Galen T Squiers1, Micheal A McLellan2,3, Alexei Ilinykh4, Jane Branca2, Nadia A Rosenthal2,5, Alexander R Pinto6,7. 1. Department of Molecular, Cellular and Developmental Biology, University of Colorado Boulder, Boulder, CO 80309, USA. 2. The Jackson Laboratory, 600 Main st, Bar Harbor, ME 04609, USA. 3. Graduate School of Biomedical Sciences, Tufts University, 136 Harrison Ave, Boston, MA 02111, USA. 4. Australian Regenerative Medicine Institute, Monash University, 15 Innovation Walk, Clayton VIC 3800, Australia. 5. National Heart and Lung Institute, Imperial College London, Dovehouse St, Chelsea, London SW3 6LY, UK. 6. Baker Heart and Diabetes Research Institute, 75 Commercial Rd, Melbourne, Victoria 3004, Australia. 7. Centre for Cardiovascular Biology and Disease Research, La Trobe University, Plenty Rd &, Kingsbury Dr, Bundoora, Victoria 3086, Australia.
Abstract
AIMS: Sex differences have been consistently identified in cardiac physiology and incidence of cardiac disease. However, the underlying biological causes for the differences remain unclear. We sought to characterize the cardiac non-myocyte cellular landscape in female and male hearts to determine whether cellular proportion of the heart is sex-dependent and whether endocrine factors modulate the cardiac cell proportions. METHODS AND RESULTS: Utilizing high-dimensional flow cytometry and immunofluorescence imaging, we found significant sex-specific differences in cellular composition of the heart in adult and juvenile mice, that develops postnatally. Removal of systemic gonadal hormones by gonadectomy results in rapid sex-specific changes in cardiac non-myocyte cellular proportions including alteration in resident mesenchymal cell and leucocyte populations, indicating gonadal hormones and their downstream targets regulate cardiac cellular composition. The ectopic reintroduction of oestrogen and testosterone to female and male mice, respectively, reverses many of these gonadectomy-induced compositional changes. CONCLUSION: This work shows that the constituent cell types of the mouse heart are hormone-dependent and that the cardiac cellular landscapes are distinct in females and males, remain plastic, and can be rapidly modulated by endocrine factors. These observations have implications for strategies aiming to therapeutically alter cardiac cellular heterogeneity and underscore the importance of considering biological sex for studies examining cardiac physiology and stress responses. Published on behalf of the European Society of Cardiology. All rights reserved.
AIMS: Sex differences have been consistently identified in cardiac physiology and incidence of cardiac disease. However, the underlying biological causes for the differences remain unclear. We sought to characterize the cardiac non-myocyte cellular landscape in female and male hearts to determine whether cellular proportion of the heart is sex-dependent and whether endocrine factors modulate the cardiac cell proportions. METHODS AND RESULTS: Utilizing high-dimensional flow cytometry and immunofluorescence imaging, we found significant sex-specific differences in cellular composition of the heart in adult and juvenile mice, that develops postnatally. Removal of systemic gonadal hormones by gonadectomy results in rapid sex-specific changes in cardiac non-myocyte cellular proportions including alteration in resident mesenchymal cell and leucocyte populations, indicating gonadal hormones and their downstream targets regulate cardiac cellular composition. The ectopic reintroduction of oestrogen and testosterone to female and male mice, respectively, reverses many of these gonadectomy-induced compositional changes. CONCLUSION: This work shows that the constituent cell types of the mouse heart are hormone-dependent and that the cardiac cellular landscapes are distinct in females and males, remain plastic, and can be rapidly modulated by endocrine factors. These observations have implications for strategies aiming to therapeutically alter cardiac cellular heterogeneity and underscore the importance of considering biological sex for studies examining cardiac physiology and stress responses. Published on behalf of the European Society of Cardiology. All rights reserved.
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