Project description:Studies in drosophila have suggested that Merlin/NF2 suppresses tumorigenesis by activating upstream components of the Hippo pathway at or near the plasma membrane. In contrast, studies of Merlin-deficient tumor cells have indicated that Merlin suppresses tumorigenesis by entering into the nucleus where it inhibits the E3 ubiquitin ligase CRL4DCAF1. We found that CRL4DCAF1 promotes YAP and TEAD-dependent transcription by ubiquitylating and thereby inhibiting Lats1 and 2 in the nucleus. Genetic epistasis experiments and analysis of tumor-derived missense mutations indicate that this signaling connection sustains the oncogenicity of Merlin-deficient tumor cells. Analysis of clinical samples confirms that this pathway operates in NF2 mutant mesotheliomas, schwannomas and meningiomas. We conclude that de-repressed CRL4DCAF1 controls the output of the Hippo pathway by inhibiting Lats1 and 2 in the nucleus.

Project description:Current models imply that the FERM domain protein Merlin, encoded by the tumor suppressor NF2, inhibits mitogenic signaling at or near the plasma membrane. Here, we show that the closed, growth inhibitory form of Merlin accumulates in the nucleus, binds to the E3 ubiquitin ligase CRL4DCAF1, and suppresses its activity. Depletion of DCAF1 blocks the promitogenic effect of inactivation of Merlin. Conversely, enforced expression of a Merlin-insensitive mutant of DCAF1 counteracts the antimitogenic effect of Merlin. Re-expression of Merlin and silencing of DCAF1 induce a similar, tumor-suppressive program of gene expression. Tumor-derived mutations invariably disrupt Merlin’s ability to interact with or inhibit CRL4DCAF1. Finally, depletion of DCAF1 inhibits the hyperproliferation of Schwannoma cells from NF2 patients and suppresses the oncogenic potential of Merlin-deficient tumor cell lines. We propose that Merlin suppresses tumorigenesis by translocating to the nucleus to inhibit CRL4DCAF1. To examine if Merlin controls gene expression through inhibition of CRL4DCAF1, and define the general function of this ligase, we compared the gene expression program activated by expression of Merlin or by depletion of DCAF1 in Merlin-null FC-1801 mouse Schwannoma cells

Project description:To investigate the effect of Merlin rescue on cell proliferation in 3D, we grew subcutaneous xenografts from NF2-deficient CH-157MN meningioma cells harboring doxycycline inducible WT-Merlin. Mice were treated with or without doxycycline and Merlin induction was confirmed 24 hours after induction with Western blot. We performed single-cell RNA sequencing on five Merlin-deficient tumors and seven Merlin rescue tumors

Project description:Current models imply that the FERM domain protein Merlin, encoded by the tumor suppressor NF2, inhibits mitogenic signaling at or near the plasma membrane. Here, we show that the closed, growth inhibitory form of Merlin accumulates in the nucleus, binds to the E3 ubiquitin ligase CRL4DCAF1, and suppresses its activity. Depletion of DCAF1 blocks the promitogenic effect of inactivation of Merlin. Conversely, enforced expression of a Merlin-insensitive mutant of DCAF1 counteracts the antimitogenic effect of Merlin. Re-expression of Merlin and silencing of DCAF1 induce a similar, tumor-suppressive program of gene expression. Tumor-derived mutations invariably disrupt Merlin’s ability to interact with or inhibit CRL4DCAF1. Finally, depletion of DCAF1 inhibits the hyperproliferation of Schwannoma cells from NF2 patients and suppresses the oncogenic potential of Merlin-deficient tumor cell lines. We propose that Merlin suppresses tumorigenesis by translocating to the nucleus to inhibit CRL4DCAF1.

Project description:Neurofibromatosis type 2 is an inherited neoplastic disease consisting of schwannomas, meningiomas, and ependymomas that is caused by inactivation of the tumor suppressor gene NF2. The NF2 gene product, merlin, has no intrinsic catalytic activity; its tumor suppressor function is mediated through the proteins with which it interacts. However, there is no consensus about which merlin interactions are necessary for tumor suppression. We used proximity biotinylation followed by mass spectrometry and direct binding assays to characterize the proteins that associate with merlin and merlin mutants in immortalized Schwann cells. We identified 52 proteins that associate with merlin, including a previously unreported merlin binding protein, ASPP2. Our results identify merlin as a component of mechanosensing signal transduction pathways in cell junctions, in the context of a specific set of structures and molecules through which it acts, in a cell type relevant to schwannoma formation.

Project description:Global downregulation of microRNAs (miRNAs) is commonly observed in human cancers and can have a causative role in tumorigenesis. The mechanisms responsible for this phenomenon remain poorly understood. Here we show that YAP, the downstream target of the tumor-suppressive Hippo signaling pathway regulates miRNA biogenesis in a cell density-dependent manner. At low cell density, nuclear YAP binds and sequesters p72 (DDX17), a regulatory component of the miRNA processing machinery. At high cell density, Hippo-mediated cytoplasmic retention of YAP facilitates p72 association with Microprocessor and binding to a specific sequence motif in pri-miRNAs. Inactivation of the Hippo pathway or expression of constitutively active YAP causes widespread miRNA suppression in cells and tumors and a corresponding post-transcriptional induction of MYC expression. Thus, the Hippo pathway links contact-inhibition regulation to miRNA biogenesis and may be responsible for the widespread miRNA repression observed in cancer. Two conditions (liver normal tissues and liver tumors) were analyzed in duplicate.

Project description:We have found a broad case of tumour suppressor hypersensitivity for Merlin in cancer: Merlin expression in Merlin deficient cells (but not Merlin wild type cells) strongly suppresses proliferation regardless of tumour type or of additional somatic mutations. To study how Merlin selectively induced growth arrest in Merlin-deficient cells, global gene expression regulation by Merlin was examined by microarray in a set of four cell line pairs derived from different tumour types Four Merlin-deficient and four Merlin wild type cell lines derived from four different tissues/tumour types (meninges, thyroid, kidney, breast) were infected with pLEX lentiviruses (Open Biosystems) expressing either wt Merlin or Merlin L46R (a tumour-derived loss-of-function mutant, used as a control). 24 hours after infection, fresh media containing 2.5ug/ml puromycin was added (drug selection) and cells grown for a further 24 hours, i.e. cells were harvested 48hour after infection. RNA was analyzed using GeneChip Human Gene 2.0 ST arrays (Affymetrix). n=2 for Merlin-deficient cell lines; n=1 for Merlin wt cell lines

Project description:We have found a broad case of tumour suppressor hypersensitivity for Merlin in cancer: Merlin expression in Merlin deficient cells (but not Merlin wild type cells) strongly suppresses proliferation regardless of tumour type or of additional somatic mutations. To study how Merlin selectively induced growth arrest in Merlin-deficient cells, global gene expression regulation by Merlin was examined by microarray in a set of four cell line pairs derived from different tumour types

Project description:Ferroptotic cell death is dependent on unrestricted lipid peroxidation rather than activation of apoptotic effector caspases. A large number of ferroptosis activators have been reported recently. We used gene sequencing to analyze the effects of four ferroptosis activators (RSL3, N6F11, Fin56 and Erastin) on global gene expression in human PDAC1 cell line.

Project description:Ferroptosis is a new type of programmed cell death induced by iron-dependent lipid peroxidation that has been linked to several malignancies, including non-small cell lung cancer (NSCLC). Finding ferroptosis-associated genes is extremely helpful for guiding and improving ferroptosis-based anti-tumor therapy. To explore ferroptosis-associated genes, we treated A549 cells with DMSO, RSL3 alone, or co-treated with Fer-1 for 24h. Lung cancer-associated transcript 1 (LUCAT1) was identified as a novel ferroptosis suppressor via RNA-seq analysis.