Publication

Chromatin compartment dynamics in a haploinsufficient model of cardiac laminopathy.

current
   August 12th, 2019 at 2:51pm

Overview


Abstract

Mutations in A-type nuclear lamins cause dilated cardiomyopathy, which is postulated to result from dysregulated gene expression due to changes in chromatin organization into active and inactive compartments. To test this, we performed genome-wide chromosome conformation analyses in human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) with a haploinsufficient mutation for lamin A/C. Compared with gene-corrected cells, mutant hiPSC-CMs have marked electrophysiological and contractile alterations, with modest gene expression changes. While large-scale changes in chromosomal topology are evident, differences in chromatin compartmentalization are limited to a few hotspots that escape segregation to the nuclear lamina and inactivation during cardiogenesis. These regions exhibit up-regulation of multiple noncardiac genes including CACNA1A, encoding for neuronal P/Q-type calcium channels. Pharmacological inhibition of the resulting current partially mitigates the electrical alterations. However, chromatin compartment changes do not explain most gene expression alterations in mutant hiPSC-CMs. Thus, global errors in chromosomal compartmentation are not the primary pathogenic mechanism in heart failure due to lamin A/C haploinsufficiency.

Authors

Bertero A  •  Fields PA  •  Smith AST  •  Leonard A  •  Beussman K  •  Sniadecki NJ  •  Kim DH  •  Tse HF  •  Pabon L  •  Shendure J  •  Noble WS  •  Murry CE

Link

https://www.ncbi.nlm.nih.gov/pubmed/31395619


Journal

The Journal of cell biology

PMID:31395619

Published

August 8th, 2019