Project description:The tumor suppressor gene RASSF1A (Ras association domain family protein 1A) coding for a microtubule stabilizing protein is epigenetically silenced in most human cancers. As a binding partner of the kinases MST1 and MST2, the mammalian orthologues of the Drosophila Hippo kinase, RASSF1A is a potential regulator of the Hippo tumor suppressor pathway. RASSF1A shares these properties with the scaffold protein SAV1. The role of this pathway in human cancer has remained enigmatic because Hippo pathway components are rarely mutated. Rassf1a homozygous knockout mice developed liver tumors. However, heterozygous deletion of Sav1 or co-deletion of Rassf1a and Sav1 produced liver tumors with much higher efficiency than single deletion of Rassf1a. Analysis of RASSF1A binding partners by mass spectrometry identified the Hippo kinases MST1, MST2 and the oncogenic IkB kinase TBK1 as the most significantly enriched RASSF1A-interacting proteins. The transcriptome of Rassf1a-/- livers was more deregulated than that of Sav1+/- livers and the transcriptome of Rassf1a-/-, Sav1+/- livers was similar to that of Rassf1a-/- mice. We found that the levels of Tbk1 protein were substantially upregulated in livers lacking Rassf1a, and at the transcript level, factors regulating Tbk1 stability, including Usp2 and Dtx4, were also dysregulated. Furthermore, transcripts of several beta tubulin isoforms were increased in the Rassf1a-deficient liver genotypes presumably reflecting a role of Rassf1a as a tubulin-binding and microtubule-stabilizing protein. Our data suggest a multifactorial role of Rassf1a in suppression of liver carcinogenesis. Analysis of gene expression in liver of wildtype 129 mice, Rassf1a-/- mice (RA), Sav1+/- mice (SA) and Rassf1a-/- Sav1+/- mice (RA_SA)

Project description:Hippo pathway is evolutionarily well conserved. All core components of the pathway identified to date have one or more mammalian orthologs, including MST1/2 (Hippo), SAV1 (Salvador, also known as WW45), LATS1/2 (Warts), MOB1 (Mats), YAP1 and its paralog WWTR1 (also known as TAZ) (Yorkie), and TEAD1/2/3/4 (Scalloped). Ectopic over-expression of YAP1 in mouse liver led to develop hepatocellular carcinoma (HCC). HCC is the third most common cause of cancer-related death in the world, and accounts for an estimated 600,000 deaths annually. Lack of molecular classification and clinical heterogeneity of this malignant disease hampered the development of standardized treatment. To investigate roles of Hippo pathway in liver carcinogenesis, we generated liver-specific Mst1/2 -/- and Sav1 -/- mouse models and collected gene expression data from them. Our study provided new understanding on molecular characteristics of HCC. Sav1 and Mst1/2 Knockout models

Project description:Mst1/Mst2 are central components of Hippo pathway. We examined the role of Mst1/Mst2 in ES cell differentiation. In this data set, we include expression data from day 4 and day 8 Mst1/Mst2 knockout ES cell formed embryoid bodies and wild type embryoid body controls. total 4 samples.

Project description:ShhCre;Mst1/2flx/flx (Mst1/2 D/D) mice were generated to conditionally delete Mst1 and Mst2 from epithelial progenitors during lung morphogenesis. Lungs from E18.5 control and Mst1/2 D/D mice were mechanically and enzymatically dissociated to generate single cell suspension. Epcam(+) cells were isolated using magnetic microbeads. Microarray analysis of mRNAs isolated from Epcam(+) epithelial cells from E18.5 control and Mst1/2 D/D mice was performed to identify transcriptional changes following deletion of the mammalian Hippo kinases (Mst1 and Mst2) from the embryonic lung. The mammalian Hippo kinases, Mst1 and Mst2, were conditionally deleted in epithelial progenitors of the developing lung using ShhCre. Epcam(+) epithelial cells were isolated from the lungs of E18.5 control and Mst1/2 deleted mice. mRNA isolated from Epcam(+) epithelial cells was analyzed by microarray.

Project description:Mst1/Mst2 are central components of Hippo pathway. We examined the role of Mst1/Mst2 in ES cell differentiation. In this data set, we include expression data from day 4 and day 8 Mst1/Mst2 knockout ES cell formed embryoid bodies and wild type embryoid body controls.

Project description:Defective Hippo/YAP signaling in the liver results in tissue overgrowth and development of hepatocellular carcinoma (HCC). Here, we uncover mechanisms of YAP-mediated hepatocyte reprogramming and HCC pathogenesis. We show that YAP functions as a rheostat maintaining metabolic specialization, differentiation and quiescence within the hepatocyte compartment. Importantly, treatment with siRNA-lipid nanoparticles (siRNA-LNPs) targeting YAP restores hepatocyte differentiation and causes pronounced tumor regression in a genetically engineered mouse HCC model (mice with liver-specific Mst1/Mst2 double knockout). Furthermore, YAP targets are enriched in an aggressive human HCC subtype characterized by a proliferative signature and absence of CTNNB1 mutations. Thus, our work reveals Hippo signaling as a key regulator of positional identity of hepatocytes, supports targeting YAP using siRNA-LNPs as a paradigm of differentiation-based therapy, and identifies an HCC subtype potentially responsive to this approach. Mice with liver-specific Mst1/Mst2 double-knockout (Adeno-Cre injected Mst1-/-; Mst2Flox/Flox mice) were monitored for the formation of HCC by ultrasound imaging. Animals were then randomized to be treated by intravenous injection of either siYap-LNPs or siLuciferase-LNPs for a period of 9 days.

Project description:Hippo pathway is evolutionarily well conserved. All core components of the pathway identified to date have one or more mammalian orthologs, including MST1/2 (Hippo), SAV1 (Salvador, also known as WW45), LATS1/2 (Warts), MOB1 (Mats), YAP1 and its paralog WWTR1 (also known as TAZ) (Yorkie), and TEAD1/2/3/4 (Scalloped). Ectopic over-expression of YAP1 in mouse liver led to develop hepatocellular carcinoma (HCC). HCC is the third most common cause of cancer-related death in the world, and accounts for an estimated 600,000 deaths annually. Lack of molecular classification and clinical heterogeneity of this malignant disease hampered the development of standardized treatment. To investigate roles of Hippo pathway in liver carcinogenesis, we generated liver-specific Mst1/2 -/- and Sav1 -/- mouse models and collected gene expression data from them. Our study provided new understanding on molecular characteristics of HCC.

Project description:Hippo kinases Mst1 and Mst2 act as molecular rheostats for the terminal maturation and effector differentiation programs of iNKT cells. Loss of Mst1 alone or with Mst2 impedes iNKT cell development, associated with defective IL-15-dependent cell survival

Project description:Hippo signaling regulates the homeostasis of multiple organs. Mst1 and Mst2 (Mst1/2) are critical components of the Hippo signaling pathway. Here, we utilized RNA sequencing to determine the transcriptional change in the esophageal epithelium upon Mst1/2 deletion. The analysis of gene expression profiles allows us to understand the role of Mst1/2 in the regulation of various biological processes in the esophageal epithelium.

Project description:ShhCre;Mst1/2flx/flx (Mst1/2 D/D) mice were generated to conditionally delete Mst1 and Mst2 from epithelial progenitors during lung morphogenesis. Lungs from E18.5 control and Mst1/2 D/D mice were mechanically and enzymatically dissociated to generate single cell suspension. Epcam(+) cells were isolated using magnetic microbeads. Microarray analysis of mRNAs isolated from Epcam(+) epithelial cells from E18.5 control and Mst1/2 D/D mice was performed to identify transcriptional changes following deletion of the mammalian Hippo kinases (Mst1 and Mst2) from the embryonic lung.