Chronic Nicotine Exposure Alters Sperm Small RNA Content in C57BL/6J Mouse Model

Overview

Journal Dev Psychobiol

Specialties Pediatrics
Psychiatry
Psychology

Date 2023 Feb 22

PMID 36811365

Authors

Dana Zeid

Thomas J Gould

Affiliations

Soon will be listed here.

Abstract

Multigenerational inheritance is a nongenomic form of heritability characterized by altered phenotypes in the first generation born from the exposed parent. Multigenerational factors may account for inconsistencies and gaps in heritable nicotine addiction vulnerability. Our lab previously found that F1 offspring of male C57BL/6J mice chronically exposed to nicotine exhibited altered hippocampus functioning and related learning, nicotine-seeking, nicotine metabolism, and basal stress hormones. In an effort to identify germline mechanisms underlying these multigenerational phenotypes, the current study sequenced small RNA extracted from sperm of males chronically administered nicotine using our previously established exposure model. We identified 16 miRNAs whose expression in sperm was dysregulated by nicotine exposure. A literature review of previous research on these transcripts suggested an enrichment for regulation of psychological stress and learning. mRNAs predicted to be regulated by differentially expressed sperm small RNAs were further analyzed using exploratory enrichment analysis, which suggested potential modulation of pathways related to learning, estrogen signaling, and hepatic disease, among other findings. Overall, our findings point to links between nicotine-exposed F0 sperm miRNA and altered F1 phenotypes in this multigenerational inheritance model, particularly F1 memory, stress, and nicotine metabolism. These findings provide a valuable foundation for future functional validation of these hypotheses and characterization of mechanisms underlying male-line multigenerational inheritance.

Citing Articles

Pathological epigenetic events and reversibility review: the intersection between hallmarks of aging and developmental origin of health and disease.

Ruden D, Singh A, Rappolee D Epigenomics. 2023; 15(14):741-754.

PMID: 37667910 PMC: 10503466. DOI: 10.2217/epi-2023-0224.

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