Phase separation of SHP2E76K promotes malignant transformation of mesenchymal stem cells by activating mitochondrial complexes
Chen Kan, Zhenya Tan, Liwei Liu, Bo Liu, Li Zhan, Jicheng Zhu, Xiaofei Li, Keqiong Lin, Jia Liu, Yakun Liu, Fan Yang, Mandy Wong, Siying Wang, Hong Zheng
Chen Kan, Zhenya Tan, Liwei Liu, Bo Liu, Li Zhan, Jicheng Zhu, Xiaofei Li, Keqiong Lin, Jia Liu, Yakun Liu, Fan Yang, Mandy Wong, Siying Wang, Hong Zheng
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Research Article Oncology Stem cells

Phase separation of SHP2E76K promotes malignant transformation of mesenchymal stem cells by activating mitochondrial complexes

Abstract

Mesenchymal stem cells (MSCs), suffering from diverse gene hits, undergo malignant transformation and aberrant osteochondral differentiation. Src homology region 2–containing protein tyrosine phosphatase 2 (SHP2), a nonreceptor protein tyrosine phosphatase, regulates multicellular differentiation, proliferation, and transformation. However, the role of SHP2 in MSC fate determination remains unclear. Here, we showed that MSCs bearing the activating SHP2E76K mutation underwent malignant transformation into sarcoma stem-like cells. We revealed that the SHP2E76K mutation in mouse MSCs led to hyperactive mitochondrial metabolism by activating mitochondrial complexes I and III. Inhibition of complexes I and III prevented hyperactive mitochondrial metabolism and malignant transformation of SHP2E76K MSCs. Mechanistically, we verified that SHP2 underwent liquid-liquid phase separation (LLPS) in SHP2E76K MSCs. SHP2 LLPS led to its dissociation from complexes I and III, causing their hyperactivation. Blockade of SHP2 LLPS by LLPS-defective mutations or allosteric inhibitors suppressed complex I and III hyperactivation as well as malignant transformation of SHP2E76K MSCs. These findings reveal that complex I and III hyperactivation driven by SHP2 LLPS promotes malignant transformation of SHP2E76K MSCs and suggest that inhibition of SHP2 LLPS could be a potential therapeutic target for the treatment of activated SHP2–associated cancers.

Authors

Chen Kan, Zhenya Tan, Liwei Liu, Bo Liu, Li Zhan, Jicheng Zhu, Xiaofei Li, Keqiong Lin, Jia Liu, Yakun Liu, Fan Yang, Mandy Wong, Siying Wang, Hong Zheng

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Figure 7

Two allosteric inhibitors of SHP2 (SHP099 and ET070) prevent LLPS, hyperactive energy metabolism, and malignant transformation of SHP2E76K MSCs.

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Two allosteric inhibitors of SHP2 (SHP099 and ET070) prevent LLPS, hyper...
(A) Schematic diagram depicting the effect of SHP2 inhibitors on mitochondrial complexes I and III and malignant transformation in SHP2E76K MSCs. (B and C) Representative IF images (B) and statistical analysis (C) of SHP2 droplets in SHP2E76K MSCs treated with SHP099 and ET070 (n = 3 per group). Data are represented as the mean ± SD. ***P < 0.001 (1-way ANOVA with multiple-comparison test). (D) Immunoprecipitation of SHP2 in WT and SHP2E76K MSCs with or without SHP099 treatment and analyzed using immunoblot analysis with the indicated antibodies. (E and F) Statistical analysis of complex I (E) and complex III activity (F) in WT and SHP2E76K MSCs (n = 4 or 5 per group) treated with SHP099 and ET070. Data are represented as the mean ± SD. **P < 0.01, ***P < 0.001, ****P < 0.0001 (1-way ANOVA with multiple-comparison test). (GI) Statistical analysis of glucose consumption (G), MMP (H), and ROS (I) in SHP2E76K MSCs treated with SHP099 or ET070. Data are represented as the mean ± SD. *P < 0.05, ***P < 0.001, ****P < 0.0001 (1-way ANOVA with multiple-comparison test). (J) Statistical analysis of tumor spheroids in SHP2E76K MSCs following SHP099 and ET070 treatment. Data are represented as the mean ± SD. **P < 0.01, ***P < 0.001 (1-way ANOVA with multiple-comparison test). (K and L) Representative images (K) and incidence (L) of tumors induced by SHP2E76K MSCs treated with or without SHP2 allosteric inhibitors (i.e., SHP099 or ET070) (n = 10 per group).