Transcriptomics

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An adult-stage transcriptional program for survival of serotonergic connectivity


ABSTRACT: Neurons must function for decades of life but how these non-dividing cells are preserved is poorly understood. Using mouse serotonin (5-HT) neurons as a model, we discovered a novel adult-stage transcriptional program specialized to ensure the preservation of serotonergic connectivity. We uncover a switch in Lmx1b and Pet1 transcription factor function from controlling embryonic axonal growth to sustaining a transcriptomic signature of serotonergic connectivity comprising functionally diverse synaptic and axonal genes. Adult-stage deficiency of Lmx1b and Pet1 caused slowly progressive degeneration of 5-HT synapses and axons, increased susceptibility of 5-HT axons to neurotoxic injury, and abnormal stress responses. Axon degeneration occurred in a die back pattern and was accompanied by accumulation of alpha-synuclein and APP in spheroids and mitochondrial fragmentation without cell body loss. Our findings suggest neuronal connectivity is transcriptionally protected by maintenance of connectivity transcriptomes; progressive decay of such transcriptomes may contribute to age-related diseases of brain circuitry.

ORGANISM(S): Mus musculus

PROVIDER: GSE189052 | GEO | 2022/03/24

REPOSITORIES: GEO

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