1. A novel transgenic Cre allele to label mouse cardiac conduction system
- Author
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Peter C Kahr, Shuang Li, Matthew C. Hill, Ge Tao, James F. Martin, Min Zhang, and Zachary A. Kadow
- Subjects
Heart Injury ,Purkinje fibers ,Heart Ventricles ,Population ,Purkinje cell ,Myocardial Infarction ,Mice, Transgenic ,Biology ,Article ,Purkinje Fibers ,Mice ,Heart Conduction System ,medicine ,Animals ,Regeneration ,Ventricular Function ,Cell Lineage ,Myocytes, Cardiac ,RNA-Seq ,Myocardial infarction ,education ,Molecular Biology ,Alleles ,education.field_of_study ,Integrases ,Myocardium ,Regeneration (biology) ,Cell Biology ,medicine.disease ,Cardiovascular physiology ,Cell biology ,Tamoxifen ,medicine.anatomical_structure ,Animals, Newborn ,cardiovascular system ,Electrical conduction system of the heart ,Transcriptome ,Developmental Biology - Abstract
The cardiac conduction system is a network of heterogeneous cell population that initiates and propagates electric excitations in the myocardium. Purkinje fibers, a network of specialized myocardial cells, comprise the distal end of the conduction system in the ventricles. The developmental origins of Purkinje fibers and their roles during cardiac physiology and arrhythmia have been reported. However, it is not clear if they play a role during ischemic injury and heart regeneration. Here we introduce a novel tamoxifen-inducible Cre allele that specifically labels a broad range of components in the cardiac conduction system while excludes other cardiac cell types and vital organs. Using this new allele, we investigated the cellular and molecular response of Purkinje fibers to myocardial injury. In a neonatal mouse myocardial infarction model, we observed significant increase in Purkinje cell number in regenerating myocardium. RNA-Seq analysis using laser-captured Purkinje fibers showed a unique transcriptomic response to myocardial infarction. Our finds suggest a novel role of cardiac Purkinje fibers in heart injury.
- Published
- 2021
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