A. Lachgar

Lovastatin inhibits HIV-1 expression in H9 human T lymphocytes cultured in cholesterol-poor medium

The effects of the HMG-Coenzyme A reductase inhibitor lovastatin on HIV-1 expression and sterol synthesis have been investigated in the human H9 lymphocytic cell line. To this purpose, sterol synthesis from 14C-acetate, cell multiplication and reverse transcriptase activity have been measured in parallel at various times after cell infection by HIV-1. It was found that nine days after viral loading, lovastatin inhibited both sterol synthesis and viral multiplication as assessed by the reverse transcriptase activity. Since HIV infection has been shown to induce alterations in membrane cholesterol content, suggesting that the virus cycle may be partially dependent upon cellular cholesterol, inhibitors of cholesterol synthesis could be an interesting way of research in order to slower HIV propagation.

Tat toxoid as a component of a preventive vaccine in seronegative subjects

Because administration of Tat protein, the HIV-1 toxin that induces immunosuppression and apoptosis, may be deleterious to the host immune system, a chemically inactivated but nonetheless immunogenic Tat preparation, Tat toxoid, was used to immunize seronegative individuals against Tat. In an open, controlled, phase I clinical trial, Tat toxoid turned out to be safe, well tolerated, and able to trigger a specific immune reaction. In particular, a threefold to more than 10-fold increase of circulating antibodies directed against the native Tat was observed after immunization in all of 5 immunized study subjects, together with a positive reaction to delayed-type hypersensitivity (DTH) skin test with Tat toxoid in vivo and increased lymphoproliferative response to native Tat in vitro. Persistent (> or =1 year) high levels of circulating anti-Tat antibodies could prevent the Tat-induced immune suppression and, following HIV-1 exposure, allow the anti-HIV-1 cellular immune response, with its early release of protective beta-chemokines, to occur leading to an increase of host resistance, that is, protection.

Absence of clinical, virological, and immunological signs of progression in HIV-1-infected patients receiving active anti-interferon-α immunization : A 30-month follow-up report

Twenty-seven HIV-1-infected patients, 16 at early stage of disease and without concomitant antiretroviral therapy and 11 at more advanced stage of disease receiving antiretroviral therapy, have been followed since their enrollment, November 1992 and July 1993, respectively, in phase I/II studies to evaluate safety and immunogenicity of an anti-interferon-alpha (IFN-alpha) vaccine, aimed at modulating the impaired cytokine network in AIDS patients by counteracting IFN-alpha overproduction. We compared clinical, virological, and immunological markers of disease progression, including circulating IFN-alpha levels in a 24- to 30-month follow-up period with those of 62 patients fulfilling the same enrollment criteria and comparable for sex, risk factor, and age, regularly followed at our center. Anti-IFN-alpha immunization consisted of four-six intramuscular injections 1 month apart of a water-in-oil emulsion of 500 micrograms formalin-inactivated recombinant IFN-alpha-2b (iIFN-alpha) followed by intramuscular injections of 250 micrograms iIFN-alpha adsorbed onto calcium phosphate every 3 months. Neither clinical deterioration nor a CD4+ cell count decrease from pretreatment values was observed in IFN-alpha-immunized patients in the follow-up period, whereas clinical and immunological disease progressions were observed among open-comparison patients. Furthermore, statistical analysis showed a strong association between occurrence of clinical manifestations and high circulating IFN-alpha titers, while nonprogression of IFN-alpha-immunized patients was associated with decreased levels of circulating IFN-alpha.

HPV-16 E7 but not E6 oncogenic protein triggers both cellular immunosuppression and angiogenic processes

HPV-16 E6 and E7 oncoproteins impair the cell cycle in human uterine cervix carcinoma cells (HUCC) by acting on p53 and retinoblastoma proteins, respectively. We recently reported that E7 related into the extracellular compartment by HUCC SiHa cells could inhibit immune T-cell response to recall and alloantigens by a mechanism involving an overproduction of the immunosuppressive IFN alpha by antigen presenting cells (APCs). In this study, we found that besides E7, E6 protein and the vascular endothelium growth factor (VEGF) were released into the SiHa cell supernatants, and we further showed that extracellular E7 but not E6 oncoprotein 1) inhibits the immune cell response to recall and alloantigens, and 2) enhances the release of angiogenic cytokines, including TNF alpha, IL-1 beta and IL-6 by macrophages and/or dendritic cells. VEGF unexpectedly released by cancer cells could also contribute to angiogenesis. Thus in HUCC the same E7 oncoprotein which contributes to controlling the cancer cell cycle has the means in its extracellular configuration to contribute to microenvironmental immunosuppressive and angiogenic processes. Neutralizing anti-E7 antibodies either passively administered or induced by active immunization could represent a new immunotherapeutic endeavour to combat the immunosuppression and/or neoangiogenesis effects of extracellular E7 protein.

A prophylactic and therapeutic AIDS vaccine containing as a component the innocuous Tat toxoid.

Extracellular Tat can act as a viral toxin on uninfected cells of different tissues, including the CNS and the immune system, thus in order to immunize humans against Tat we have prepared a biologically inactivated but immunogenic Tat (Tat Toxoid). Tat Toxoid is not toxic in mice even at high doses. It triggers high levels of specific Tat Abs in the mouse and rabbit. Furthermore, in humans Tat Toxoid immunization was safe and induced in seronegatives persistent high levels of Tat Abs and in immunodeficient patients a significant rise of these specific Abs. Facing acute HIV-1 infection, the presence of high level of circulating Tat Abs promoted by Tat Toxoid vaccine should prevent Tat-induced immunosuppression and allow anti-HIV-1 cellular response to develop. As a consequence, early release of beta-chemokines could enhance host resistance towards HIV-1, and, in infected people, inhibit viral replication and evolution towards AIDS.

Potentialization of IL-2 effects on immune cells by oyster extract (JCOE) in normal and HIV-infected individuals

Peripheral blood mononuclear cells (PBMCs) are physiologically activated by interleukin (IL)-2. We found that oyster extract (JCOE) currently used as a functional nutrient enhanced in vitro the IL-2 dependent activation as measured by cell count. 3H-thymidine uptake and up-regulation of a IL-2 receptor. In human immunodeficiency virus (HIV) seropositive individuals, this oyster extract-induced effect was marked in asymptomatic individuals with quasi-normal CD4 cell counts, but was weakly reflected in acquired immunodeficiency syndrome (AIDS) patients.

Induction in mice of anti-Tat mucosal immunity by the intranasal and oral routes.

Anti-Tat vaccination experiments were carried out in mice with a view to inducing systemic in addition to mucosal immunity. For this, three types of immunizing preparations were tested, which consisted of Tat toxoid embedded in either an adjuvant oily structure (IMS), or nanoparticles of chitosan, or microparticles of polylactide-co-glycolide (PLG). Administered by either the intranasal or oral route all preparations triggered anti-Tat IgG and IgA antibodies. Sera from mice immunized with either of these preparations could also inhibit significantly the Tat transactivating activity. These results open up a new avenue to the development of an effective anti-AIDS protective vaccine.

Induction of cellular immunosuppression by the human papillomavirus type 16 E7 oncogenic protein

The human papillomavirus type 16 (HPV-16) E7 oncogenic protein is found in the culture supernatant of SiHa cells, a cervical carcinoma cell line. Extracellular E7 protein, acting as a viral toxin in human immune cells, induces the overproduction of the immune suppressive IFN alpha cytokine by APCs, and inhibits the T-cell response to recall and allogenic antigens. These effects should be taken into account for the design of anti-human cervical carcinoma vaccines.

Involvement of α-interferon in HIV-1 induced immunosuppression. A potential target for AIDS prophylaxis and treatment

Abstract Since the immune system is impaired in the course of HIV-infection, the purpose of any AIDS vaccine therapy should be the restoration in the patient of an adequate immunocompetence to enable him to respond to the antigenic stimulus represented by the virus. In the present investigation we have shown the anti proliferative action on activated T-cells in culture of: sera taken from HIV-infected, but not seronegative individuals; T lymphocytes taken from seronegative subjects and infected in vitro with HIV but not non infected cells; native α-IFN and the time-dependent inactivation of this activity by formaldehyde treatment of α-IFN. Thus is confirmed the major contribution provided by α-IFN to the immunosuppression occurring in the course of HIV-infection. These results also strongly support the new AIDS vaccine therapy strategy based on the administration to HIV-infected patients of inactivated, but still immunogenic α-IFN. To the a-IFN treatment could also be combined the administration of fixed autologous suppressive cells. The induction of γ-IFN in addition to α-IFN production by stimulation of cells from healthy donors with gp120 should encourage the use of a vaccine combining both inactivated α-IFN and γ-IFN. On the other hand, the IL-12 cytokine with its potential to restore compromised cell-mediated functions associated with HIV infection should also be a valuable adjuvant treatment.

IFNα kinoid vaccine in conjunction with tritherapy, a weapon to combat immunopathogenesis in AIDS

Antiviral therapy, including antiprotease treatment, suppresses viral replication, but it does not restore the HIV-1 induced immunopathogenesis which includes IFN alpha overproduction and cellular immunosuppression. To combat HIV-1 induced immunopathogenesis, anti-IFN alpha kinoid immunization in combination with tritherapy may be beneficial to HIV-1 infected immunodeficient patients.