Type I IFN is a major player in innate and adaptive immune responses. Besides, it is involved in organogenesis and tumor development. Generally, IFN responses are amplified by an autocrine loop with IFN-β as the priming cytokine. However, due to the lack of sensitive detection systems, where and how type I IFN is produced in vivo is still poorly understood. In this study, we describe a luciferase reporter mouse, which allows tracking of IFN-β gene induction in vivo. Using this reporter mouse, we reveal strong tissue-specific induction of IFN-β following infection with influenza or La Crosse virus. Importantly, this reporter mouse also allowed us to visualize that IFN-β is expressed constitutively in several tissues. As suggested before, low amounts of constitutively produced IFN might maintain immune cells in an activated state ready for a timely response to pathogens. Interestingly, thymic epithelial cells were the major source of IFN-β under noninflammatory conditions. This relatively high constitutive expression was controlled by the NF Aire and might influence induction of tolerance or T cell development.
Types I and III interferons (IFNs) elicit protective antiviral immune responses during influenza virus infection. Although many cell types can synthesize IFN in response to virus infection, it remains unclear which IFN sources contribute to antiviral protection in vivo. We found that mice carrying functional alleles of the Mx1 influenza virus resistance gene partially lost resistance to infection with a highly pathogenic H7N7 influenza A virus strain if Toll-like receptor 7 (TLR7) signalling was compromised. This effect was achieved by deleting either the TLR7 gene or the gene encoding the TLR7 adaptor molecule MyD88. A similar decrease of influenza virus resistance was observed when animals were deprived of plasmacytoid dendritic cells (pDCs) at day 1 post-infection. Our results provide in vivo proof that pDCs contribute to the protection of the lung against influenza A virus infections, presumably via signals from TLR7.
Febrile seizures are a common and impressive pathology of early childhood. Although generally benign, febrile seizures may be associated with the development of epilepsy in a minority of cases. Particular inducing agents (viral or bacterial infections, vaccines) have been associated with the development of febrile seizures; however, an impressive amount of data underline the importance of the subject susceptibility in this pathology. Neural, inflammatory and metabolic particularities of subjects have been described in association with the development of febrile seizures. A better understanding of the involved mechanisms will generate improved outcome prediction and treatment options.
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