Primary immunodeficiencies in the co-stimulatory molecule CD27 and its ligand CD70 predispose for pathologies of uncontrolled Epstein Barr virus (EBV) infection in nearly all affected patients. We demonstrate that both depletion of CD27 positive cells and antibody blocking of CD27 interaction with CD70 causes uncontrolled EBV infection in mice with reconstituted human immune system components. While overall CD8+ T cell expansion and composition is unaltered after antibody blocking of CD27, only some EBV specific CD8+ T cell responses, exemplified by early lytic EBV antigen BMLF1 specific CD8+ T cells are inhibited in their proliferation and killing of EBV transformed B cells. This suggests that CD27 is not required for all CD8+ T cell expansions and cytotoxicity, but for a subset of CD8+ T cell responses that protect us from EBV infection.
While Epstein–Barr virus (EBV) establishes a life‐long latent infection in apparently healthy human immunocompetent hosts, immunodeficient individuals are at particular risk to develop lymphoproliferative B‐cell malignancies caused by EBV. A key EBV protein is the transcription factor EBV nuclear antigen 2 (EBNA2), which initiates B‐cell proliferation. Here, we combine biochemical, cellular, and in vivo experiments demonstrating that the mitotic polo‐like kinase 1 (PLK1) binds to EBNA2, phosphorylates its transactivation domain, and thereby inhibits its biological activity. EBNA2 mutants that impair PLK1 binding or prevent EBNA2 phosphorylation are gain‐of‐function mutants. They exhibit enhanced transactivation capacities, accelerate the proliferation of infected B cells, and promote the development of monoclonal B‐cell lymphomas in infected mice. Thus, PLK1 coordinates the activity of EBNA2 to attenuate the risk of tumor incidences in favor of the establishment of latency in the infected but healthy host.
Epstein Barr virus (EBV) is one of the most successful pathogens in humans with more than 95% of the human adult population persistently infected. EBV infects only humans and threatens these with its potent growth transforming ability that readily allows for immortalization of human B cells in culture. Accordingly, it is also found in around 1-2% of human tumors, primarily lymphomas and epithelial cell carcinomas. Fortunately, however, our immune system has learned to control this most transforming human tumor virus in most EBV carriers, and it requires modification of EBV associated lymphomagenesis and its immune control by either co-infections, such as malaria, Kaposi sarcoma associated herpesvirus (KSHV) and human immunodeficiency virus (HIV), or genetic predispositions for EBV positive tumors to emerge. Some of these can be modelled in humanized mice that, therefore, provide a valuable platform to test curative immunotherapies and prophylactic vaccines against these EBV associated pathologies.
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