ATM modulates nuclear mechanics by regulating lamin A levels

Abstract: Ataxia-telangiectasia mutated (ATM) is one of the three main apical kinases at the crux of DNA damage response and repair in mammalian cells. ATM activates a cascade of downstream effector proteins to regulate DNA repair and cell cycle checkpoints in response to DNA double-strand breaks. While ATM is predominantly known for its role in DNA damage response and repair, new roles of ATM have recently begun to emerge, such as in regulating oxidative stress or metabolic pathways. Here, we report the surprising disc… Show more

“…The intermediate filament protein vimentin plays key roles in cell architecture and mechanotransduction [1][2][3]. Nevertheless, at least equally important are its roles in the integration of cellular structures and signaling pathways, with consequences on organelle homeostasis, regulation of autophagy, and lipid metabolism, as well as its key role in the cellular response to various kinds of stress [4][5][6][7].…”

Intracellular pH modulates vimentin remodeling in response to oxidants

“…The intermediate filament protein vimentin plays key roles in cell architecture and mechanotransduction [1][2][3]. Nevertheless, at least equally important are its roles in the integration of cellular structures and signaling pathways, with consequences on organelle homeostasis, regulation of autophagy, and lipid metabolism, as well as its key role in the cellular response to various kinds of stress [4][5][6][7].…”

Intracellular pH modulates vimentin remodeling in response to oxidants