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Κυριακή 2 Οκτωβρίου 2022

Innate immune activation without immune cell infiltration in brains of murine models of Aicardi–Gutiérrez Syndrome

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Innate immune activation without immune cell infiltration in brains of murine models of Aicardi–Gutiérrez Syndrome

The brains of 8-week-old wildtype (WT) mice (left) and mice carrying mutations (D1113H) in the ADAR1 gene (right) probed for expression of Interferon Stimulated Gene 15 (ISG-15) using In situ hybridization (red). WT mice show little to no expression of ISG-15 while ADAR1 mutant mouse brain shows a broad and chaotic distribution of expression throughout the brain (8 of many foci circled).


Abstract

Chronic inflammation is frequently invoked as a mechanism of neurodegeneration and yet inflammatory cell infiltrates are seldom seen in brains of these disorders. Different disciplines utilize different technologies and methodologies to describe what is immunologically defined as the innate immune response (IIR). We examined murine models of the human neurodegenerative disease Aicardi–Gutiérrez Syndrome, where an IIR is initiated by aberrant RNA metabolism secondary to a mutation in adenosine deaminase acting on RNA gene (ADAR1). We previously showed that these mice demonstrated a deficit in RNA editing that lead to MDA-5 mediated RNA sensing pathway activation of the IIR with massive interferon stimulated gene transcription and translation. As early as 2 weeks of age, in situ hybridization demonstrated that different central nervous system (CNS) cell lineages expressed very high levels of distinct interferon stimulated genes (ISGs) in the absence of interferon and absence of immune cell infiltrates. We have expanded these studies to more completely describe the breadth of ISG expression systemically and in CNS using double label in situ hybridization. Within the CNS aberrant ISG expression was mostly limited to neurons, microglia, ependyma, choroid plexus, and endothelial cells with little expression in oligodendroglia and astrocytes except for STAT1. Wild type controls showed a similar pattern of ISG expression but only in aged mice and at levels minimally detectable by in situ hybridization. Despite months of elevated ISG expression in mutant mice, there was essentially no inflammatory infiltrate, no interferon production and minimal glial reaction. Histomorphological neurodegenerative pathology of ventricular dilatation and deep gray matter mineralization were evident in mutant mice 8–13 months of age but this did not show a spatial relationship to ISG expression. This IIR without immune cell infiltration leads to neurodegeneration through non-c anonical pathways that may accentuate normal aging pathways.

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