Arsenic-induced cutaneous hyperplastic lesions are associated with the dysregulation of Yap, a Hippo signaling-related protein.

Arsenic exposure in humans causes a number of toxic manifestations in the skin including cutaneous neoplasm. However, the mechanism of these alterations remains elusive. Here, we provide novel observations that arsenic induced Hippo signaling pathway in the murine skin. This pathway plays crucial roles in determining organ size during the embryonic development and if aberrantly activated in adults, contributes to the pathogenesis of epithelial neoplasm. Arsenic treatment enhanced phosphorylation-dependent activation of LATS1 kinase and other Hippo signaling regulatory proteins Sav1 and MOB1. Phospho-LATS kinase is known to catalyze the inactivation of a transcriptional co-activator, Yap. However, in arsenic-treated epidermis, we did not observed its inactivation. Thus, as expected, unphosphorylated-Yap was translocated to the nucleus in arsenic-treated epidermis. Yap by binding to the transcription factors TEADs induces transcription of its target genes. Consistently, an up-regulation of Yap-dependent target genes Cyr61, Gli2, Ankrd1 and Ctgf was observed in the skin of arsenic-treated mice. Phosphorylated Yap is important in regulating tight and adherens junctions through its binding to αCatenin. We found disruption of these junctions in the arsenic-treated mouse skin despite an increase in αCatenin. These data provide evidence that arsenic-induced canonical Hippo signaling pathway and Yap-mediated disruption of tight and adherens junctions are independently regulated. These effects together may contribute to the carcinogenic effects of arsenic in the skin.

Mammalian STE20-like kinase-1/2 are activated in human platelets stimulated by collagen or thrombin and play a vital role in collagen-activated platelets.

INTRODUCTION: Mammalian ste20-like kinases-1/2 (MST1/2), the core kinases of the Hippo pathway, play critical roles in the biology of hematopoietic cells via noncanonical mechanisms and contributes to megakaryocyte differentiation, polyploidization, and maturation to produce platelets. However, the role of MST1/2 in platelet functions remains unclear. MATERIALS AND METHODS: In this study, we investigated this topic by determining platelet aggregation and through flow cytometry, ATP release assay, clot retraction assay, and immunoblotting analysis. RESULTS: We found that MST1/2 were rapidly phosphorylated and activated upon platelet stimulation by thrombin and collagen. XMU-MP-1, a specific inhibitor of MST1/2, blocks the activation of MST1/2 in platelets. Inhibitor-pretreated platelets showed impaired platelet aggregation and dense-granule secretion mediated by collagen, thrombin, and U46619, whereas ristocetin or ADP mediated platelet aggregation was unaffected by XMU-MP-1. Although platelet-mediated clot retraction was not affected by MST1/2 inhibitors, integrin αIIbß3 activation was significantly attenuated in XMU-MP-1-treated platelets. Moreover, MST1/2 inhibition significantly attenuated the mobilization of platelet calcium ions and the secretion of α-granules induced by convulxin. CONCLUSIONS: This study is the first to demonstrate that MST1/2 play vital roles in human platelets and contributes to collagen-induced platelet activation and aggregation.

[Activation of Hippo Pathway Proteins in Thrombin-Stimulated Platelets and Regutates Platelets Activation in Vitro].

OBJECTIVE: To investigate the phosphorylation levels of Hippo pathway proteins in thrombin stimulated platelets and to explore its effects on platelet activation. METHODS: The phosphorylation levels of Hippo pathway proteins - Mammalian STE20-like kinase 1/2 (MST1/2), Nuclear Dbf2 related kinase 1/2 (NDR1/2) and Mps one binder 1(MOB1) in human thrombin stimulated platelets was detected by Western blot. The effect of MST1/2 inhibitor XMU-MP-1 on platelet aggregation was detected by Platelet Aggregometer. The effect of XMU-MP-1 on platelet integrin αIIbß3 activation and CD62p expression was detected by flow cytometry. The effect of XMU-MP-1 on the "outside-in" signal of platelet integrin was detected by blood clot retraction test. The effects of XMU-MP-1 on platelet Hippo pathway proteins and p38 phosphorylation levels was detected by Western blot. RESULTS: The phosphorylation levels of MST1/2, NDR1/2 and MOB1 were significantly increased in thrombin activated platelets; XMU-MP-1 inhibited thrombin-induced platelet aggregation and αIIbß3 activation, but did not affect α-granules release and clot retraction. In addition, thrombin induced phosphorylation of the Hippo proteins were decreased in XMU-MP-1 treated platelets, while the phosphorylation of p38 was not affected. CONCLUSION: In thrombin stimulated platelets, Hippo pathway proteins were activated and contributed to platelets activation.