Abstract
Prelamin A accumulation and persistent DNA damage response (DDR) are hallmarks of vascular smooth muscle cell (VSMC) ageing and dysfunction. Although prelamin A is proposed to interfere with DNA repair, our understanding of the crosstalk between prelamin A and the repair process remains limited. The extracellular signal-regulated kinases 1 and 2 (ERK1/2) have emerged as key players in the DDR and are known to enhance ataxia telangiectasia-mutated protein (ATM) activity at DNA lesions, and in this study, we identified a novel relationship between prelamin A accumulation and ERK1/2 nuclear compartmentalisation during VSMC ageing. We show both prelamin A accumulation and increased DNA damage occur concomitantly, before VSMC replicative senescence, and induce the localisation of ERK1/2 to promyelocytic leukaemia protein nuclear bodies (PML NBs) at the sites of DNA damage via nesprin-2 and lamin A interactions. Importantly, VSMCs treated with DNA damaging agents also displayed prelamin A accumulation and ERK compartmentalisation at PML NBs, suggesting that prelamin A and nesprin-2 are novel components of the DDR. In support of this, disruption of ERK compartmentalisation at PML NBs, by either depletion of nesprin-2 or lamins A/C, resulted in the loss of ATM from DNA lesions. However, ATM signalling and DNA repair remained intact after lamins A/C depletion, whereas nesprin-2 disruption ablated downstream Chk2 activation and induced genomic instability. We conclude that lamins A/C and PML act as scaffolds to organise DNA-repair foci and compartmentalise nesprin-2/ERK signalling. However, nesprin-2/ERK signalling fidelity, but not their compartmentalisation at PML NBs, is essential for efficient DDR in VSMCs.
Highlights
The nuclear lamina is composed of A-type and B-type lamins that underlie the nuclear envelope (NE) and extend throughout the nucleoplasm[4] to form a scaffold that is essential for the compartmentalisation and the integrity of nuclear signalling.[4]
Early-passage cells proliferated with a population-doubling time (PDT) of 2–5 days showed no evidence of DNA damage, measured by formation of γH2AX and 53BP1 foci, and did not accumulate prelamin A (Figures 1a–g and Supplementary Figures 1 and 2)
We show that vascular smooth muscle cell (VSMC) ageing in vitro is characterized by three distinct growth phases: rapid proliferation in young cells is followed by a presenescent phase characterised by a slowing of cell growth and the accumulation of prelamin A, which is rapidly followed by growth arrest and cellular senescence
Summary
The nuclear lamina is composed of A-type (lamins A/C) and B-type (lamins B1/B2) lamins that underlie the nuclear envelope (NE) and extend throughout the nucleoplasm[4] to form a scaffold that is essential for the compartmentalisation and the integrity of nuclear signalling.[4]. The nesprin family of spectrin-repeat (SR) proteins were first identified as NE lamin A-binding proteins Both nesprin-1 and nesprin-2 show extensive alternate splicing, and variants have been shown to localise to multiple nuclear and cytoplasmic compartments.[9] One such variant, In this study, we identify a novel signalling complex that regulates compartmentalisation of ERK1/2 during the DDR in VSMCs. We show that the nuclear lamina tethers PML NBs and spatially organises nuclear signalling events. We show that the nuclear lamina tethers PML NBs and spatially organises nuclear signalling events Disruption of this organisation results in ATM mislocalisation from DNArepair foci and impairs downstream DNA-repair signalling, leading to genomic instability
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