Scientific Reports (Apr 2021)

Human WRN is an intrinsic inhibitor of progerin, abnormal splicing product of lamin A

  • So-mi Kang,
  • Min-Ho Yoon,
  • Su-Jin Lee,
  • Jinsook Ahn,
  • Sang Ah Yi,
  • Ki Hong Nam,
  • Soyoung Park,
  • Tae-Gyun Woo,
  • Jung-Hyun Cho,
  • Jaecheol Lee,
  • Nam-Chul Ha,
  • Bum-Joon Park

DOI
https://doi.org/10.1038/s41598-021-88325-1
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 14

Abstract

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Abstract Werner syndrome (WRN) is a rare progressive genetic disorder, caused by functional defects in WRN protein and RecQ4L DNA helicase. Acceleration of the aging process is initiated at puberty and the expected life span is approximately the late 50 s. However, a Wrn-deficient mouse model does not show premature aging phenotypes or a short life span, implying that aging processes differ greatly between humans and mice. Gene expression analysis of WRN cells reveals very similar results to gene expression analysis of Hutchinson Gilford progeria syndrome (HGPS) cells, suggesting that these human progeroid syndromes share a common pathological mechanism. Here we show that WRN cells also express progerin, an abnormal variant of the lamin A protein. In addition, we reveal that duplicated sequences of human WRN (hWRN) from exon 9 to exon 10, which differ from the sequence of mouse WRN (mWRN), are a natural inhibitor of progerin. Overexpression of hWRN reduced progerin expression and aging features in HGPS cells. Furthermore, the elimination of progerin by siRNA or a progerin-inhibitor (SLC-D011 also called progerinin) can ameliorate senescence phenotypes in WRN fibroblasts and cardiomyocytes, derived from WRN-iPSCs. These results suggest that progerin, which easily accumulates under WRN-deficient conditions, can lead to premature aging in WRN and that this effect can be prevented by SLC-D011.