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Merck
  • LncRNAs-directed PTEN enzymatic switch governs epithelial-mesenchymal transition.

LncRNAs-directed PTEN enzymatic switch governs epithelial-mesenchymal transition.

Cell research (2019-01-12)
Qingsong Hu, Chunlai Li, Shouyu Wang, Yajuan Li, Bo Wen, Yanyan Zhang, Ke Liang, Jun Yao, Youqiong Ye, Heidi Hsiao, Tina K Nguyen, Peter K Park, Sergey D Egranov, David H Hawke, Jeffrey R Marks, Leng Han, Mien-Chie Hung, Bing Zhang, Chunru Lin, Liuqing Yang
초록

Despite the structural conservation of PTEN with dual-specificity phosphatases, there have been no reports regarding the regulatory mechanisms that underlie this potential dual-phosphatase activity. Here, we report that K27-linked polyubiquitination of PTEN at lysines 66 and 80 switches its phosphoinositide/protein tyrosine phosphatase activity to protein serine/threonine phosphatase activity. Mechanistically, high glucose, TGF-β, CTGF, SHH, and IL-6 induce the expression of a long non-coding RNA, GAEA (Glucose Aroused for EMT Activation), which associates with an RNA-binding E3 ligase, MEX3C, and enhances its enzymatic activity, leading to the K27-linked polyubiquitination of PTEN. The MEX3C-catalyzed PTENK27-polyUb activates its protein serine/threonine phosphatase activity and inhibits its phosphatidylinositol/protein tyrosine phosphatase activity. With this altered enzymatic activity, PTENK27-polyUb dephosphorylates the phosphoserine/threonine residues of TWIST1, SNAI1, and YAP1, leading to accumulation of these master regulators of EMT. Animals with genetic inhibition of PTENK27-polyUb, by a single nucleotide mutation generated using CRISPR/Cas9 (PtenK80R/K80R), exhibit inhibition of EMT markers during mammary gland morphogenesis in pregnancy/lactation and during cutaneous wound healing processes. Our findings illustrate an unexpected paradigm in which the lncRNA-dependent switch in PTEN protein serine/threonine phosphatase activity is important for physiological homeostasis and disease development.