Xavier Laulhé scite author profile

Type I interferons (IFN-I) are one of the primary immune defenses against viruses. Similar to all other molecular mechanisms that are central to eliciting protective immune responses, IFN-I expression is subject to homeostatic controls that regulate cytokine levels upon clearing the infection. However, in the case of established persistent viral infection, sustained elevation of IFN-I expression bears deleterious effects to the host and is today considered as the major driver of inflammation and immunosuppression. In fact, numerous emerging studies place sustained IFN-I expression as a common nexus in the pathogenesis of multiple chronic diseases including persistent infections with the human immunodeficiency virus type 1 (HIV-1), simian immunodeficiency virus (SIV), as well as the rodent-borne lymphocytic choriomeningitis virus clone 13 (LCMV clone 13). In this review, we highlight recent studies illustrating the molecular dysregulation and resultant cellular dysfunction in both innate and adaptive immune responses driven by sustained IFN-I expression. Here, we place particular emphasis on the efficacy of IFN-I receptor (IFNR) blockade towards improving immune responses against viral infections given the emerging therapeutic approach of blocking IFNR using neutralizing antibodies (Abs) in chronically infected patients.

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Flaviviruses alter endoplasmic reticulum-mitochondria contacts to regulate respiration and apoptosis

Freppel

Anton

Nouhi

et al. 2023

Preprint

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With no therapeutics available, there is an urgent need to better understand the pathogenesis of flaviviruses which constitute a threat to public health worldwide. During infection, dengue virus (DENV) and Zika virus (ZIKV), two flaviviruses induce alterations of mitochondria morphology to favor viral replication, suggesting a viral co-opting of mitochondria functions. Here, we performed an extensive transmission electron microscopy-based quantitative analysis to demonstrate that both DENV and ZIKV alter endoplasmic reticulum-mitochondria contacts (ERMC). This correlated at the molecular level with an impairment of ERMC tethering protein complexes located at the surface of both organelles. Furthermore, virus infection, as well as NS4B expression modulated the mitochondrial oxygen consumption rate. Consistently, metabolomic and mitoproteomic analyses revealed a decrease in the abundance of several metabolites of the Krebs cycle and changes in the stoichiometry of the electron transport chain. Most importantly, ERMC destabilization by protein knockdown increased virus replication while dampening ZIKV-induced apoptosis. Overall, our results support the notion that flaviviruses hijack ERMCs to generate a cytoplasmic environment beneficial for sustained and efficient replication.

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Persistent Viral Infection Promotes Hematopoietic Stem/Progenitor Cell-Mediated Immunosuppression and Tolerance to Secondary Inflammatory Activation

et al. 2022

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Xavier Laulhé

Sustained IFN-I Expression during Established Persistent Viral Infection: A “Bad Seed” for Protective Immunity

Flaviviruses alter endoplasmic reticulum-mitochondria contacts to regulate respiration and apoptosis

Persistent Viral Infection Promotes Hematopoietic Stem/Progenitor Cell-Mediated Immunosuppression and Tolerance to Secondary Inflammatory Activation

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