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Age-dependent Lamin Remodeling Induces Cardiac Dysfunction via Dysregulation of Cardiac Transcriptional Programs


Authors:
Natalie Kirkland 1; Alexander Whitehead 1; James Hocker 1; Pranjali Beri 1; Geo Vogler 2; Bill Hum 2; Mingyi Wang 3; Edward Lakatta 3; Bing Ren 1; Rolf Bodmer 2; Adam Engler 1

Affiliations:
1) University of California, San Diego; 2) Sanford Burnham Prebys Medical Discovery Institute; 3) National Institute on Aging

Keywords:
j. cardiovascular disease; j. physiology of adult organs

As we age, structural changes contribute to progressive decline in organ function, which in the heart acts through poorly characterized mechanisms. Utilizing the rapidly aging fruit fly model with its significant homology to the human cardiac proteome, we found that cardiomyocytes exhibit progressive loss of Lamin C (mammalian Lamin A/C homologue) with age. Unlike other tissues and laminopathies, we observe decreasing nuclear size, while nuclear stiffness increases. Premature genetic reduction of Lamin C phenocopies aging’s effects on the nucleus, and subsequently decreases heart contractility and sarcomere organization. Surprisingly, Lamin C reduction downregulates myogenic transcription factors and cytoskeletal regulators, possibly via reduced chromatin accessibility. Subsequently, we find an adult-specific role for cardiac transcription factors and show that maintenance of Lamin C sustains their expression and prevents age-dependent cardiac decline. Our findings are conserved in aged non-human primates and mice, demonstrating age-dependent nuclear remodeling is a major mechanism contributing to cardiac dysfunction.