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#LeftVentricularNoncompaction
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Genes & Diseases Journal
Genes & Diseases Journal
@genesndiseases.bsky.social
2 months ago
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#PDE4DIP is identified as a driver of #LeftVentricularNoncompaction; its overexpression disrupts #cardiomyocyte polarity and energy metabolism, while knockdown restores #ATP and migration, highlighting new therapeutic targets for LVNC.

#OpenAccess: doi.org/10.1016/j.ge...

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Genes & Diseases Journal
Genes & Diseases Journal
@genesndiseases.bsky.social
9 months ago

#PDE4DIP activation plays a critical role in #LeftVentricularNoncompaction development by regulating #cellpolarity, skeleton, and energy metabolism via the Rho-ROCK pathway, thereby offering potential targets and therapeutic strategies. #medsky

#OpenAccess:

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Genes & Diseases Journal
Genes & Diseases Journal
@genesndiseases.bsky.social
9 months ago
Dysfunction of PDE4DIP contributes to LVNC development by regulating cell polarity, skeleton ec1
Dysfunction of PDE4DIP contributes to LVNC development by regulating cell polarity, skeleton ec1 This study demonstrates that dysfunction of PDE4DIP contributes to the development of left ventricular non-compaction (LVNC) cardiomyopathy by disrupting cel...

This study identifies #PDE4DIP as a key player in #LeftVentricularNoncompaction development by regulating #cellpolarity, skeleton, and energy metabolism via the Rho-ROCK pathway. #LVNC

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