Viral glycoprotein gp150 promotes sexual transmission of Murid Herpesvirus-4

Gammaherpesviruses are important pathogens in human and veterinary medicine. During co-evolution with their hosts, they developed many strategies allowing them to shed infectious particles in presence of immune response. Understanding these strategies is likely to be important to control infection. Interestingly, we recently observed that Murid herpesvirus 4 (MuHV-4), a gammaherpesvirus infecting laboratory mice, could be sexually transmitted between mice. This model offers therefore the opportunity to understand the mechanisms underlying natural transmission. Some of these mechanisms could rely on the glycoprotein 150 (gp150), which could limit virus neutralization and promote the release of infectious particles from cells. In this study, we tested therefore the importance of gp150 in the context of MuHV-4 sexual transmission. Briefly, female mice were infected with WT or gp150- strains expressing luciferase. They were imaged with an in vivo imaging system to follow infection. When lytic replication was observed in the genital tract, infected females were mated with naïve males to compare the capacity of transmission of the two strains. Our results show that, while the gp150- strain has no deficit in reaching and replicating in the female genital tract, it displays a major deficit of sexual transmission in comparison with WT virions. Interestingly, this deficit appears to reflect a deficit of virions release from vaginal epithelial cells. Altogether, our results show that, while gp150 is not required for efficient dissemination and maintenance of MuHV-4 within its host, it is essential for efficient transmission, by promoting the releasing of infectious particles from the mucosal cells

Alcelaphine herpesvirus 1 genes A7 and A8 regulate viral spread and are essential for malignant catarrhal fever

Alcelaphine herpesvirus 1 (AlHV-1) is a gammaherpesvirus that is carried asymptomatically by wildebeest. Upon cross-species transmission to other ruminants, including domestic cattle, AlHV-1 induces malignant catarrhal fever (MCF), which is a fatal lymphoproliferative disease resulting from proliferation and uncontrolled activation of latently infected CD8+ T cells. Two laboratory strains of AlHV-1 are used commonly in research: C500, which is pathogenic, and WC11, which has been attenuated by long-term maintenance in cell culture. The published genome sequence of a WC11 seed stock from a German laboratory revealed the deletion of two major regions. The sequence of a WC11 seed stock used in our laboratory also bears these deletions and, in addition, the duplication of an internal sequence in the terminal region. The larger of the two deletions has resulted in the absence of gene A7 and a large portion of gene A8. These genes are positional orthologs of the Epstein-Barr virus genes encoding envelope glycoproteins gp42 and gp350, respectively, which are involved in viral propagation and switching of cell tropism. To investigate the degree to which the absence of A7 and A8 participates in WC11 attenuation, recombinant viruses lacking these individual functions were generated in C500. Using bovine nasal turbinate and embryonic lung cell lines, increased cell-free viral propagation and impaired syncytia formation were observed in the absence of A7, whereas cell-free viral spread was inhibited in the absence of A8. Therefore, A7 appears to be involved in cell-to-cell viral spread, and A8 in viral cell-free propagation. Finally, infection of rabbits with either mutant did not induce the signs of MCF or the expansion of infected CD8+ T cells. These results demonstrate that A7 and A8 are both essential for regulating viral spread and suggest that AlHV-1 requires both genes to efficiently spread in vivo and reach CD8+ T lymphocytes and induce MCF

Long-lasting alterations in lung anti-tumor immunity by viral infections

peer reviewe

Ly6Chi monocytes balance regulatory and cytotoxic CD4 T cell responses to control virus-induced immunopathology.

peer reviewedGammaherpesviruses (γHVs) have coevolved with their host, leading to a remarkably high infection prevalence and establishment of latency. The lifelong persistence of γHVs in hosts appears to broadly shape host immunity, and we show here that pulmonary infection with Murid herpesvirus 4 (MuHV-4), a mouse γHV, drives the recruitment of Ly6Chi monocytes (MOs) into the airway, thereby modulating the host immune response. The absence of Ly6Chi MOs is associated with severe virus-induced immunopathology and the systemic release of inflammatory mediators. Mechanistically, MuHV-4-imprinted MOs recruit CD4 T cells to the airways and trigger immunosuppressive signaling pathways through the PD-L1/PD-1 axis, thereby dampening the deleterious activation of cytotoxic CD4 T cells. These results uncover a role for Ly6Chi MOs in modulating CD4 T cell functions and reveal pathways that could be targeted therapeutically to reduce detrimental immunopathological responses associated with respiratory viral infections

Development of a Systems Immunology Approach to Explore Factors Influencing Vaccination Response in Belgian Blue Cattle

editorial reviewe

Unraveling clonal CD8 T cell expansion and identification of essential factors in γ-herpesvirus-induced lymphomagenesis

Alcelaphine gammaherpesvirus 1 (AlHV-1) asymptomatically persists in its natural host, the wildebeest. However, cross-species transmission to cattle results in the induction of an acute and lethal peripheral T cell lymphoma-like disease (PTCL), named malignant catarrhal fever (MCF). Our previous findings demonstrated an essential role for viral genome maintenance in infected CD8+ T lymphocytes but the exact mechanism(s) leading to lymphoproliferation and MCF remained unknown. To decipher how AlHV-1 dysregulates T lymphocytes, we first examined the global phenotypic changes in circulating CD8+ T cells after experimental infection of calves. T cell receptor repertoire together with transcriptomics and epigenomics analyses demonstrated an oligoclonal expansion of infected CD8+ T cells displaying effector and exhaustion gene signatures, including GZMA, GNLY, PD-1, and TOX2 expression. Then, among viral genes expressed in infected CD8+ T cells, we uncovered A10 that encodes a transmembrane signaling protein displaying multiple tyrosine residues, with predicted ITAM and SH3 motifs. Impaired A10 expression did not affect AlHV-1 replication in vitro but rendered AlHV-1 unable to induce MCF. Furthermore, A10 was phosphorylated in T lymphocytes in vitro and affected T cell signaling. Finally, while AlHV-1 mutants expressing mutated forms of A10 devoid of ITAM or SH3 motifs (or both) were able to induce MCF, a recombinant virus expressing a mutated form of A10 unable to phosphorylate its tyrosine residues resulted in the lack of MCF and protected against a wild-type virus challenge. Thus, we could characterize the nature of this γ-herpesvirus-induced PTCL-like disease and identify an essential mechanism explaining its development.</p

Antiviral effect of the nucleoside analogue cidofovir in the context of sexual transmission of a gammaherpesvirus in mice

Objectives: To investigate the efficacy of cidofovir to block gammaherpesvirus replication in the context of sexual transmission. Methods: A luciferase-expressing strain of murid herpesvirus 4 (MuHV-4) was used to monitor genital virus excretion from infected female BALB/c mice and sexual transmission to naive males. The efficiency of cidofovir to block genital excretion from infected females or replication and host colonization of naive males after sexual contact was tested by treating infected females (either once daily or at a single timepoint), naive males before exposure (either once daily or at a single timepoint) or males 24 h post-exposure. Results: We showed that daily treatment of infected females can reduce MuHV-4 genital shedding by 75%. Similarly, daily preventive treatment of naive males was sufficient to block viral replication and latency establishment in males. In contrast, a single administration of cidofovir to infected females at day 14 post-infection or to naive males 2 to 6 days before contact with MuHV-4-excreting females was not sufficient to significantly reduce viral shedding from females or infection of males, respectively. Interestingly, a single administration of cidofovir to males 24 h after contact with MuHV-4-infected females excreting the virus in the genital tract significantly reduced virus replication in males and seroconversion. Conclusions: Altogether, our results show that cidofovir can significantly reduce gammaherpesvirus replication, excretion and colonization of the naive partner in the context of sexual transmission. Such treatments could therefore be recommended in some specific conditions where gammaherpesvirus infections could be deleterious.status: publishe

Antiviral effect of the nucleoside analogue cidofovir in the context of sexual transmission of a gammaherpesvirus in mice.

Objectives: To investigate the efficacy of cidofovir to block gammaherpesvirus replication in the context of sexual transmission. Methods: A luciferase-expressing strain of murid herpesvirus 4 (MuHV-4) was used to monitor genital virus excretion from infected female BALB/c mice and sexual transmission to naive males. The efficiency of cidofovir to block genital excretion from infected females or replication and host colonization of naive males after sexual contact was tested by treating infected females (either once daily or at a single timepoint), naive males before exposure (either once daily or at a single timepoint) or males 24 h post-exposure. Results: We showed that daily treatment of infected females can reduce MuHV-4 genital shedding by 75%. Similarly, daily preventive treatment of naive males was sufficient to block viral replication and latency establishment in males. In contrast, a single administration of cidofovir to infected females at day 14 post-infection or to naive males 2 to 6 days before contact with MuHV-4-excreting females was not sufficient to significantly reduce viral shedding from females or infection of males, respectively. Interestingly, a single administration of cidofovir to males 24 h after contact with MuHV-4-infected females excreting the virus in the genital tract significantly reduced virus replication in males and seroconversion. Conclusions: Altogether, our results show that cidofovir can significantly reduce gammaherpesvirus replication, excretion and colonization of the naive partner in the context of sexual transmission. Such treatments could therefore be recommended in some specific conditions where gammaherpesvirus infections could be deleterious