Hasitha Chavva1, Daniel A Brazeau2,3, James Denvir3, Donald A Primerano3, Jun Fan3, Sarah L Seeley4, Boyd R Rorabaugh5,6. 1. Department of Pharmaceutical Science, Marshall University School of Pharmacy, 1 John Marshall Drive, Huntington, WV, 25755, USA. 2. Department of Pharmacy Practice, Administration, and Research, Marshall University School of Pharmacy, 1 John Marshall Drive, Huntington, WV, 25755, USA. 3. Department of Biomedical Science, Marshall University School of Medicine, 1 John Marshall Drive, Huntington, WV, 25755, USA. 4. Department of Pharmaceutical and Biomedical Sciences, Ohio Northern University College of Pharmacy, 525 South Main Street, Ada, OH, 45810, USA. 5. Department of Pharmaceutical Science, Marshall University School of Pharmacy, 1 John Marshall Drive, Huntington, WV, 25755, USA. rorabaughb@marshall.edu. 6. Department of Biomedical Science, Marshall University School of Medicine, 1 John Marshall Drive, Huntington, WV, 25755, USA. rorabaughb@marshall.edu.
Abstract
BACKGROUND: Prior work demonstrated that female rats (but not their male littermates) exposed to methamphetamine become hypersensitive to myocardial ischemic injury. Importantly, this sex-dependent effect persists following 30 days of subsequent abstinence from the drug, suggesting that it may be mediated by long term changes in gene expression that are not rapidly reversed following discontinuation of methamphetamine use. The goal of the present study was to determine whether methamphetamine induces sex-dependent changes in myocardial gene expression and whether these changes persist following subsequent abstinence from methamphetamine. RESULTS: Methamphetamine induced changes in the myocardial transcriptome were significantly greater in female hearts than male hearts both in terms of the number of genes affected and the magnitude of the changes. The largest changes in female hearts involved genes that regulate the circadian clock (Dbp, Per3, Per2, BMal1, and Npas2) which are known to impact myocardial ischemic injury. These genes were unaffected by methamphetamine in male hearts. All changes in gene expression identified at day 11 returned to baseline by day 30. CONCLUSIONS: These data demonstrate that female rats are more sensitive than males to methamphetamine-induced changes in the myocardial transcriptome and that methamphetamine does not induce changes in myocardial transcription that persist long term after exposure to the drug has been discontinued.
BACKGROUND: Prior work demonstrated that female rats (but not their male littermates) exposed to methamphetamine become hypersensitive to myocardial ischemic injury. Importantly, this sex-dependent effect persists following 30 days of subsequent abstinence from the drug, suggesting that it may be mediated by long term changes in gene expression that are not rapidly reversed following discontinuation of methamphetamine use. The goal of the present study was to determine whether methamphetamine induces sex-dependent changes in myocardial gene expression and whether these changes persist following subsequent abstinence from methamphetamine. RESULTS:Methamphetamine induced changes in the myocardial transcriptome were significantly greater in female hearts than male hearts both in terms of the number of genes affected and the magnitude of the changes. The largest changes in female hearts involved genes that regulate the circadian clock (Dbp, Per3, Per2, BMal1, and Npas2) which are known to impact myocardial ischemic injury. These genes were unaffected by methamphetamine in male hearts. All changes in gene expression identified at day 11 returned to baseline by day 30. CONCLUSIONS: These data demonstrate that female rats are more sensitive than males to methamphetamine-induced changes in the myocardial transcriptome and that methamphetamine does not induce changes in myocardial transcription that persist long term after exposure to the drug has been discontinued.
Entities:
Keywords:
Circadian clock; Drug abuse; Heart; Methamphetamine; Sex differences; Transcriptome
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