O-GlcNAcylation on LATS2 disrupts the Hippo pathway by inhibiting its activity.

The Hippo pathway controls organ size and tissue homeostasis by regulating cell proliferation and apoptosis. The LATS-mediated negative feedback loop prevents excessive activation of the effectors YAP/TAZ, maintaining homeostasis of the Hippo pathway. YAP and TAZ are hyperactivated in various cancer cells which lead to tumor growth. Aberrantly increased O-GlcNAcylation has recently emerged as a cause of hyperactivation of YAP in cancer cells. However, the mechanism, which induces hyperactivation of TAZ and blocks LATS-mediated negative feedback, remains to be elucidated in cancer cells. This study found that in breast cancer cells, abnormally increased O-GlcNAcylation hyperactivates YAP/TAZ and inhibits LATS2, a direct negative regulator of YAP/TAZ. LATS2 is one of the newly identified O-GlcNAcylated components in the MST-LATS kinase cascade. Here, we found that O-GlcNAcylation at LATS2 Thr436 interrupted its interaction with the MOB1 adaptor protein, which connects MST to LATS2, leading to activation of YAP/TAZ by suppressing LATS2 kinase activity. LATS2 is a core component in the LATS-mediated negative feedback loop. Thus, this study suggests that LATS2 O-GlcNAcylation is deeply involved in tumor growth by playing a critical role in dysregulation of the Hippo pathway in cancer cells.

Kim E ，Kang JG ，Kang MJ ，Park JH ，Kim YJ ，Kweon TH ，Lee HW ，Jho EH ，Lee YH ，Kim SI ，Yi EC ，Park HW ，Yang WH ，Cho JW ... -  《-》

A YAP/TAZ-induced feedback mechanism regulates Hippo pathway homeostasis.

YAP (Yes-associated protein) and TAZ (transcriptional coactivator with PDZ-binding motif) are major downstream effectors of the Hippo pathway that influences tissue homeostasis, organ size, and cancer development. Aberrant hyperactivation of YAP/TAZ causes tissue overgrowth and tumorigenesis, whereas their inactivation impairs tissue development and regeneration. Dynamic and precise control of YAP/TAZ activity is thus important to ensure proper physiological regulation and homeostasis of the cells. Here, we show that YAP/TAZ activation results in activation of their negative regulators, LATS1/2 (large tumor suppressor 1/2) kinases, to constitute a negative feedback loop of the Hippo pathway in both cultured cells and mouse tissues. YAP/TAZ in complex with the transcription factor TEAD (TEA domain family member) directly induce LATS2 expression. Furthermore, YAP/TAZ also stimulate the kinase activity of LATS1/2 through inducing NF2 (neurofibromin 2). This feedback regulation is responsible for the transient activation of YAP upon lysophosphatidic acid (LPA) stimulation and the inhibition of YAP-induced cell migration. Thus, this LATS-mediated feedback loop provides an efficient mechanism to establish the robustness and homeostasis of YAP/TAZ regulation.

Moroishi T ，Park HW ，Qin B ，Chen Q ，Meng Z ，Plouffe SW ，Taniguchi K ，Yu FX ，Karin M ，Pan D ，Guan KL ... -  《-》

The characterisation of LATS2 kinase regulation in Hippo-YAP signalling.

By controlling the YAP1 proto-oncoprotein Hippo signalling plays important roles in cancer-associated processes. Current evidence suggests that the Hippo kinases MST1/2 together with the MOB1 scaffold protein promote the formation of active MOB1/LATS complexes which phosphorylate and thereby inhibit YAP1. However, the regulatory mechanisms of MST1/2-MOB1-LATS signalling are currently underinvestigated. Therefore, we studied LATS2 variants carrying specific modifications that mimic gain or loss of phosphorylation and/or abolish MOB1/LATS2 interactions. We discovered that Ser872 T-loop and Thr1041 hydrophobic motif (HM) phosphorylation of LATS2 is essential for LATS2 activation. MST1/2 phosphorylate LATS2 on Thr1041, but not Ser872, while MOB1 binding to LATS2 supports both phosphorylation events. Significantly, LATS2-PIF, a LATS2 variant containing the PRK2 HM, acts as a hyperactive LATS2 kinase that efficiently phosphorylates YAP1 and inhibits the transcriptional co-activity of YAP1. This inhibitory function of LATS2-PIF is dependent on LATS2 kinase activity, while MOB1/LATS2 and YAP1/LATS2 complex formation is dispensable, suggesting that elevated LATS2 kinase activity can be sufficient to oppose YAP1. Taken together, our characterisation of LATS2 variants uncovers novel insights into the regulation of LATS kinases in Hippo signalling.

Hoa L ，Kulaberoglu Y ，Gundogdu R ，Cook D ，Mavis M ，Gomez M ，Gomez V ，Hergovich A ... -  《-》

Sphingosylphosphorylcholine regulates the Hippo signaling pathway in a dual manner.

Sphingosylphosphorylcholine (SPC) is a bioactive sphingolipid which regulates many cancer-related processes, including cellular proliferation. The Hippo signaling pathway consists of a cascade of tumor suppressive kinases Mst1/2 and Lats1/2 and their downstream targets YAP and TAZ which are generally pro-proliferative transcriptional regulators. Direct phosphorylation by Lats1/2 causes inhibition or degradation of YAP/TAZ and down-regulation of their target genes. We found SPC treatment of MDA-MB-435S breast cancer cells to strongly inhibit their proliferation and to induce a sustained Lats2 protein expression (6-24h). Therefore, we hypothesized that Hippo signaling might mediate the anti-proliferative SPC response. We also saw a cell density-dependent increase in S127-phosphorylated YAP (pS127-YAP) and a decrease in mRNA levels of YAP target genes (CTGF, Cyr61) in response to long (9h) SPC treatment. Knockdown of S1P receptor 2 (S1P2) prevented the SPC-induced up-regulation of Lats2 and attenuated the anti-proliferative effect of SPC. However, while knockdown of Lats2 alone or in combination with Lats1 expectedly increased basal proliferation it did not attenuate the SPC-induced inhibition of proliferation. Exogenous expression of wild-type or kinase-dead Lats2 and knockdown of YAP/TAZ also had no effect on the anti-proliferative SPC response. It has been previously shown that activation of S1P2-G12/13 by sphingosine-1-phosphate (S1P) leads to rapid de-phosphorylation and up-regulation of YAP. Similarly, we saw a decrease in pS127-YAP and an increase in total YAP levels with short (1h) SPC treatment as well as a subsequent transient increase in YAP target gene expression. Inhibition of S1P2 prevented the SPC-induced YAP de-phosphorylation. The rapid YAP activation and subsequent up-regulation of Lats2 mRNA does not constitute a negative feedback loop as knockdown of YAP/TAZ did not inhibit SPC-induced Lats2 expression. In conclusion, in this study we show that SPC is able to regulate Hippo signaling in a dual and opposite manner, causing an initial activation of YAP followed by an inhibition. However, even the strong SPC-induced effects seen in Lats2 and YAP did not mediate the anti-proliferative SPC response.

Kemppainen K ，Wentus N ，Lassila T ，Laiho A ，Törnquist K ... -  《-》

An evolutionarily conserved negative feedback mechanism in the Hippo pathway reflects functional difference between LATS1 and LATS2.

Park GS ，Oh H ，Kim M ，Kim T ，Johnson RL ，Irvine KD ，Lim DS ... -  《Oncotarget》