II mAb in chamber inserts inhibited, across a membrane, the proliferation of PBMC cultured with soluble anti-CD3 mAb. PBMC treated with both soluble mAb underwent apoptosis as shown by nucleosomal DNA fragmentation. The monocytes formed multinucleated giant cells as shown by fluorescent microscopy, and contained apoptotic bodies as shown by the TUNEL method and by electron microscopy. The apoptotic cells were identified as T cells by double-staining with anti-CD4/CD8-PE and annexin-V-FITC. Thus, MHC class II ligation stimulates monocytes to increase their metabolic activity, induce apoptosis of activated T lymphocytes, and phagocytize the apoptotic cells. TCR-mediated ligation of MHC class II may play a role in the downregulation of immune responses.

Retroviral antibody binding of the MHC class II molecule: a biochemical influence on CD4 T cell differentiation in HIV infection?

Retroviral antibody capable of binding to the major histocompatibility complex (MHC) Class II molecule has been documented in human immunodeficiency virus-1 (HIV-1)-infected patients. Interactions between the MHC Class II receptor and the T-cell receptor (TCR) are central to the immune response. Importantly, retroviral antibody possesses a much higher binding affinity for the MHC Class II receptor, when compared to the TCR. Experiments have manipulated a number of factors related to antigen-presenting cell (APC) interaction with differentiating T-cells. These studies have observed the effects of lowering antigen dose and reducing ligand density on precursor Th (T helper) cell differentiation. Studies have also examined the effect of downregulated MHC Class II receptors and co-stimulatory molecules on APC-Th cell interaction. In addition, the sequestration of antigens away from the Class II processing pathway has been studied. These investigations reveal a general trend that can determine whether a naive CD4 T-cell becomes a Th1 or Th2-like cell. If the experimental manipulation weakens the APC-Th cell interaction, a weak ligating TCR signal results. Consequently, a weak ligating TCR signal can influence precursor Th cells to become Th2-like cells. Retroviral antibody binding of MHC Class II receptors may mimic a number of experimental conditions responsible for creating a weak ligating TCR signal.

Evolutionary stable strategy: a test for theories of retroviral pathology which are based upon the concept of molecular mimicry

The genetic makeup of animal and plant populations is determined by established principles and concepts. Ecology and evolution provide a basic theoretical framework for understanding how genetic changes occur in populations. Whether these rules can be applied to host retroviral populations is unknown. Individuals infected with the human immunodeficiency virus (HIV) contain within their bodies a viral population. This population is known as a viral quasispecies. Located in the transmembrane protein of HIV-1 is the viral sequence Gly-Thr-Asp-Arg-Val. Previous immunological studies have shown that viral antibody is produced in response to this five-amino-acid sequence. Antibody to this viral sequence also crossreacts and binds to a related peptide sequence found on certain immune cells. This related sequence, Gly-Thr-Glu-Arg-Val, is found on immune cells bearing a structure known as the major histocompatibility complex (MHC). The viral transmembrane sequence, Gly-Thr-Asp-Arg-Val, can be substituted with alanine residues utilizing site-directed mutagenesis. This creates a viral clone devoid of the genetic similarity with the MHC. Chimpanzees progressing to AIDS contain both sequences of interest. Suppression of the chimpanzee quasispecies utilizing anti-retroviral drugs is proposed. This action serves to suppress the presence of the viruses containing the sequence Gly-Thr-Asp-Arg-Val. When viral load has been reduced significantly, a drug resistant, alanine altered clone is to be introduced in large numbers. The concept of evolutionary stable strategy predicts that a viable HIV clone with alanine residues can genetically dominate the viral population. Immune system recognition of the alanine sequence is likely to result in renewed antibody production. Antibodies to the alanine containing viral sequence should not recognize or bind to the MHC. Immunological parameters can then be measured to determine the physiological impact of eliminating a sequence responsible for molecular mimicry between virus and host.

Neutralization of HIV type 1 by alloimmune sera derived from polytransfused patients

Antibodies (Abs) against HLA and other cell surface molecules, which HIV-1 acquires during the budding process at the host cell surface, neutralize HIV-1 in vitro. Macaques were protected against infection by SIV grown in human cells after xenoimmunization with human MHC molecules. Besides the immune responses arising against xenogeneic antigens, the highly polymorphic character of the HLA antigens enables the induction of alloresponses after exposure to allogeneic HLA molecules. Since polytransfused (PT) patients develop alloresponses, including humoral anti-HLA responses, we assumed that sera derived from PT patients may neutralize HIV-1. In a model system two PT sera out of a panel of 12 PT and 6 normal control sera neutralized HIV IIIB in vitro. Neutralizing activity of the PT sera was comparable to the efficacy of anti-HIV sera. The neutralizing capacity coincided with strong IgG reactivity against (HIV-infected) cell lines, which were used for virus production, and recognition of cell-free viral particles. Active human complement enhanced HIV neutralization mediated by the sera. Our results suggest an IgG-mediated neutralization based on recognition of allogeneic HLA molecules expressed on the viral surface. A vaccination strategy based on alloimmunization appears conceivable and requires further investigation.

Can site-directed mutagenesis eliminate autoimmunity arising from molecular mimicry?

One proposed mechanism of pathogenic retroviral infection involves autoimmunity. Molecular mimicry may occur between viral and host proteins which share sequence homologies. Immune processing of antigenic peptides can result in the generation of cross-reactive antibodies capable of binding to host tissues. Thus, it appears the immune system can inadvertently initiate an attack upon the host due to genetic similarities between non-self and self. Site-directed mutagenesis is a tool of molecular biology often utilized to induce genetic changes in a microbe of interest. Since retroviral etiology may possess an autoimmune component, it seems plausible to utilize site-directed mutagenesis to genetically shape the retroviral genome. Retroviruses possess a DNA intermediate in their lifecycle, allowing the problem of retroviral infection to be addressed as a genetic disorder of the host. Detrimental autoimmune responses associated with retroviral pathology might be ameliorated by shaping the genetic source of their existence.

Clinical implications of autoantibodies in HIV infection

OBJECTIVE

To study the frequency and specificity of autoantibodies in HIV-infected subjects and their association with rheumatic manifestations, immunodeficiency, and prognosis.

DESIGN

Prospective study of sequentially selected HIV-infected patients. Indirect immunofluorescence reading was performed by two independent observers blinded for the patient diagnosis. Enzyme-linked immunosorbent assay (ELISA) was performed using coded serum samples.

SETTING

The study was performed at the Infectious Disease and Rheumatology Divisions of a tertiary care university hospital.

PATIENTS

One hundred sequentially selected HIV-infected patients formed group A. Controls included 80 non-HIV-infected high-risk individuals (group B), 20 herpesvirus-infected patients (group C), and 30 healthy blood donors (group D).

MAIN OUTCOME MEASURES

Patients were followed for 2 years and evaluated for the presence of immunodeficiency, rheumatic manifestations, circulating autoantibodies and total CD4+ cell count. Indirect immunofluorescence was used to investigate antinuclear antibodies, antibodies to native DNA, smooth muscle, parietal cell, glomeruli, thyroid, and neutrophil cytoplasm. Agglutination was used to detect antibodies to erythrocytes and rheumatoid factor. ELISA was used to determine antibodies to cardiolipin and denatured DNA. CD4+ lymphocytes were counted by flow cytometry. Immunoglobulin (Ig) G, IgM and IgA serum levels were determined by radial immunodiffusion.

RESULTS

HIV-infected patients presented higher overall frequency of autoantibodies than the other groups. No difference was observed between immunodeficient and asymptomatic HIV-infected patients. The most frequent specificities were antibodies to cardiolipin and to denatured DNA. Ig serum levels did not correlate with the occurrence of autoantibodies. The presence of autoantibodies was associated with lower CD4+ cell counts and with higher mortality within 2 years. Rheumatic manifestations were observed in 35 HIV-infected patients and were not associated with the occurrence of autoantibodies or the presence of immunodeficiency.

CONCLUSIONS

HIV infection is associated with an increased incidence of autoantibodies. Although not related to the occurrence of rheumatic manifestations, the presence of autoantibodies was significantly associated with lower CD4+ lymphocyte counts and increased mortality, which implies prognostic significance to this phenomenon in the context of HIV infection.

Autoreactivity in HIV-infected individuals does not increase during vaccination with envelope rgp160

The HIV-1 envelope protein contains several regions with amino acid homology to HLA class I and class II molecules. We evaluated possible changes in antibody responses to those regions during vaccination with rgp 160 produced in a baculovirus system. Forty asymptomatic HIV-infected patients with CD4 cell counts above 400 were vaccinated with rgp 160. Twenty-one patients were tissue-typed as HLA A2. Sixty-two percent of these patients exhibited cytotoxic lymphocyte antibodies directed to CD8+, HLA A2 cells. This cytotoxicity decreased during HIV gp160 vaccination. In order to further characterize the specificity of these responses, analogues of HLA class I and HLA-DR peptides were chemically synthesized together with their correct HIV-1 gp160 sequences. Enzyme-linked immunosorbent assays (ELISA) with sera from before, during and after immunization were performed with HIV proteins, peptides and their homologues. All patients showed an increase in their previously poor specific T-cell activation to gp160. Fourteen patients developed increased avidities or titres to HIV proteins and/or peptides. Contrarily, serum IgG titers to the HLA homologous peptides were initially low and decreased further during the course of vaccination. This decrease occurred in the majority of patients, 35-40 of the 40 individuals, depending on the antigen. Independent measures of autoantibodies to Ro/SS-A and La/SS-B remained undetectable.

Generation of human monoclonal antibodies against HIV-1 proteins; electrofusion and Epstein-Barr virus transformation for peripheral blood lymphocyte immortalization

Electrofusion and EBV transformation were studied by immortalizing human PBLs from blood of HIV-1-positive volunteers. A panel of 33 cell lines producing human monoclonal antibodies (Hu-MAbs) against HIV-1 was established by cell fusion or EBV transformation. For the first fusion experiments the source of B lymphocytes was peripheral blood of HIV-1-infected donors in CDC stages II or III with CD4 cell counts higher than 500/mm3. Later on, from these patients only, those with high anti-HIV titers were chosen as blood donors. By that means the yield of stable specific hybridomas was increased twofold. In our experiments electrofusion turned out to be a more efficient immortalization method than EBV transformation, due to a high and constant immortalization rate. The hybridomas were stable after intensive subcloning and could be cultivated over a period of 8 months without loss in monoclonal antibody production. Immunoglobulin class, subtype, reactivity against HIV-1 proteins, Western blot patterns, immunofluorescence, and epitopes were characterized. The subtype of all antibodies was IgG1 or IgG3. The light chain was predominantly kappa. All antibodies showed reactivity against HIV-1 envelope or core protein. All hybridomas were stable and suited for mass production. Several Hu-MAbs are becoming an important tool in the field of diagnosis, research, and immunotherapy.

HIV-1 gp41 shares a common immunologic determinant with human T, B and monocyte cell lines

Several examples of molecular mimicry between HIV-1 and human proteins are reported in the literature. Here we report on yet another example. The monoclonal antibody 3D6 recognized a 17-amino-acid region in HIV-1 gp41 (amino acids 602-618) and could bind to the human T-cell lines H9 and Molt4, B cell lines Raji and Bjab, and monocyte cell lines U937 and HL60. By Western blot using 3D6, a strong band of 43 kDa and a very weak band of 80 kDa were detected in lysates of H9, Molt4, Raji and Bjab cell lines, but only a strong band of 43 kDa was observed in case of U937 and HL60 cells, under reducing or non-reducing conditions. The results indicate the presence of a common immunologic determinant between HIV-1 gp41 and membrane proteins of these human T, B and monocyte cells.

HLA antigens and resistance to HIV

The role of histocompatibility antigens in HIV infection has been investigated by several approaches. Thus the haplotype A1B8DR3 that is usually linked to autoimmune disorders seems to be associated with accelerated progression to AIDS. Cross-reactivity between MHC antigens and HIV-1 proteins is evident from alloimmunization experiments in mice and xenoimmunization of monkeys with human cells. Furthermore, recent reports suggest that some individuals with uncommon HLA antigens may be resistant to HIV infection. In addition to expressing cross-reacting antigens with HLA, HIV also exhibits substantial amounts of host beta-2 microglobulin and HLA-DR attached to its surface. Taken together, these data are stimulating new hypotheses relevant for AIDS pathogenesis. Based on alloimmunization, novel approaches have also been proposed in attempts to promote an effective immune response to HIV.

Immunobiological aspects of HIV treatment

Recent information on the efficacy of anti-retroviral therapy and vaccination strategies has been disappointing as well as confusing. The recently announced Concorde study suggested that there is no advantage to early treatment of asymptomatic HIV infection with azidothymidine alone, even though the levels of CD4+ cells in the treated group were consistently higher than in the untreated group. This will lead to increasing attention being paid to the mechanisms whereby HIV causes AIDS, which have sadly been sidelined in the rush to produce classically based therapies and vaccines. Over the last year many different theories on how HIV kills CD4+ cells and leads to AIDS have been discussed and tentatively explored.