AI Article Synopsis
- Researchers examined how glucocorticoid receptors (GR) affect heart function differently between males and females using a mouse model that lacks these receptors in heart cells.
- Male mice showed a significantly higher mortality rate and greater heart dysfunction by 3 months compared to females, who remained more resilient despite having the same genetic alteration.
- The study revealed that male hearts had more pronounced gene expression changes related to calcium handling, suggesting that GR plays a vital role in how male and female hearts respond to stress and could influence the risk of heart disease differently between the sexes.
Article Abstract
Background The contribution of glucocorticoids to sexual dimorphism in the heart is essentially unknown. Therefore, we sought to determine the sexually dimorphic actions of glucocorticoid signaling in cardiac function and gene expression. To accomplish this goal, we conducted studies on mice lacking glucocorticoid receptors (GR) in cardiomyocytes (cardioGRKO mouse model). Methods and Results Deletion of cardiomyocyte GR leads to an increase in mortality because of the development of spontaneous cardiac pathology in both male and female mice; however, females are more resistant to GR signaling inactivation in the heart. Male cardioGRKO mice had a median survival age of 6 months. In contrast, females had a median survival age of 10 months. Transthoracic echocardiography data showed phenotypic differences between male and female cardioGRKO hearts. By 3 months of age, male cardioGRKO mice exhibited left ventricular systolic dysfunction. Conversely, no significant functional deficits were observed in female cardioGRKO mice at the same time point. Functional sensitivity of male hearts to the loss of cardiomyocyte GR was reversed following gonadectomy. RNA-Seq analysis showed that deleting GR in the male hearts leads to a more profound dysregulation in the expression of genes implicated in heart rate regulation (calcium handling). In agreement with these gene expression data, cardiomyocytes isolated from male cardioGRKO hearts displayed altered intracellular calcium responses. In contrast, female GR-deficient cardiomyocytes presented a response comparable with controls. Conclusions These data suggest that GR regulates calcium responses in a sex-biased manner, leading to sexually distinct responses to stress in male and female mice hearts, which may contribute to sex differences in heart disease, including the development of ventricular arrhythmias that contribute to heart failure and sudden death.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6761632 | PMC |
| http://dx.doi.org/10.1161/JAHA.118.011012 | DOI Listing |
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