Abstract
SummaryA‐lamins, encoded by the LMNA gene, are major structural components of the nuclear lamina coordinating essential cellular processes. Mutations in the LMNA gene and/or alterations in its expression levels have been linked to a distinct subset of human disorders, collectively known as laminopathies, and to cancer. Mechanisms regulating A‐lamins are mostly obscure. Here, we identified E3 ubiquitin ligase Smurf2 as a physiological regulator of lamin A and its disease‐associated mutant form progerin (LAΔ50), whose expression underlies the development of Hutchinson‐Gilford progeria syndrome (HGPS), a devastating premature aging syndrome. We show that Smurf2 directly binds, ubiquitinates, and negatively regulates the expression of lamin A and progerin in Smurf2 dose‐ and E3 ligase‐dependent manners. Overexpression of catalytically active Smurf2 promotes the autophagic–lysosomal breakdown of lamin A and progerin, whereas Smurf2 depletion increases lamin A levels. Remarkably, acute overexpression of Smurf2 in progeria fibroblasts was able to significantly reduce the nuclear deformability. Furthermore, we demonstrate that the reciprocal relationship between Smurf2 and A‐lamins is preserved in different types of mouse and human normal and cancer tissues. These findings establish Smurf2 as an essential regulator of lamin A and progerin and lay a foundation for evaluating the efficiency of progerin clearance by Smurf2 in HGPS, and targeting of the Smurf2–lamin A axis in age‐related diseases such as cancer.
Highlights
The nuclear lamina (NL) is an essential component of metazoan cells
We identified Smurf2, a HECT type E3 ubiquitin ligase and recently discovered tumor suppressor (Blank et al, 2012; Emanuelli et al, 2017; Zou, Levy-Cohen & Blank, 2015), as the essential regulator of stability and protein turnover of lamin A and its disease-associated mutant form progerin
Using an ubiquitination reconstitution assay incorporating purified ubiquitin-activating enzyme (E1), ubiquitin conjugase (E2), HA-ubiquitin, GST-Smurf2, and Flag–lamin A or Flag–progerin, we showed that Smurf2 is capable to directly ubiquitinate lamin A and progerin in E3 ligase-dependent manner (Figure 2e,f and Figure S2g)
Summary
The nuclear lamina (NL) is an essential component of metazoan cells. In addition to conferring to the nucleus its shape and mechanical stability, NL is implicated in key nuclear functions including chromatin organization, transcription, DNA replication, and repair (Burke & Stewart, 2013; Dechat et al, 2008; Dittmer & Misteli, 2011). Research aimed at understanding disease progression and treatment options of HGPS led to characterization of many cellular functions for A-type lamins, revealing their intrinsic role in pathways that are known to contribute to tumor progression, including chromatin organization and DNA damage response, DNA replication, gene expression, proliferation, and genomic integrity regulation (Taddei, Hediger, Neumann & Gasser, 2004; Gruenbaum, Margalit, Goldman, Shumaker & Wilson, 2005; Lees-Miller, 2006; Singh et al, 2013; Bell & Lammerding, 2016) These studies revealed that lamin A coordinates numerous cellular processes and signaling pathways by providing an intranuclear platform for protein-protein interactions (Dittmer & Misteli, 2011; Kubben, Voncken & Misteli, 2010; Prasad, Kandasamy & Pandey, 2009). We demonstrated that the reciprocal relationship between Smurf and A-lamins is preserved in different types of mouse and human cells and tissues
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