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MST2 kinase localises at the nucleoli and targets phosphorylation of H2BS14p in an ATM-dependent manner. Ablation of MST2 kinase, or upstream activators, results in defective establishment of nucleolar H2BS14p, perturbed DNA damage repair, sensitisation to rDNA damage and increased cell lethality.
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These results suggest Salvador enhances the effects of Hippo kinase activity at multiple points in the Hippo pathway.
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Integration analysis of esophageal squamous cell carcinoma (ESCC) identified five hyper-methylated CpG sites in STK3, ZNF418 and ZNF542 that can be used for effective methylation-based testing for ESCC diagnosis.
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High MST2 expression is associated with malignant melanoma.
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Here, the authors discover SAV1-mediated inhibition of the PP2A complex STRIPAK(SLMAP) as a key mechanism of MST1/2 activation.
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Through a comprehensive set of biochemical, biophysical, mutational and structural studies, we quantitatively assess how phosphorylation of MOB1A regulates its interaction with both MST kinases and LATS/NDR family kinases in vitro.
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In this study, we investigated the mechanisms behind the recruitment of MST1 and MST2 kinases to MOB1, which facilitate signal transmission in the Hippo pathway by bringing the MST1 and MST2 kinases in close vicinity to their substrates, the LATS family kinases.
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Findings indicate that long-term exposure to IM results in dysregulation of stem cell renewal-regulatory Hippo (MST1/2)/YAP signaling, and that inhibition of miR-181a using a microRNA sponge inhibitor resulted in decreased transcription of SOX2 and SALL4.
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These findings reveal a novel layer of regulation for MST2 in mitosis and its role in tumorigenesis.
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TNFAIP8 regulates Hippo (MST1/2) signaling through its interaction with LATS1.
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Data suggest that Hippo (MST1/2 protein kinases) - Yes associated protein 1 (YAP) pathway involved in carcinogenesis of pancreatic cancer and in the inhibition effect of stiehopus japonieus acidic mucopolysaccharide (SJAMP) to the proliferation of pancreatic cancer cell.
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H-ras, via an Erk-dependent mechanism, downregulates Mst1/Mst2 activity by inducing the formation of inactive Mst1/Mst2 heterodimers.
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Results show that STK3 is targeted by Casp6 and demonstrate that alterations in STK3 protein expression levels and post-translational modifications are detected in a cellular model of HD and caspase-mediated generation of STK3 fragments observed under conditions of stress in cells expressing mhtt.
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using an Mst2 mutation that disrupts homotypic dimerization, we showed that the monomeric Mst2-SARAH domain could form a stable complex of 1:1 stoichiometric ratio with WW45 refolded under acidic pH.
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The MST1/2-SAV1 complex, a core component of the Hippo pathway, promotes ciliogenesis.
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These results suggest that AIF downregulation is a common event in kidney tumor development. AIF loss may lead to decreased STK3 activity, defective apoptosis and malignant transformation
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Hippo and Yap regulate cardiomyocyte death and regeneration.
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results reveal a novel role of Mst2 in stress-dependent cardiac hypertrophy and remodeling in the adult mouse and likely human heart
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Results indicate that changes in phosphorylation orchestrate interactions between kinases and phosphatases in Hippo (MST1/2 protein kinases) signaling, providing a putative mechanism for pathway regulation.
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RASSF5 can act as an inhibitor or a potential positive regulator of Mst2, depending on whether it binds to Mst2 before or after activation-loop phosphorylation.
