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Heterochromatin loss as a determinant of progerin‐induced DNA damage in Hutchinson–Gilford Progeria

Alexandre Chojnowski, Peh Fern Ong, Mattheus Xing Rong Foo, David Liebl, Louis‐Peter Hor, Colin L. Stewart, Oliver Dreesen

2020Aging Cell56 citationsDOIOpen Access PDF

Abstract

Hutchinson-Gilford progeria is a premature aging syndrome caused by a truncated form of lamin A called progerin. Progerin expression results in a variety of cellular defects including heterochromatin loss, DNA damage, impaired proliferation and premature senescence. It remains unclear how these different progerin-induced phenotypes are temporally and mechanistically linked. To address these questions, we use a doxycycline-inducible system to restrict progerin expression to different stages of the cell cycle. We find that progerin expression leads to rapid and widespread loss of heterochromatin in G1-arrested cells, without causing DNA damage. In contrast, progerin triggers DNA damage exclusively during late stages of DNA replication, when heterochromatin is normally replicated, and preferentially in cells that have lost heterochromatin. Importantly, removal of progerin from G1-arrested cells restores heterochromatin levels and results in no permanent proliferative impediment. Taken together, these results delineate the chain of events that starts with progerin expression and ultimately results in premature senescence. Moreover, they provide a proof of principle that removal of progerin from quiescent cells restores heterochromatin levels and their proliferative capacity to normal levels.

Topics & Concepts

ProgeriaHeterochromatinBiologyDNA damageLaminPremature agingCell biologyDNA repairCell cycleDNAGeneticsCellChromatinNucleusGeneNuclear Structure and FunctionGenomics and Chromatin DynamicsRNA Research and Splicing