Dynamic interactions of neurons and glia in the ventral midbrain mediate reward and addiction behavior. We studied gene expression in 212,713 ventral midbrain single nuclei from 95 individuals with history of opioid misuse, and individuals without drug exposure. Chronic exposure to opioids was not associated with change in proportions of glial and neuronal subtypes, however glial transcriptomes were broadly altered, involving 9.5 - 6.2% of expressed genes within microglia, oligodendrocytes, and astrocytes. Genes associated with activation of the immune response including interferon, NFkB signaling, and cell motility pathways were upregulated, contrasting with down-regulated expression of synaptic signaling and plasticity genes in ventral midbrain non-dopaminergic neurons. Ventral midbrain transcriptomic reprogramming in the context of chronic opioid exposure included 325 genes that previous genome-wide studies had linked to risk of substance use traits in the broader population, thereby pointing to heritable risk architectures in the genomic organization of the brain's reward circuitry.The cellular signatures of the opioid exposed human midbrain remain unexplored. Here, authors show by single nuclei transcriptomics activation of the glial immune response and dysregulation of synaptic signaling in opioid exposed individuals

Wei, J., Lambert, T.y., Valada, A., Patel, N., Walker, K., Lenders, J., et al. (2023). Single nucleus transcriptomics of ventral midbrain identifies glial activation associated with chronic opioid use disorder. NATURE COMMUNICATIONS, 14(1) [10.1038/s41467-023-41455-8].

Single nucleus transcriptomics of ventral midbrain identifies glial activation associated with chronic opioid use disorder

Luca, Francesca;
2023-09-12

Abstract

Dynamic interactions of neurons and glia in the ventral midbrain mediate reward and addiction behavior. We studied gene expression in 212,713 ventral midbrain single nuclei from 95 individuals with history of opioid misuse, and individuals without drug exposure. Chronic exposure to opioids was not associated with change in proportions of glial and neuronal subtypes, however glial transcriptomes were broadly altered, involving 9.5 - 6.2% of expressed genes within microglia, oligodendrocytes, and astrocytes. Genes associated with activation of the immune response including interferon, NFkB signaling, and cell motility pathways were upregulated, contrasting with down-regulated expression of synaptic signaling and plasticity genes in ventral midbrain non-dopaminergic neurons. Ventral midbrain transcriptomic reprogramming in the context of chronic opioid exposure included 325 genes that previous genome-wide studies had linked to risk of substance use traits in the broader population, thereby pointing to heritable risk architectures in the genomic organization of the brain's reward circuitry.The cellular signatures of the opioid exposed human midbrain remain unexplored. Here, authors show by single nuclei transcriptomics activation of the glial immune response and dysregulation of synaptic signaling in opioid exposed individuals
12-set-2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/18
English
Con Impact Factor ISI
Wei, J., Lambert, T.y., Valada, A., Patel, N., Walker, K., Lenders, J., et al. (2023). Single nucleus transcriptomics of ventral midbrain identifies glial activation associated with chronic opioid use disorder. NATURE COMMUNICATIONS, 14(1) [10.1038/s41467-023-41455-8].
Wei, J; Lambert, Ty; Valada, A; Patel, N; Walker, K; Lenders, J; Schmidt, Cj; Iskhakova, M; Alazizi, A; Mair-Meijers, H; Mash, Dc; Luca, F; Pique-Regi...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/357125
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