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Neurons burdened by DNA double-strand breaks incite microglia activation through antiviral-like signaling in neurodegeneration

Gwyneth Welch, Carles A. Boix, Eloi Schmauch, José Dávila-Velderrain, Matheus B. Victor, Vishnu Dileep, P. Lorenzo Bozzelli, Qiao Su, Jemmie Cheng, Audrey Lee, Noelle Leary, Andreas R. Pfenning, Manolis Kellis, Li‐Huei Tsai

2022Science Advances85 citationsDOIOpen Access PDF

Abstract

DNA double-strand breaks (DSBs) are linked to neurodegeneration and senescence. However, it is not clear how DSB-bearing neurons influence neuroinflammation associated with neurodegeneration. Here, we characterize DSB-bearing neurons from the CK-p25 mouse model of neurodegeneration using single-nucleus, bulk, and spatial transcriptomic techniques. DSB-bearing neurons enter a late-stage DNA damage response marked by nuclear factor κB (NFκB)-activated senescent and antiviral immune pathways. In humans, Alzheimer's disease pathology is closely associated with immune activation in excitatory neurons. Spatial transcriptomics reveal that regions of CK-p25 brain tissue dense with DSB-bearing neurons harbor signatures of inflammatory microglia, which is ameliorated by NFκB knockdown in neurons. Inhibition of NFκB in DSB-bearing neurons also reduces microglia activation in organotypic mouse brain slice culture. In conclusion, DSBs activate immune pathways in neurons, which in turn adopt a senescence-associated secretory phenotype to elicit microglia activation. These findings highlight a previously unidentified role for neurons in the mechanism of disease-associated neuroinflammation.

Topics & Concepts

NeurodegenerationMicrogliaNeuroinflammationNeuroscienceBiologyCell biologyDNA damageImmune systemNeuronTranscriptomeSenescenceInflammationDNAImmunologyMedicineDiseaseGeneGene expressionPathologyGeneticsNeuroinflammation and Neurodegeneration MechanismsImmune Response and InflammationNF-κB Signaling Pathways