Type I interferon response and vascular alteration in chilblain-like lesions during the COVID-19 outbreak.

BACKGROUND: The outbreak of chilblain-like lesions (CLL) during the COVID-19 pandemic has been reported extensively, potentially related to SARS-CoV-2 infection, yet its underlying pathophysiology is unclear. OBJECTIVES: To study skin and blood endothelial and immune system activation in CLL in comparison with healthy controls and seasonal chilblains (SC), defined as cold-induced sporadic chilblains occurring during 2015 and 2019 with exclusion of chilblain lupus. METHODS: This observational study was conducted during 9-16 April 2020 at Saint-Louis Hospital, Paris, France. All patients referred with CLL seen during this period of the COVID-19 pandemic were included in this study. We excluded patients with a history of chilblains or chilblain lupus. Fifty patients were included. RESULTS: Histological patterns were similar and transcriptomic signatures overlapped in both the CLL and SC groups, with type I interferon polarization and a cytotoxic-natural killer gene signature. CLL were characterized by higher IgA tissue deposition and more significant transcriptomic activation of complement and angiogenesis factors compared with SC. We observed in CLL a systemic immune response associated with IgA antineutrophil cytoplasmic antibodies in 73% of patients, and elevated type I interferon blood signature in comparison with healthy controls. Finally, using blood biomarkers related to endothelial dysfunction and activation, and to angiogenesis or endothelial progenitor cell mobilization, we confirmed endothelial dysfunction in CLL. CONCLUSIONS: Our findings support an activation loop in the skin in CLL associated with endothelial alteration and immune infiltration of cytotoxic and type I IFN-polarized cells leading to clinical manifestations.

IL-10 producing regulatory B cells in mice and humans: state of the art.

IL-10-producing regulatory B cells have been undoubtedly identified in mice and shown to downregulate inflammation, making them potentially important for maintenance of tolerance. Several recent works have also identified IL-10 producing regulatory B cells in humans and have begun to unravel their phenotype and mode of suppression. Cell surface phenotype of human Bregs includes CD38, CD27, CD24 and CD5. Mechanisms of suppression may imply inhibition of CD4+ T proliferation, inhibition of Th1 differentiation, induction of regulatory T cells and suppression of monocytes activation. These recent findings imply that manipulating IL-10 production by human B cells could be a useful therapeutic strategy for modulating immune responses in humans.

Early and long-lasting protection from arthritis in tumour necrosis factor alpha (TNFalpha) transgenic mice vaccinated against TNFalpha.

OBJECTIVE: To evaluate the effect in mice with arthritis of active anti-tumour necrosis factor (TNF)alpha immunotherapy based on a keyhole limpet haemocyanin-human TNFalpha heterocomplex (hTNFalpha kinoid or TNFK) adjuvanted in incomplete Freund adjuvant. Immunotherapy was evaluated also with methotrexate. METHODS: Human TNFalpha-transgenic mice received TNFK with or without methotrexate. Follow-up ranged from 6 weeks (short term) to 17 weeks (long term). Arthritis was evaluated clinically and histologically. Monitoring included titration of anti-hTNFalpha antibodies by ELISA and neutralisation assay. RESULTS: Vaccination with TNFK was associated with rapid-onset, long-lasting protection. Long-term results showed significantly milder arthritis in vaccinated animals than in control animals at the peak of the disease. Vaccination was followed by resolution of the clinical evidence of arthritis, contrasting with severe progressive arthritis in the control group. Histological improvements with decreased inflammation and destruction were noted in all immunised groups, even after the shortest follow-up (6 weeks). High titres of neutralising anti-hTNFalpha antibodies were detected as early as the fifth week post immunisation and persisted over time. Methotrexate given concomitantly with the vaccine did not influence either the effect on arthritis or the anti-hTNFalpha antibody titres. CONCLUSION: Anti-cytokine induction of autoimmune protection against chronic hTNFalpha overproduction is an efficient alternative to TNFalpha blockade in experimental arthritis and can be achieved using a TNFK vaccine.

Important B-cell epitopes for neutralization of human immunodeficiency virus type 1 Tat in serum samples of humans and different animal species immunized with Tat protein or peptides.

The Tat regulatory protein of human immunodeficiency virus type 1 (HIV-1) is secreted by infected cells and plays a key role in viral pathogenesis and replication. Tat protein has been proposed as a target antigen for vaccine design since anti-Tat antibodies may interfere with virus spread and disease progression. The aim of this study was to analyse the serum antibody response of mice, rabbits, macaques and humans immunized with recombinant Tat, synthetic Tat, Tat toxoid or Tat peptides and to examine the biological properties of these antibodies in terms of Tat-induced transactivation and HIV-1 replication. Only sera with antibody specificity to both N-terminal and basic functional domains were able to inhibit extracellular Tat-dependent transactivation significantly in vitro. Antibodies from a human subject immunized with Tat also reduced HIV-1 replication in acutely infected T cells and blocked reactivation of virus replicating low levels in chronically infected cells by exogenous Tat. These results demonstrate that immunization with Tat protein or a combination of synthetic Tat peptides elicits the production of Tat-neutralizing serum antibodies and suggest that Tat vaccination could be used to block in vivo extracellular Tat autocrine/paracrine transactivation of HIV-1 replication.

Therapeutic vaccine to control stromal tumor-induced immunosuppression in human uterine cervixc cancer.

Cancer cells may escape immune surveillance by secreting in their microenvironment soluble factors that may locally paralyze the stromal effector immune cells. In the human uterine cervix cancer, HPV-16 E7 protein, released in the stroma, should contribute to cancer cells immune escape since this protein inhibits the cellular immune response to recall antigens or alloantigens and strongly enhances the release of immunosuppressive cytokines by APCs. This prompted us to prepare a therapeutic vaccine triggering anti-E7 neutralizing Abs to antagonize the E7-induced stromal immunosuppressive effects and allow cellular immune reaction towards cancer cells including specific CTLs, induced by conventional vaccine, to be effective. Since HPV-16 is a mucosotropic virus, this therapeutic vaccine has been prepared to generate systemic as well as mucosal immunity.

Active versus passive anti-cytokine antibody therapy against cytokine-associated chronic diseases.

Current therapeutic vaccine trials in major chronic diseases including AIDS, cancer, allergy and autoimmunity, target antigenic pathogens but not the pathogenic stromal cytokines which can be major sources of histopathologic processes. Considering that the limited efficacy of these vaccines has been ascribed to local pathogen-induced cytokine dysfunction, we propose to antagonize pathogenic cytokine(s) by high affinity neutralizing auto-Abs triggered by specific anti-cytokine vaccines. As anticipated by theoretical considerations, animal experiments and initial clinical trials showed that anti-cytokine immunization was safe, well tolerated and triggered transient high titers Abs neutralizing pathogenic cytokines but, in contrast to conventional vaccines, no relevant cellular response was observed. Advantages of active versus passive anti-cytokine Ab therapy, particularly for long-term treatments, as those required in AIDS, cancer, allergy and autoimmunity include greater ease of maintaining high Ab titers, lack of anti-antibody responses and low cost.

Selective activation of cervical microvascular endothelial cells by human papillomavirus 16-e7 oncoprotein.

BACKGROUND: Human papillomavirus type 16 (HPV16) is strongly implicated in the etiology of cervical cancer, with the expression of HPV16-encoded E7 oncoprotein in infected epithelial cells contributing to their malignant transformation. Although nuclear E7 interacts with several nuclear targets, we have previously shown that extracellular E7 can cause suppression of immune cell function. Moreover, cervical microvascular endothelial (CrMVEn) cells treated with E7 increase their expression of adhesion molecules. High levels of some cytokines in serum and in cervicovaginal secretions are associated with the progression of cervical cancer. In this study, we investigated the effects of extracellular E7 on cytokine production and on cytoskeleton structure of CrMVEn cells and vascular endothelial cells from different organs. METHODS: Immunocytochemical staining and flow cytometry techniques were used to detect E7 in endothelial cells incubated with purified E7 protein. Laser scanning confocal microscopy was used to study the E7-induced modification of the endothelial cytoskeleton. An enzyme-linked immunosorbent assay was performed to measure the production of two cytokines, interleukin 6 (IL-6) and interleukin 8 (IL-8), by E7-treated endothelial cells. All statistical tests were two-sided. RESULTS: Extracellular E7 was taken up by CrMVEn cells and localized to the cytoplasm. CrMVEn cells showed a statistically significant (P<.02) increase in the production of IL-6 and IL-8 after treatment with E7 compared with the controls. CrMVEn cells also produced higher levels of these cytokines than did the other endothelial cells (P<.01). E7 also induced marked alterations in the endothelial cytoskeleton of CrMVEn cells as a result of actin fiber polymerization. CONCLUSION: These findings suggest a novel mechanism by which E7, as an extracellular factor, can play a role in the progression and dissemination of cervical cancer via its selective effects on endothelial cells.

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.

Human papillomavirus-16-E7 oncoprotein enhances the expression of adhesion molecules in cervical endothelial cells but not in human umbilical vein endothelial cells.

OBJECTIVES: E7 is one of the oncoproteins encoded by human papillomavirus-16 (HPV-16), the major etiologic factor responsible for cervical cancer. Human papillomavirus-16-E7 expressed by human uterine cervix carcinoma cells is also released in the extracellular compartment where it induces immune suppression. We investigated whether E7 was also responsible for the enhanced endothelial adhesiveness required in cancer progression. STUDY DESIGN/METHODS: We treated cervical microvascular endothelial cells (CrMVEn) and human umbilical vein endothelial cells (HUVEC) with E7, tumor necrosis factor-alpha (TNF-alpha), and hydrogen peroxide (H2O2) and measured the expression of E-selectin, intercellular adhesion molecule-1 (ICAM-1), and vascular cell adhesion molecule-1 (VCAM-1) by fluorescent-activated cell sorter analysis. RESULTS: E7 strongly induced the expression of E-selectin, ICAM-1, and VCAM-1 in CrMVEn, but not in HUVEC. Tumor necrosis factor-alpha further increased the endothelial expression of adhesion molecules in CrMVEn. Hydrogen peroxide pre-treatment resulted in an enhanced ICAM-1 and a decreased E-selectin and VCAM-1 expression. We also show indirect effects when endothelial cells were stimulated with the supernatant of E7-pretreated macrophages. CONCLUSIONS: These results show that HPV-16-E7 oncoprotein strongly induces adhesion molecules expression in organ-specific endothelial cells.

Non-toxic immunogens for therapeutic anticytokine vaccines.

Over the last decade, the availability of purified cytokines and of cytokine antibodies (Abs) has prompted both scientists and pharmaceutical companies to develop anticytokine Ab therapy, and clinical trials have shown that anticytokine Abs are transiently effective. Active immunization may offer advantages over passive immunization in many situations. As anticipated from basic research, preclinical experiments and recent trials, such vaccines are safe and elicit high neutralizing anti-Ab titers. Repeated booster injections at 4 +/- 2 month intervals are however necessary to maintain long-term, high-affinity Ab response and efficacy. Anticytokine vaccines, alone or in combination with other therapies, represent potential treatments for chronic diseases such as AIDS, cancer, allergy and autoimmunity.

Vaccination with tat toxoid attenuates disease in simian/HIV-challenged macaques.

The Tat protein is essential for HIV type 1 (HIV-1) replication and may be an important virulence factor in vivo. We studied the role of Tat in viral pathogenesis by immunizing rhesus macaques with chemically inactivated Tat toxoid and challenging these animals by intrarectal inoculation with the simian/human immunodeficiency virus 89.6PD. Immune animals had significantly attenuated disease with lowered viral RNA, interferon-alpha, and chemokine receptor expression (CXCR4 and CCR5) on CD4(+) T cells; these features of infection have been linked to in vitro effects of Tat and respond similarly to extracellular Tat protein produced during infection. Immunization with Tat toxoid inhibits key steps in viral pathogenesis and should be included in therapeutic or preventive HIV-1 vaccines.

Procedures for preparing biologically inactive, but immunogenic HIV-1 Tat protein (Tat toxoid) for human use.

Extracellular Tat can exercise its deleterious effects on cells surrounding HIV-1-infected cells and allow spreading of virus. Extracellular Tat should be neutralized by anti-Tat vaccination using as an immunogen a functionally inactivated but immunogenic Tat preparation (Tat toxoid). In the present paper we show that native Tat can be inactivated without impairment of its immunogenicity by subjecting it to various chemical treatments. Since the carboxyamidation reaction can be easily monitored and the carboxyamidated Tat retained the whole immunogenicity of the native molecule, it should be the toxoid of choice for mass immunization.

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.

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.

Lectin production by human T-lymphocytes.

Cultured human peripheral blood monocytes (PBMC) and the cell line H9 release a lectin. This lectin is not the previously described sarcolectin, since it does not specifically recognize the sugars lactose and sialic acid. The lectinic T-cell factor reduces the release by APCs of IFN alpha--a key cytokine known to inhibit the proliferation of activated T-lymphocytes.

Anti-IFN alpha immunization raises the IFN alpha-neutralizing capacity of serum--an adjuvant to antiretroviral tritherapy.

HAART (highly active antiretroviral therapy) suppresses but does not eradicate HIV-1 infection. However, since the antiretroviral agents used in HAART may also be toxic in the long-term, immunotherapies which correct HIV-1 immunosuppression or the cytokine dysregulation associated with it may be beneficial. In this respect, a double blind multicentric placebo-controlled phase II/III anti-IFN alpha vaccine trial has been carried out on 242 HIV-1 patients, the majority of whom were undergoing HAART treatment. In vaccinated patients (vaccinees) who responded to immunization by increased levels of IFN alpha Abs (whether under HAART or not) when compared to placebo or non-responder vaccinees, a strong correlation was found between an increased IFN alpha neutralizing capacity and the reduction of clinical manifestations.

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.

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.