Cytoskeleton-Anchoring of Conformational Mutant-Like p53, but Not Shorter Isoforms p53β and p47 (ΔN40p53) in Senescent Human Fibroblasts

波形蛋白 细胞骨架 赫拉 突变体 细胞生物学 生物 分子生物学 中间灯丝 基因亚型 细胞质 细胞培养 细胞 基因 生物化学 遗传学 免疫学 免疫组织化学
作者
Koji Nishio
出处
期刊:Current Aging Science [Bentham Science Publishers]
卷期号:10 (4)
标识
DOI:10.2174/1874609810666170523153639
摘要

Cytoskeleton anchoring of conformational mutant-like p53 is prominent in human senescent cells. The present research investigated the structural basis of vimentin cytoskeleton- anchoring of human p53.GFP-fused wild type p53, mutant p53, those of the various truncated isoforms including p53β and p47, were expressed in the vimentin-expressing cells: mouse fibroblasts, COS-7 cells, young and senescent human fibroblasts, and HeLa cells (non-vimentin-expressing).A cancer-specific mutant p53V143A-GFP expressed in mouse fibroblasts, exclusively anchored on the vimentin cytoskeleton. Class I mutant p53R175C-GFP and class II mutant p53R175S-GFP localized in the nuclei of COS-7 cells. A class III mutant p53R175X-GFP (X: D, F, W or Y), cancer-specific mutant p53V143A-GFP and p53R249S-GFP, exclusively anchored on the vimentin cytoskeleton of COS-7 cells. The deletions of p53R249S and p53V143A at the Cterminus (ΔC63) exclusively promoted the nuclear import of the deleted mutant p53 in COS-7 and HeLa cells, whereas the deletions at the N-terminus (ΔN40) or C-terminus (ΔC33) were ineffective. Thus, the cancer-specific mutant p53R249S and p53V143A adopt distinct mutant conformation and thereby the C-terminal region (aa331-360) potently interacts with the vimentin cytoskeleton and HeLa cells' cytoskeleton. Wild type p53-GFP exclusively localized in the nuclei of growing young fibroblast, in contrast to the significant cytoplasmic retention in senescent human fibroblasts. The deletion of p53 at the N-terminus or at the C-terminus (ΔN40 or ΔC63) results in a significant nuclear import of the shorter isoforms, p53β and p47.Senescent fibroblasts promote p53 to adopt a hotspot mutant like-conformation which significantly overrides the nuclear import due to the potent cytoskeleton-anchoring. Interestingly, the shorter p53 isoforms can escape from the cytoskeleton-anchoring.

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