Deletion of Ptpmt1 by αMHC-Cre in Mice Results in Left Ventricular Non-Compaction
Lei Huang, Maowu Cao, Xiangbin Zhu, Na Li, Can Huang, Kunfu Ouyang, Ze'e Chen

TL;DR
Deleting the Ptpmt1 gene in mouse hearts causes a heart defect called left ventricular non-compaction, leading to early death and abnormal heart structure.
Contribution
This study identifies Ptpmt1 as a critical gene in regulating left ventricular compaction during heart development in mice.
Findings
Cardiac-specific deletion of Ptpmt1 in mice leads to left ventricular non-compaction and early postnatal death.
Ptpmt1 deletion reduces cardiomyocyte proliferation and disrupts heart development at embryonic stages.
Ptpmt1 deficiency induces mitochondrial stress and alters gene expression related to heart development.
Abstract
Background: Left ventricular non-compaction cardiomyopathy (LVNC) is a congenital heart disease characterized by abnormal prenatal development of the left ventricle that has an aberrantly thick trabecular layer and a thinner compacted myocardial layer. However, the underlying molecular mechanisms of LVNC regulated by mitochondrial phosphatase genes remain largely unresolved. Methods: We generated a mouse model with cardiac-specific deletion (CKO) of Ptpmt1, a type of mitochondrial phosphatase gene, using the αMHC-Cre, and investigated the effects of cardiac-specific Ptpmt1 deficiency on cardiac development. Morphological, histological, and immunofluorescent analyses were conducted in Ptpmt1 CKO and littermate controls. A transcriptional atlas was identified by RNA sequencing (RNA-seq) analysis. Results: We found that CKO mice were born at the Mendelian ratio with normal body weights.…
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Taxonomy
TopicsCardiomyopathy and Myosin Studies · RNA modifications and cancer · RNA Research and Splicing
