Biogenesis of P-TEFb in CD4+ T cells to reverse HIV latency is mediated by protein kinase C (PKC)-independent signaling pathways.

The switch between HIV latency and productive transcription is regulated by an auto-feedback mechanism initiated by the viral trans-activator Tat, which functions to recruit the host transcription elongation factor P-TEFb to proviral HIV. A heterodimeric complex of CDK9 and one of three cyclin T subunits, P-TEFb is expressed at vanishingly low levels in resting memory CD4+ T cells and cellular mechanisms controlling its availability are central to regulation of the emergence of HIV from latency. Using a well-characterized primary T-cell model of HIV latency alongside healthy donor memory CD4+ T cells, we characterized specific T-cell receptor (TCR) signaling pathways that regulate the generation of transcriptionally active P-TEFb, defined as the coordinate expression of cyclin T1 and phospho-Ser175 CDK9. Protein kinase C (PKC) agonists, such as ingenol and prostratin, stimulated active P-TEFb expression and reactivated latent HIV with minimal cytotoxicity, even in the absence of intracellular calcium mobilization with an ionophore. Unexpectedly, inhibition-based experiments demonstrated that PKC agonists and TCR-mobilized diacylglycerol signal through MAP kinases ERK1/2 rather than through PKC to effect the reactivation of both P-TEFb and latent HIV. Single-cell and bulk RNA-seq analyses revealed that of the four known isoforms of the Ras guanine nucleotide exchange factor RasGRP, RasGRP1 is by far the predominantly expressed diacylglycerol-dependent isoform in CD4+ T cells. RasGRP1 should therefore mediate the activation of ERK1/2 via Ras-Raf signaling upon TCR co-stimulation or PKC agonist challenge. Combined inhibition of the PI3K-mTORC2-AKT-mTORC1 pathway and the ERK1/2 activator MEK prior to TCR co-stimulation abrogated active P-TEFb expression and substantially suppressed latent HIV reactivation. Therefore, contrary to prevailing models, the coordinate reactivation of P-TEFb and latent HIV in primary T cells following either TCR co-stimulation or PKC agonist challenge is independent of PKC but rather involves two complementary signaling arms of the TCR cascade, namely, RasGRP1-Ras-Raf-MEK-ERK1/2 and PI3K-mTORC2-AKT-mTORC1.

[Functional immunoassays in the setting of infectious risk and immunosuppressive therapy of non-HIV immunocompromised patients]. / Place des tests immunitaires fonctionnels dans la prise en charge du risque infectieux et de la gestion des thérapies immunosuppressives chez les patients immunodéprimés non-VIH.

The holistic approach of the human immune system is based on the study of its components collectively driving a functional response to an immunogenic stimulus. To appreciate a specific immune dysfunction, a condition is mimicked ex vivo and the immune response induced is assessed. The application field of such assays are broad and expanding, from the diagnosis of primary and secondary immunodeficiencies, immunotherapy for cancer to the management of patients at-risk for infections and vaccination. These assays are immune monitoring tools that may contribute to a personalised and precision medicine. The purpose of this review is to describe immune functional assays available in the setting of non-HIV acquired immune deficiency. First, we will address the use of theses assays in the diagnosis of opportunistic infections such as viral reactivation. Secondly, we will report the usefulness of these assays to assess vaccine efficacy and to manage immunosuppressive therapies.

Identification of new antiviral agents against Kaposi's sarcoma-associated herpesvirus (KSHV) by high-throughput drug screening reveals the role of histamine-related signaling in promoting viral lytic reactivation.

Kaposi's sarcoma-associated herpesvirus (KSHV) causes several human cancers, such as Kaposi's sarcoma (KS) and primary effusion lymphoma (PEL). Current treatment options for KSHV infection and virus associated diseases are sometimes ineffective, therefore, more effectively antiviral agents are urgently needed. As a herpesvirus, lytic replication is critical for KSHV pathogenesis and oncogenesis. In this study, we have established a high-throughput screening assay by using an inducible KSHV+ cell-line, iSLK.219. After screening a compound library that consisted of 1280 Food and Drug Administration (FDA)-approved drugs, 15 hit compounds that effectively inhibited KSHV virion production were identified, most of which have never been reported with anti-KSHV activities. Interestingly, 3 of these drugs target histamine receptors or signaling. Our data further confirmed that antagonists targeting different histamine receptors (HxRs) displayed excellent inhibitory effects on KSHV lytic replication from induced iSLK.219 or BCBL-1 cells. In contrast, histamine and specific agonists of HxRs promoted viral lytic replication from induced iSLK.219 or KSHV-infected primary cells. Mechanistic studies indicated that downstream MAPK and PI3K/Akt signaling pathways were required for histamine/receptors mediated promotion of KSHV lytic replication. Direct knockdown of HxRs in iSLK.219 cells effectively blocked viral lytic gene expression during induction. Using samples from a cohort of HIV+ patients, we found that the KSHV+ group has much higher levels of histamine in their plasma and saliva than the KSHV- group. Taken together, our data have identified new anti-KSHV agents and provided novel insights into the molecular bases of host factors that contribute to lytic replication and reactivation of this oncogenic herpesvirus.

Facts and fiction: cellular models for high throughput screening for HIV-1 reactivating drugs.

A curative therapy for HIV-1 infection will have to include measures to eliminate the reservoir of latently HIV- 1 infected cells that allow the virus to persist despite otherwise successful therapy. To date, all efforts to deplete the latent reservoir by triggering viral reactivation have used preexisting drugs that are believed to potentially target molecular mechanisms controlling HIV-1 infection. These therapeutic attempts were not clinically successful. Only in the last few years have cellular models of latent HIV-1 infection suitable for high throughput screening been developed and concerted drug discovery efforts were initiated to discover new HIV-1 reactivating drugs. We here provide a historic overview about the development of cell models with latent HIV-1 infection that lend themselves to drug discovery. We provide an overview from the first reported latently infected cell lines to current in vitro models of latent HIV-1 infection in primary T cells, and compare their potential to be used in future large-scale drug screening efforts.

Early years of biological agents therapy in Crohn's disease and risk of the human polyomavirus JC reactivation.

Although the remarkable efficacy of biological therapy has resulted in significant success in inflammatory bowel disease (IBD) management, susceptibility to infections remains a concern. The biological agents include the tumor necrosis factor-alpha (TNF-alpha) inhibitors, for instance infliximab, and other immunomodulating agents, such as natalizumab. Progressive multifocal leukoencephalopathy (PML), a rare but mostly fatal opportunistic brain infection caused by reactivation of the human polyomavirus JC virus (JCV), has been found in two patients with multiple sclerosis and one patient with Crohn's disease (CD), linked to treatment with natalizumab. After these cases of PML, the commercial and investigational use of natalizumab was suspended in February 2005 but was subsequently resumed for multiple sclerosis and for CD, only through a special restricted distribution program. This review, starting from an extensive literature search by the PubMed database, resumes the clinical aspects and pathophysiology of CD and focuses on the biologics in current use in CD (infliximab, adalimumab, and natalizumab), in order to provide a reference and gateway to prevention, recognition, and management of JCV, in the early years of biological agents therapy. It also proposed to provide an overview on the hypothetical mechanism of reactivation of JC virus related to the use of these drugs.

Inducibility of neoplastic transformation by Fujinami sarcoma virus in an in vitro chick embryo model for osteosarcoma: (i) effect of differentiation and (ii) investigation for in vivo growth potential in athymic mice.

We have described previously a novel in vitro model for the study of osteosarcoma. In this system, chick periosteal explants (CEP) transformed by the P140gag-fps oncoprotein of Fujinami avian sarcoma virus (FSV) exhibit biochemical and histological manifestations characteristic of osteosarcoma. In the present study, a hypothesis suggesting that more differentiated bone cells may resist FSV-induced oncogene changes was tested. In one set of experiments, CEP cultures were pretreated with a high dose of dexamethasone (10(-7) M), a bone cell differentiating agent, prior to FSV infection. In another experiment, CEP explants were allowed to grow and thus differentiate for various lengths of time in culture prior to infection with FSV. Another goal of this study was to show that FSV-transformed cultures were tumorigenic in nude mice. In experiments focusing on differentiation and FSV-transformation, it was found that groups that had been infected at stages where osteogenic differentiation had been induced or allowed to occur, exhibited significantly decreased values for biochemical parameters associated with osteosarcomatous transformation. Specifically, these parameters were alkaline and acid phosphatase activity, protein content, [3H]thymidine incorporation, mineral profile, and acidification of culture media. Furthermore, osteosarcomatous histopathological features were more prominent in cultures subjected to FSV infection prior to differentiation. These findings indicate that differentiated osteogenic cells are less susceptible to oncogene-mediated transformation than their progenitors. The tumorigenic potential of some CEP cultures transformed in vitro with FSV was examined by transplantation into athymic mice. FSV-transformed CEP cultures xenografted subcutaneously exhibited tumor formation, whereas xenografts of uninfected cultures did not grow or were completely resorbed. This demonstrates that FSV-transformed cultures are tumorigenic, and confirms that this model system is useful for the investigation of the mechanisms governing the development of osteosarcoma in vitro.

The use of tri(n-butyl)phosphate detergent mixtures to inactivate hepatitis viruses and human immunodeficiency virus in plasma and plasma's subsequent fractionation.

The treatment of plasma with organic solvent/detergent mixtures at the time of plasma collection or pooling could reduce the exposure of technical staff to infectious viruses and enhance the viral safety of the final product. Treatment of plasma for 4 hours with 2-percent tri(n-butyl)phosphate (TNBP) at 37 degrees C, with 1-percent TNBP and 1-percent polyoxyethylensorbitan monooleate (Tween 80) at 30 degrees C, or with 1-percent TNBP and 1-percent polyoxyethylene ethers, (Triton X-45) at 30 degrees C resulted in the rapid and complete inactivation of greater than or equal to 10(4) tissue culture-infectious doses (TCID50) of vesicular stomatitis and Sindbis viruses, which are used as surrogates. Treatment of plasma with TNBP and TNBP and Tween-80 was shown to inactivate greater than or equal to 10(4) TCID50 of human immunodeficiency virus. TNBP treatment of plasma contaminated with 10(6) chimpanzee-infectious doses (CID50) of hepatitis B virus and 10(5) CID50 of non-A,non-B hepatitis virus prevented the transmission of hepatitis to chimpanzees. Immediately after treatment of plasma with 2-percent TNBP, the recovery of factors VIII, IX, and V and antithrombin III was 80, 90, 40, and 100 percent, respectively. Recovery of all factors was greater than or equal to 90 percent after treatment with TNBP and detergent mixtures. Treated plasma was fractionated by standard techniques into antihemophilic factor and prothrombin complex concentrates, immune globulin, and albumin. Prior treatment with TNBP or TNBP and detergent did not affect the separations of desired proteins. Therefore, it appears possible to inactivate viruses in plasma before the execution of standard fractionation procedures.(ABSTRACT TRUNCATED AT 250 WORDS)