Crumbs is an apical transmembrane protein crucial for epithelial morphogenesis in Drosophila melanogaster embryos. A protein with all the characteristics for a Crumbs homologue has been identified from patients suffering from retinitis pigmentosa group 12, but this protein (CRB1) is only expressed in retina and some parts of the brain, both in human and mouse. Here, we describe CRB3, another Crumbs homologue that is preferentially expressed in epithelial tissues and skeletal muscles in human. CRB3 shares the conserved cytoplasmic domain with other Crumbs but exhibits a very short extracellular domain without the EGF-and laminin A-like G repeats present in the other Crumbs. CRB3 is localized to the apical and subapical area of epithelial cells from the mouse and human intestine, suggesting that it could play a role in epithelial morphogenesis. Indeed, expression of CRB3 or of a chimera containing the extracellular domain of the neurotrophin receptor p75NTR and the transmembrane and cytoplasmic domains of CRB3 led to a slower development of functional tight junctions in Madin-Darby canine kidney cells. This phenotype relied on the presence of CRB3 four last amino acids (ERLI) that are involved in a direct interaction with Par6, a regulator of epithelial polarity and tight junction formation. Thus, CRB3, through its cytoplasmic domain and its interactors, plays a role in apical membrane morphogenesis and tight junction regulation. INTRODUCTIONThe acquisition of polarity in epithelial cells is a fundamental mechanism crucial for the development of multicellular organisms. This process involves transmembrane proteins acting as cell surface organizers that nucleate cortical proteins, thus providing a scaffold for the building of junctional complexes that physically separate the apical surface from the basolateral domain of the plasma membrane (Knust, 2000;Tepass et al., 2001). Sorting of newly synthesized proteins is then necessary to maintain the polarized distribution of apical and basolateral proteins Nelson and Yeaman, 2001). Cell surface organizers such as integrins and cadherins have been identified in mammalian epithelial cells (Yeaman et al., 1999), but in the last few years, genetics in Drosophila proved to be instrumental in opening new perspectives on protein complexes involved in epithelial polarity (Muller, 2000). Among such complexes, the Crumbs complex stands out because it contains an apical transmembrane protein crucial for cell morphogenesis (Rashbass and Skaer, 2000;Tepass et al., 2001). Crumbs is a large (2139-aa) glycoprotein with an extracellular domain containing 30 EGF-like repeats and four laminin A-like G domains, a transmembrane domain, and a short cytoplasmic domain of 37 amino acids (Tepass et al., 1990). Expression of crb starts at gastrulation, and the protein is accumulated at the subapical region (marginal zone) of ectodermal epithelial cells where it colocalizes with two other gene products involved in epithelial polarity, Stardust (sdt) and Discs lost (dlt). These three genes, crb, s...
dCrumbs is an apical organizer crucial for the maintenance of epithelial polarity in Drosophila (1). It is known that dCrumbs interacts with Discs lost (Dlt), a protein with four PDZ (PSD95/Discs Large/ZO-1) domains (2), and Stardust (Sdt), a protein of the MAGUK (membrane-associated guanylate kinase) family (3, 4). We have searched for potential homologs of Dlt in human epithelial cells and characterized one of them in intestinal epithelial cells. Human INAD-like (hINADl) contains 8 PDZ domains, is concentrated in tight junctions, and is also found at the apical plasma membrane. Overexpression of hINADl disrupted the tight junctions localization of ZO-1 and 3. We also identified a partial cDNA coding the transmembrane and cytoplasmic domains of a new human crumbs (CRB3) expressed in Caco-2 cells. This CRB3 was able to interact through its C-terminal end with the N-terminal domain of hINADl. Taken together, the data indicate that hINADl is likely to represent a Dlt homolog in mammalian epithelial cells and might be involved in regulating the integrity of tight junctions. We thus propose to rename hINADl PATJ for protein associated to tight junctions.
The Crumbs complex that also contains the cortical proteins Stardust and DPATJ (a homologue of PATJ), is crucial for the building of epithelial monolayers in Drosophila. Although loss of function of the Crumbs or Stardust genes prevents the stabilization of a belt of adherens junctions at the apico-lateral border of the cells, no phenotype has been described for the Dpatj gene and its role in epithelial morphogenesis and polarity remains unknown. We have produced downregulated PATJ stable lines of Caco2 to clarify its role in epithelial morphogenesis. In PATJ knockdown cells, Pals1 (a Stardust homologue) is no longer associated with tight junctions whereas Crumbs3 (Crb3) is accumulated into a compartment spatially close to the apical membrane and related to early endosomes. Furthermore, occludin and ZO-3, two proteins of tight junctions are mislocalized on the lateral membrane indicating that PATJ plays a novel role in the building of tight junctions by providing a link between their lateral and apical components. Thus, PATJ stabilizes the Crb3 complex and regulates the spatial concentration of several components at the border between the apical and lateral domains.
Monoacylglycerol lipase (MAGL) represents a primary degradation enzyme of the endogenous cannabinoid (eCB), 2-arachidonoyglycerol (2-AG). This study reports a potent covalent MAGL inhibitor, SAR127303. The compound behaves as a selective and competitive inhibitor of mouse and human MAGL, which potently elevates hippocampal levels of 2-AG in mice. In vivo, SAR127303 produces antinociceptive effects in assays of inflammatory and visceral pain. In addition, the drug alters learning performance in several assays related to episodic, working and spatial memory. Moreover, long term potentiation (LTP) of CA1 synaptic transmission and acetylcholine release in the hippocampus, two hallmarks of memory function, are both decreased by SAR127303. Although inactive in acute seizure tests, repeated administration of SAR127303 delays the acquisition and decreases kindled seizures in mice, indicating that the drug slows down epileptogenesis, a finding deserving further investigation to evaluate the potential of MAGL inhibitors as antiepileptics. However, the observation that 2-AG hydrolysis blockade alters learning and memory performance, suggests that such drugs may have limited value as therapeutic agents.
We developed a new approach to study single- and double-stranded DNA breaks during chronic, moderate excitotoxicity resulting from the inhibition of the glutamate transporter in cerebellar granule cell primary cultures. A 24 hr treatment of 2-week-old cultures with L-alpha-amino adipate (LAA), an inhibitor of the cerebellar glutamate uptake transporter, caused a gradual extracellular accumulation of endogenous glutamate that induced reversible morphological change of granule neurons but no neuronal cell death despite sustained, but moderate, elevations of the free intracellular calcium concentrations. Nick translation experiments on isolated nuclei or cells from cerebellar cultures chronically exposed to LAA revealed increased radioactive nucleotide incorporation indicative of DNA nicking. This LAA effect was dose-dependent and suppressed by NMDA receptor antagonists. Cultures treated for 24 hr with LAA and subjected to in situ nick translation showed an intense nuclear labeling of neurons but not glia, which could be abolished by MK801. A similar labeling was also observed in altered nuclei of granule neurons acutely exposed to high glutamate concentrations or undergoing an apoptotic cell death. Although the TUNEL labeling method detected no DNA double-strand breaks in LAA-treated cerebellar cultures, it displayed clear evidence of DNA damage during acute glutamate excitotoxicity or during apoptosis. However, Southern blot analysis of nuclear DNA revealed a DNA laddering only in apoptotic cell death. Our results demonstrate that DNA damage, characterized by DNA single-strand breaks, is an early event in chronic, moderate excitotoxicity. This type of DNA degradation, which appears before any nuclear morphological changes, is distinct from the massive DNA single- and/or double-strand damages observed during acute glutamate excitotoxicity or apoptosis.
Human adipose tissue (hAT) is constituted of structural units termed lobules, the organization of which remains to be defined. Here we report that lobules are composed of two extracellular matrix compartments, i.e., septa and stroma, delineating niches of CD45−/CD34+/CD31− progenitor subsets characterized by MSCA1 (ALPL) and CD271 (NGFR) expression. MSCA1+ adipogenic subset is enriched in stroma while septa contains mainly MSCA1−/CD271− and MSCA1−/CD271 high progenitors. CD271 marks myofibroblast precursors and NGF ligand activation is a molecular relay of TGFβ-induced myofibroblast conversion. In human subcutaneous (SC) and visceral (VS) AT, the progenitor subset repartition is different, modulated by obesity and in favor of adipocyte and myofibroblast fate, respectively. Lobules exhibit depot-specific architecture with marked fibrous septa containing mesothelial-like progenitor cells in VSAT. Thus, the human AT lobule organization in specific progenitor subset domains defines the fat depot intrinsic capacity to remodel and may contribute to obesity-associated cardiometabolic risks.
Our mouse model of CRS displayed an allergic response to HDM+SEB administration, including the Type 2/Th2 inflammatory profile characteristic of human eosinophilic CRSwNP. Although sense of smell did not appear to be altered in these conditions, the data reveal the influence of chronic inflammation on olfactory neurogenesis, suggesting that factors unique to humans may be involved in CRSwNP-associated anosmia. This article is protected by copyright. All rights reserved.
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