9 research outputs found

    Expanded directly binds conserved regions of Fat to restrain growth via the Hippo pathway

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    The Hippo pathway is a conserved and critical regulator of tissue growth. The FERM protein Expanded is a key signaling hub that promotes activation of the Hippo pathway, thereby inhibiting the transcriptional co-activator Yorkie. Previous work identified the polarity determinant Crumbs as a primary regulator of Expanded. Here, we show that the giant cadherin Fat also regulates Expanded directly and independently of Crumbs. We show that direct binding between Expanded and a highly conserved region of the Fat cytoplasmic domain recruits Expanded to the apicolateral junctional zone and stabilizes Expanded. In vivo deletion of Expanded binding regions in Fat causes loss of apical Expanded and promotes tissue overgrowth. Unexpectedly, we find Fat can bind its ligand Dachsous via interactions of their cytoplasmic domains, in addition to the known extracellular interactions. Importantly, Expanded is stabilized by Fat independently of Dachsous binding. These data provide new mechanistic insights into how Fat regulates Expanded, and how Hippo signaling is regulated during organ growth

    Delta1 Expression, Cell Cycle Exit, and Commitment to a Specific Secretory Fate Coincide within a Few Hours in the Mouse Intestinal Stem Cell System

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    The stem cells of the small intestine are multipotent: they give rise, via transit-amplifying cell divisions, to large numbers of columnar absorptive cells mixed with much smaller numbers of three different classes of secretory cells - mucus-secreting goblet cells, hormone-secreting enteroendocrine cells, and bactericide-secreting Paneth cells. Notch signaling is known to control commitment to a secretory fate, but why are the secretory cells such a small fraction of the population, and how does the diversity of secretory cell types arise? Using the mouse as our model organism, we find that secretory cells, and only secretory cells, pass through a phase of strong expression of the Notch ligand Delta1 (Dll1). Onset of this Dll1 expression coincides with a block to further cell division and is followed in much less than a cell cycle time by expression of Neurog3 – a marker of enteroendocrine fate – or Gfi1 – a marker of goblet or Paneth cell fate. By conditional knock-out of Dll1, we confirm that Delta-Notch signaling controls secretory commitment through lateral inhibition. We infer that cells stop dividing as they become committed to a secretory fate, while their neighbors continue dividing, explaining the final excess of absorptive over secretory cells. Our data rule out schemes in which cells first become committed to be secretory, and then diversify through subsequent cell divisions. A simple mathematical model shows how, instead, Notch signaling may simultaneously govern the commitment to be secretory and the choice between alternative modes of secretory differentiation

    Meru couples planar cell polarity with apical-basal polarity during asymmetric cell division

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    Polarity is a shared feature of most cells. In epithelia, apical-basal polarity often coexists, and sometimes intersects with planar cell polarity (PCP), which orients cells in the epithelial plane. From a limited set of core building blocks (e.g. the Par complexes for apical-basal polarity and the Frizzled/Dishevelled complex for PCP), a diverse array of polarized cells and tissues are generated. This suggests the existence of little-studied tissue-specific factors that rewire the core polarity modules to the appropriate conformation. In Drosophila sensory organ precursors (SOPs), the core PCP components initiate the planar polarization of apical-basal determinants, ensuring asymmetric division into daughter cells of different fates. We show that Meru, a RASSF9/RASSF10 homologue, is expressed specifically in SOPs, recruited to the posterior cortex by Frizzled/Dishevelled, and in turn polarizes the apical-basal polarity factor Bazooka (Par3). Thus, Meru belongs to a class of proteins that act cell/tissue-specifically to remodel the core polarity machinery.ISSN:2050-084

    Photocontact allergic and phototoxic studies of chlorproethazine

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    Background: Neuriplege (R) cream was available as a non-prescription medication in France until its withdrawal from the market by regulatory authorities in January 2007. Its active ingredient is the phenothiazine chlorproethazine (CPE). Before its withdrawal, we investigated the photocontact allergic and phototoxic potential of Neuriplege (R) cream and CPE. Methods: An in vitro phototoxic study was performed in HaCaT keratinocytes using the neutral red dye phototoxic assay. Phototoxicity and photocontact allergy were assessed in humans by photopatch testing. Results: In vitro, a 1 h incubation of keratinocytes with CPE was approximately 13 times as toxic to the cells in the presence of ultraviolet light compared with incubation with the drug alone. Of two healthy volunteers initially photopatch tested to Neuriplege (R) cream on the arm, one developed a phototoxic reaction. These two volunteers were then photopatch tested to Neuriplege (R) and CPE on the back with seven additional healthy volunteers. Both of the initial study volunteers experienced a photocontact allergic reaction to Neuriplege (R) as is upon this re-exposure. Of the seven volunteers not previously exposed to Neuriplege (R) as is, five developed phototoxic reactions. Conclusions: This study demonstrates the strong phototoxic and photocontact allergic potential of CPE in Neuriplege (R) cream, and supports the decision of the French pharmaceutical regulatory authorities to withdraw it.</p

    Oncogenesis following delivery of a nonprimate lentiviral gene therapy vector to fetal and neonatal mice

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    Gene therapy by use of integrating vectors carrying therapeutic transgene sequences offers the potential for a permanent cure of genetic diseases by stable vector insertion into the patients' chromosomes. However, three cases of T cell lymphoproliferative disease have been identified almost 3 years after retrovirus gene therapy for X-linked severe combined immune deficiency. In two of these cases vector insertion into the LMO2 locus was implicated in leukemogenesis, demonstrating that a more profound understanding is required of the genetic and molecular effects imposed on the host by vector integration or transgene expression. In vivo models to test for retro- and lentiviral vector safety prior to clinical application are therefore needed. Here we present a high incidence of lentiviral vector-associated tumorigenesis following in utero and neonatal gene transfer in mice. This system may provide a highly sensitive model to investigate integrating vector safety prior to clinical application

    Oncostatin M receptor-beta mutations underlie familial primary localized cutaneous amyloidosis

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    Familial primary localized cutaneous amyloidosis (FPLCA) is an autosomal-dominant disorder associated with chronic skin itching and deposition of epidermal keratin filament-associated amyloid material in the dermis. FPLCA has been mapped to 5p13.1–q11.2, and by candidate gene analysis, we identified missense mutations in the OSMR gene, encoding oncostatin M-specific receptor β (OSMRβ), in three families. OSMRβ is a component of the oncostatin M (OSM) type II receptor and the interleukin (IL)-31 receptor, and cultured FPLCA keratinocytes showed reduced activation of Jak/STAT, MAPK, and PI3K/Akt pathways after OSM or IL-31 cytokine stimulation. The pathogenic amino acid substitutions are located within the extracellular fibronectin type III-like (FNIII) domains, regions critical for receptor dimerization and function. OSM and IL-31 signaling have been implicated in keratinocyte cell proliferation, differentiation, apoptosis, and inflammation, but our OSMR data in individuals with FPLCA represent the first human germline mutations in this cytokine receptor complex and provide new insight into mechanisms of skin itching
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