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Disruption of global hypothalamic microRNA (miR) profiles and associated behavioral changes in California mice (Peromyscus californicus) developmentally exposed to endocrine disrupting chemicals

Developmental exposure to endocrine disrupting chemicals (EDCs), e.g., bisphenol A (BPA) or genistein (GEN), causes longstanding epigenome effects. MicroRNAs (miRs) regulate which mRNAs will be translated to proteins and thereby serve as the final checkpoint in epigenetic control. Scant amount is kn...

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Published in:Hormones and behavior 2021-02, Vol.128, p.104890-104890, Article 104890
Main Authors: Kaur, Sarabjit, Kinkade, Jessica A., Green, Madison T., Martin, Rachel E., Willemse, Tess E., Bivens, Nathan J., Schenk, A. Katrin, Helferich, William G., Trainor, Brian C., Fass, Joseph, Settles, Matthew, Mao, Jiude, Rosenfeld, Cheryl S.
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creator Kaur, Sarabjit
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description Developmental exposure to endocrine disrupting chemicals (EDCs), e.g., bisphenol A (BPA) or genistein (GEN), causes longstanding epigenome effects. MicroRNAs (miRs) regulate which mRNAs will be translated to proteins and thereby serve as the final checkpoint in epigenetic control. Scant amount is known, however, whether EDCs affect neural miRNA (miR) patterns. We aimed to test the hypothesis that developmental exposure of California mice (Peromyscus californicus) to GEN, BPA, or both chemicals influences hypothalamic miR/small RNA profiles and ascertain the extent such biomolecular alterations correlate with behavioral and metabolic changes. California mice were developmentally exposed to GEN (250 mg/kg feed weight, FW), GEN (250 mg/kg FW)+BPA (5 mg/kg FW), low dose (LD) BPA (5 mg/kg FW), or upper dose (UD) BPA (50 mg/kg FW). Adult offspring were tested in a battery of behavioral and metabolic tests; whereupon, mice were euthanized, brains were collected and frozen, small RNAs were isolated from hypothalamic punches, and subsequently sequenced. California mice exposed to one or both EDCs engaged in one or more repetitive behaviors. GEN, LD BPA, and UD BPA altered aspects of ultrasonic and audible vocalizations. Each EDC exposure led to sex-dependent differences in differentially expressed miR/small RNAs with miR7–2, miR146, and miR148a being increased in all female and male EDC exposed groups. Current findings reveal that developmental exposure to GEN and/or BPA affects hypothalamic miR/small RNA expression patterns, and such changes correlate with EDC-induced behavioral and metabolic alterations. miR146 is likely an important mediator and biomarker of EDC exposure in mammals, including humans. •Small RNA-seq was used to examine endocrine disruptor effects on neural miRNA.•Bisphenol A (BPA) and genistein (GEN) caused behavioral and metabolic changes.•Both EDCs affected miR profiles in the hypothalamus, including increasing miR146.•Hypothalamic miR changes, namely miR146, correlated with phenotypic alterations.•miRNA146 may be a biomarker of BPA and other endocrine disruptor exposure.
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MicroRNAs (miRs) regulate which mRNAs will be translated to proteins and thereby serve as the final checkpoint in epigenetic control. Scant amount is known, however, whether EDCs affect neural miRNA (miR) patterns. We aimed to test the hypothesis that developmental exposure of California mice (Peromyscus californicus) to GEN, BPA, or both chemicals influences hypothalamic miR/small RNA profiles and ascertain the extent such biomolecular alterations correlate with behavioral and metabolic changes. California mice were developmentally exposed to GEN (250 mg/kg feed weight, FW), GEN (250 mg/kg FW)+BPA (5 mg/kg FW), low dose (LD) BPA (5 mg/kg FW), or upper dose (UD) BPA (50 mg/kg FW). Adult offspring were tested in a battery of behavioral and metabolic tests; whereupon, mice were euthanized, brains were collected and frozen, small RNAs were isolated from hypothalamic punches, and subsequently sequenced. California mice exposed to one or both EDCs engaged in one or more repetitive behaviors. GEN, LD BPA, and UD BPA altered aspects of ultrasonic and audible vocalizations. Each EDC exposure led to sex-dependent differences in differentially expressed miR/small RNAs with miR7–2, miR146, and miR148a being increased in all female and male EDC exposed groups. Current findings reveal that developmental exposure to GEN and/or BPA affects hypothalamic miR/small RNA expression patterns, and such changes correlate with EDC-induced behavioral and metabolic alterations. miR146 is likely an important mediator and biomarker of EDC exposure in mammals, including humans. •Small RNA-seq was used to examine endocrine disruptor effects on neural miRNA.•Bisphenol A (BPA) and genistein (GEN) caused behavioral and metabolic changes.•Both EDCs affected miR profiles in the hypothalamus, including increasing miR146.•Hypothalamic miR changes, namely miR146, correlated with phenotypic alterations.•miRNA146 may be a biomarker of BPA and other endocrine disruptor exposure.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>33221288</pmid><doi>10.1016/j.yhbeh.2020.104890</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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ispartof Hormones and behavior, 2021-02, Vol.128, p.104890-104890, Article 104890
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1095-6867
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source ScienceDirect Journals
subjects Animals
Anxiety
Benzhydryl Compounds - toxicity
Bisphenol A (BPA)
Cognition
DOHaD
EDC
Endocrine Disruptors - toxicity
Epigenetics
Female
Genistein
Hypothalamus
Male
Mice
MicroRNAs - genetics
Neurobehavior
Peromyscus
Phytoestrogens
Sex Characteristics
Small RNA
Socio-communication behaviors
Stereotypical behaviors
Transcription
Translation
title Disruption of global hypothalamic microRNA (miR) profiles and associated behavioral changes in California mice (Peromyscus californicus) developmentally exposed to endocrine disrupting chemicals
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