Exercise-induced CITED4 expression is necessary for regional remodeling of cardiac microstructural tissue helicity

Exercise-induced CITED4 expression is necessary for regional remodeling of cardiac microstructural tissue helicity

Both exercise-induced molecular mechanisms and physiological cardiac remodeling have been previously studied on a whole heart level. However, the regional microstructural tissue effects of these molecular mechanisms in the heart have yet to be spatially linked and further elucidated. We show in exer...

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Bibliographic Details
Published in:Communications biology Vol. 5; no. 1; pp. 656 - 8
Main Authors: Eder, Robert A., van den Boomen, Maaike, Yurista, Salva R., Rodriguez-Aviles, Yaiel G., Islam, Mohammad Rashedul, Chen, Yin-Ching Iris, Trager, Lena, Coll-Font, Jaume, Cheng, Leo, Li, Haobo, Rosenzweig, Anthony, Wrann, Christiane D., Nguyen, Christopher T.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 04-07-2022
Nature Publishing Group
Nature Portfolio
Subjects:
38/32
59/57
631/45/500
692/4019/592/1540
Animals
Biology
Biomedical and Life Sciences
Gene Deletion
Heart
Life Sciences
Mice
Molecular modelling
Transcription Factors - metabolism
Ventricular Remodeling
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Summary:Both exercise-induced molecular mechanisms and physiological cardiac remodeling have been previously studied on a whole heart level. However, the regional microstructural tissue effects of these molecular mechanisms in the heart have yet to be spatially linked and further elucidated. We show in exercised mice that the expression of CITED4, a transcriptional co-regulator necessary for cardioprotection, is regionally heterogenous in the heart with preferential significant increases in the lateral wall compared with sedentary mice. Concordantly in this same region, the heart’s local microstructural tissue helicity is also selectively increased in exercised mice. Quantification of CITED4 expression and microstructural tissue helicity reveals a significant correlation across both sedentary and exercise mouse cohorts. Furthermore, genetic deletion of CITED4 in the heart prohibits regional exercise-induced microstructural helicity remodeling. Taken together, CITED4 expression is necessary for exercise-induced regional remodeling of the heart’s microstructural helicity revealing how a key molecular regulator of cardiac remodeling manifests into downstream local tissue-level changes. Expression of transcription factor CITED4 is necessary for exercise-induced regional remodeling of the heart’s microstructural helicity, revealing how a key molecular regulator of cardiac remodeling mediates local tissue-level changes.
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ISSN:2399-3642
2399-3642
DOI:10.1038/s42003-022-03635-y