Abstract
Vimentin, a type III intermediate filament (IF) protein, is phosphorylated predominantly in mitosis. The expression of a phosphorylation-compromised vimentin mutant in T24 cultured cells leads to cytokinetic failure, resulting in binucleation (multinucleation). The physiological significance of intermediate filament phosphorylation during mitosis for organogenesis and tissue homeostasis was uncertain. Here, we generated knock-in mice expressing vimentin that have had the serine sites phosphorylated during mitosis substituted by alanine residues. Homozygotic mice (VIM(SA/SA)) presented with microophthalmia and cataracts in the lens, whereas heterozygotic mice (VIM(WT/SA)) were indistinguishable from WT (VIM(WT/WT)) mice. In VIM(SA/SA) mice, lens epithelial cell number was not only reduced but the cells also exhibited chromosomal instability, including binucleation and aneuploidy. Electron microscopy revealed fiber membranes that were disorganized in the lenses of VIM(SA/SA), reminiscent of similar characteristic changes seen in age-related cataracts. Because the mRNA level of the senescence (aging)-related gene was significantly elevated in samples from VIM(SA/SA), the lens phenotype suggests a possible causal relationship between chromosomal instability and premature aging.
Highlights
Vimentin, an intermediate filament (IF) protein, is phosphorylated in mitosis
By transient expression of type III IF proteins mutated at these mitotic phosphorylation sites to Ala, we found that preventing the phosphorylation of IFs during cell division inhibited cytokinesis by the retention of an IF bridge that connected the two daughter cells
Western blot analyses of embryos showed no significant difference in vimentin protein levels between WT (VIMWT/WT), heterozygous (VIMWT/SA), and homozygous (VIMSA/SA) mice (Fig. 1F)
Summary
Results: Disruption of vimentin phosphorylation during cell division leads to chromosomal instability (CIN) and premature aging in mouse lens tissue. Because the mRNA level of the senescence (aging)-related gene was significantly elevated in samples from VIMSA/SA, the lens phenotype suggests a possible causal relationship between chromosomal instability and premature aging. By transient expression of type III IF proteins mutated at these mitotic phosphorylation sites to Ala, we found that preventing the phosphorylation of IFs during cell division inhibited cytokinesis by the retention of an IF bridge that connected the two daughter cells. Homozygotic mice bearing such mutations (VIMSA/SA) presented with microophthalmia and lens cataract as phenotypes. The mRNA level of the senescence (aging)-related gene was significantly elevated in the lens of VIMSA/SA
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