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Interaction of phosphorylated Rab11-FIP2 with Eps15 regulates apical junction composition.
Lapierre LA, Manning EH, Mitchell KM, Caldwell CM, Goldenring JR
(2017) Mol Biol Cell 28: 1088-1100
MeSH Terms: Adaptor Proteins, Signal Transducing, Animals, Cadherins, Carrier Proteins, Cell Polarity, Dogs, Endosomes, Epithelial Cells, Gene Knockout Techniques, HEK293 Cells, Humans, Intercellular Junctions, Madin Darby Canine Kidney Cells, Membrane Proteins, Occludin, Phosphorylation, Protein Binding, Protein Transport, rab GTP-Binding Proteins
Show Abstract · Added April 18, 2017
MARK2 regulates the establishment of polarity in Madin-Darby canine kidney (MDCK) cells in part through phosphorylation of serine 227 of Rab11-FIP2. We identified Eps15 as an interacting partner of phospho-S227-Rab11-FIP2 (pS227-FIP2). During recovery from low calcium, Eps15 localized to the lateral membrane before pS227-FIP2 arrival. Later in recovery, Eps15 and pS227-FIP2 colocalized at the lateral membrane. In MDCK cells expressing the pseudophosphorylated FIP2 mutant FIP2(S227E), during recovery from low calcium, Eps15 was trapped and never localized to the lateral membrane. Mutation of any of the three NPF domains within GFP-FIP2(S227E) rescued Eps15 localization at the lateral membrane and reestablished single-lumen cyst formation in GFP-FIP2(S227E)-expressing cells in three-dimensional (3D) culture. Whereas expression of GFP-FIP2(S227E) induced the loss of E-cadherin and occludin, mutation of any of the NPF domains of GFP-FIP2(S227E) reestablished both proteins at the apical junctions. Knockdown of Eps15 altered the spatial and temporal localization of pS227-FIP2 and also elicited formation of multiple lumens in MDCK 3D cysts. Thus an interaction of Eps15 and pS227-FIP2 at the appropriate time and location in polarizing cells is necessary for proper establishment of epithelial polarity.
© 2017 Lapierre et al. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).
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19 MeSH Terms
Discovery of gene-gene interactions across multiple independent data sets of late onset Alzheimer disease from the Alzheimer Disease Genetics Consortium.
Hohman TJ, Bush WS, Jiang L, Brown-Gentry KD, Torstenson ES, Dudek SM, Mukherjee S, Naj A, Kunkle BW, Ritchie MD, Martin ER, Schellenberg GD, Mayeux R, Farrer LA, Pericak-Vance MA, Haines JL, Thornton-Wells TA, Alzheimer's Disease Genetics Consortium
(2016) Neurobiol Aging 38: 141-150
MeSH Terms: ATP Binding Cassette Transporter, Subfamily B, Alzheimer Disease, Cadherins, Calcium Channels, L-Type, Datasets as Topic, Disease Progression, Epistasis, Genetic, Female, Genetic Association Studies, Humans, Male, Models, Genetic, Phosphatidylethanolamine Binding Protein, Polymorphism, Single Nucleotide, Receptors, Adrenergic, alpha-1, Receptors, N-Methyl-D-Aspartate, Risk, Ryanodine Receptor Calcium Release Channel, Saposins, Sirtuin 1
Show Abstract · Added April 10, 2018
Late-onset Alzheimer disease (AD) has a complex genetic etiology, involving locus heterogeneity, polygenic inheritance, and gene-gene interactions; however, the investigation of interactions in recent genome-wide association studies has been limited. We used a biological knowledge-driven approach to evaluate gene-gene interactions for consistency across 13 data sets from the Alzheimer Disease Genetics Consortium. Fifteen single nucleotide polymorphism (SNP)-SNP pairs within 3 gene-gene combinations were identified: SIRT1 × ABCB1, PSAP × PEBP4, and GRIN2B × ADRA1A. In addition, we extend a previously identified interaction from an endophenotype analysis between RYR3 × CACNA1C. Finally, post hoc gene expression analyses of the implicated SNPs further implicate SIRT1 and ABCB1, and implicate CDH23 which was most recently identified as an AD risk locus in an epigenetic analysis of AD. The observed interactions in this article highlight ways in which genotypic variation related to disease may depend on the genetic context in which it occurs. Further, our results highlight the utility of evaluating genetic interactions to explain additional variance in AD risk and identify novel molecular mechanisms of AD pathogenesis.
Copyright © 2016 Elsevier Inc. All rights reserved.
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20 MeSH Terms
p120-catenin controls contractility along the vertical axis of epithelial lateral membranes.
Yu HH, Dohn MR, Markham NO, Coffey RJ, Reynolds AB
(2016) J Cell Sci 129: 80-94
MeSH Terms: Amino Acid Sequence, Animals, Cadherins, Catenins, Cell Membrane, Cell Polarity, Cell Shape, Dogs, Epithelial Cells, Madin Darby Canine Kidney Cells, Molecular Sequence Data, Nonmuscle Myosin Type IIA, Phenotype, Protein Binding, rho-Associated Kinases, rhoA GTP-Binding Protein
Show Abstract · Added May 2, 2016
In vertebrate epithelia, p120-catenin (hereafter referred to as p120; also known as CTNND1) mediates E-cadherin stability and suppression of RhoA. Genetic ablation of p120 in various epithelial tissues typically causes striking alterations in tissue function and morphology. Although these effects could very well involve p120's activity towards Rho, ascertaining the impact of this relationship has been complicated by the fact that p120 is also required for cell-cell adhesion. Here, we have molecularly uncoupled p120's cadherin-stabilizing and RhoA-suppressing activites. Unexpectedly, removing p120's Rho-suppressing activity dramatically disrupted the integrity of the apical surface, irrespective of E-cadherin stability. The physical defect was tracked to excessive actomyosin contractility along the vertical axis of lateral membranes. Thus, we suggest that p120's distinct activities towards E-cadherin and Rho are molecularly and functionally coupled and this, in turn, enables the maintenance of cell shape in the larger context of an epithelial monolayer. Importantly, local suppression of contractility by cadherin-bound p120 appears to go beyond regulating cell shape, as loss of this activity also leads to major defects in epithelial lumenogenesis.
© 2016. Published by The Company of Biologists Ltd.
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16 MeSH Terms
Comprehensive Molecular Portraits of Invasive Lobular Breast Cancer.
Ciriello G, Gatza ML, Beck AH, Wilkerson MD, Rhie SK, Pastore A, Zhang H, McLellan M, Yau C, Kandoth C, Bowlby R, Shen H, Hayat S, Fieldhouse R, Lester SC, Tse GM, Factor RE, Collins LC, Allison KH, Chen YY, Jensen K, Johnson NB, Oesterreich S, Mills GB, Cherniack AD, Robertson G, Benz C, Sander C, Laird PW, Hoadley KA, King TA, TCGA Research Network, Perou CM
(2015) Cell 163: 506-19
MeSH Terms: Antigens, CD, Breast Neoplasms, Cadherins, Carcinoma, Ductal, Breast, Carcinoma, Lobular, Female, Hepatocyte Nuclear Factor 3-alpha, Humans, Models, Molecular, Mutation, Oligonucleotide Array Sequence Analysis, Oncogene Protein v-akt, Transcriptome
Show Abstract · Added August 8, 2016
Invasive lobular carcinoma (ILC) is the second most prevalent histologic subtype of invasive breast cancer. Here, we comprehensively profiled 817 breast tumors, including 127 ILC, 490 ductal (IDC), and 88 mixed IDC/ILC. Besides E-cadherin loss, the best known ILC genetic hallmark, we identified mutations targeting PTEN, TBX3, and FOXA1 as ILC enriched features. PTEN loss associated with increased AKT phosphorylation, which was highest in ILC among all breast cancer subtypes. Spatially clustered FOXA1 mutations correlated with increased FOXA1 expression and activity. Conversely, GATA3 mutations and high expression characterized luminal A IDC, suggesting differential modulation of ER activity in ILC and IDC. Proliferation and immune-related signatures determined three ILC transcriptional subtypes associated with survival differences. Mixed IDC/ILC cases were molecularly classified as ILC-like and IDC-like revealing no true hybrid features. This multidimensional molecular atlas sheds new light on the genetic bases of ILC and provides potential clinical options.
Copyright © 2015 Elsevier Inc. All rights reserved.
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13 MeSH Terms
Optimization of a small molecule probe that restores e-cadherin expression.
Brogan JT, Stoops SL, Brady S, An H, Weaver C, Daniels JS, Beauchamp RD, Lindsley CW, Waterson AG
(2015) Bioorg Med Chem Lett 25: 4260-4
MeSH Terms: Animals, Cadherins, Cell Line, Tumor, Dose-Response Relationship, Drug, Humans, Isoxazoles, Mice, Molecular Structure, Rats, Structure-Activity Relationship
Show Abstract · Added October 15, 2015
E-cadherin is a ubiquitous trans-membrane protein that has important functions in cellular contacts and has been shown to play a role in the epithelial mesenchymal transition. We have previously reported the use of an HTS screen to identify compounds that are capable of restoring e-cadherin in cancer cells. Here, we report the additional medicinal chemistry optimization of these molecules, resulting in new molecules that restore e-cadherin expression at low micromolar concentrations. Further, we report preliminary pharmacokinetic data on a compound, ML327, that can be used as a probe of e-cadherin restoration.
Copyright © 2015 Elsevier Ltd. All rights reserved.
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10 MeSH Terms
Small molecule/ML327 mediated transcriptional de-repression of E-cadherin and inhibition of epithelial-to-mesenchymal transition.
An H, Stoops SL, Deane NG, Zhu J, Zi J, Weaver C, Waterson AG, Zijlstra A, Lindsley CW, Beauchamp RD
(2015) Oncotarget 6: 22934-48
MeSH Terms: Animals, Cadherins, Cell Line, Tumor, Chick Embryo, Colorectal Neoplasms, Epithelial-Mesenchymal Transition, Female, Humans, Isoxazoles, Lung Neoplasms, Mammary Neoplasms, Experimental, Mice, Neoplasm Invasiveness, Neoplasms, Niacinamide, Small Molecule Libraries, Transcription, Genetic
Show Abstract · Added July 16, 2015
Transcriptional repression of E-cadherin is a hallmark of Epithelial-to-Mesenchymal Transition (EMT) and is associated with cancer cell invasion and metastasis. Understanding the mechanisms underlying E-cadherin repression during EMT may provide insights into the development of novel targeted therapeutics for cancer. Here, we report on the chemical probe, ML327, which de-represses E-cadherin transcription, partially reverses EMT, and inhibits cancer cell invasiveness and tumor cell migration in vitro and in vivo. Induction of E-cadherin mRNA expression by ML327 treatment does not require de novo protein synthesis. RNA sequencing analysis revealed that ML327 treatment significantly alters expression of over 2,500 genes within three hours in the presence of the translational inhibitor, cycloheximide. Network analysis reveals Hepatocyte Nuclear Factor 4-alpha (HNF4α) as the most significant upstream transcriptional regulator of multiple genes whose expressions were altered by ML327 treatment. Further, small interfering RNA-mediated depletion of HNF4α markedly attenuates the E-cadherin expression response to ML327. In summary, ML327 represents a valuable tool to understand mechanisms of EMT and may provide the basis for a novel targeted therapeutic strategy for carcinomas.
1 Communities
3 Members
0 Resources
17 MeSH Terms
Tumor-secreted Hsp90 subverts polycomb function to drive prostate tumor growth and invasion.
Nolan KD, Franco OE, Hance MW, Hayward SW, Isaacs JS
(2015) J Biol Chem 290: 8271-82
MeSH Terms: Animals, Antigens, CD, Cadherins, Cell Line, Tumor, Enhancer of Zeste Homolog 2 Protein, Epigenesis, Genetic, Epithelial-Mesenchymal Transition, Gene Expression, Gene Expression Regulation, Neoplastic, HEK293 Cells, HSP90 Heat-Shock Proteins, Humans, MAP Kinase Signaling System, Male, Mice, SCID, Neoplasm Invasiveness, Neoplasm Transplantation, Polycomb Repressive Complex 2, Polycomb-Group Proteins, Prostatic Neoplasms, Tumor Burden
Show Abstract · Added February 19, 2015
Prostate cancer remains the second highest contributor to male cancer-related lethality. The transition of a subset of tumors from indolent to invasive disease is associated with a poor clinical outcome. Activation of the epithelial to mesenchymal transition (EMT) genetic program is a major risk factor for cancer progression. We recently reported that secreted extracellular Hsp90 (eHsp90) initiates EMT in prostate cancer cells, coincident with its enhanced expression in mesenchymal models. Our current work substantially extended these findings in defining a pathway linking eHsp90 signaling to EZH2 function, a methyltransferase of the Polycomb repressor complex. EZH2 is also implicated in EMT activation, and its up-regulation represents one of the most frequent epigenetic alterations during prostate cancer progression. We have now highlighted a novel epigenetic function for eHsp90 via its modulation of EZH2 expression and activity. Mechanistically, eHsp90 initiated sustained activation of MEK/ERK, a signal critical for facilitating EZH2 transcriptional up-regulation and recruitment to the E-cadherin promoter. We further demonstrated that an eHsp90-EZH2 pathway orchestrates an expanded repertoire of EMT-related events including Snail and Twist expression, tumor cell motility, and anoikis resistance. To evaluate the role of eHsp90 in vivo, eHsp90 secretion was stably enforced in a prostate cancer cell line resembling indolent disease. Remarkably, eHsp90 was sufficient to induce tumor growth, suppress E-cadherin, and initiate localized invasion, events that are exquisitely dependent upon EZH2 function. In summary, our findings illuminate a hitherto unknown epigenetic function for eHsp90 and support a model wherein tumor eHsp90 functions as a rheostat for EZH2 expression and activity to orchestrate mesenchymal properties and coincident aggressive behavior.
© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.
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21 MeSH Terms
p120 Catenin is required for normal tubulogenesis but not epithelial integrity in developing mouse pancreas.
Hendley AM, Provost E, Bailey JM, Wang YJ, Cleveland MH, Blake D, Bittman RW, Roeser JC, Maitra A, Reynolds AB, Leach SD
(2015) Dev Biol 399: 41-53
MeSH Terms: Adherens Junctions, Animals, Animals, Newborn, Cadherins, Catenins, Cytoskeleton, Epithelial Cells, Epithelium, Female, Fluorescent Antibody Technique, Gene Expression Regulation, Developmental, Male, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Microscopy, Confocal, Pancreas, Pancreatitis, Chronic, Reverse Transcriptase Polymerase Chain Reaction, alpha Catenin, beta Catenin
Show Abstract · Added February 19, 2015
The intracellular protein p120 catenin aids in maintenance of cell-cell adhesion by regulating E-cadherin stability in epithelial cells. In an effort to understand the biology of p120 catenin in pancreas development, we ablated p120 catenin in mouse pancreatic progenitor cells, which resulted in deletion of p120 catenin in all epithelial lineages of the developing mouse pancreas: islet, acinar, centroacinar, and ductal. Loss of p120 catenin resulted in formation of dilated epithelial tubules, expansion of ductal epithelia, loss of acinar cells, and the induction of pancreatic inflammation. Aberrant branching morphogenesis and tubulogenesis were also observed. Throughout development, the phenotype became more severe, ultimately resulting in an abnormal pancreas comprised primarily of duct-like epithelium expressing early progenitor markers. In pancreatic tissue lacking p120 catenin, overall epithelial architecture remained intact; however, actin cytoskeleton organization was disrupted, an observation associated with increased cytoplasmic PKCζ. Although we observed reduced expression of adherens junction proteins E-cadherin, β-catenin, and α-catenin, p120 catenin family members p0071, ARVCF, and δ-catenin remained present at cell membranes in homozygous p120(f/f) pancreases, potentially providing stability for maintenance of epithelial integrity during development. Adult mice homozygous for deletion of p120 catenin displayed dilated main pancreatic ducts, chronic pancreatitis, acinar to ductal metaplasia (ADM), and mucinous metaplasia that resembles PanIN1a. Taken together, our data demonstrate an essential role for p120 catenin in pancreas development.
Copyright © 2014 Elsevier Inc. All rights reserved.
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21 MeSH Terms
Circulating microparticles in patients with antiphospholipid antibodies: characterization and associations.
Chaturvedi S, Cockrell E, Espinola R, Hsi L, Fulton S, Khan M, Li L, Fonseca F, Kundu S, McCrae KR
(2015) Thromb Res 135: 102-8
MeSH Terms: Adult, Antibodies, Anticardiolipin, Antibodies, Antiphospholipid, Antigens, CD, Antiphospholipid Syndrome, Blood Platelets, Cadherins, Cell-Derived Microparticles, Endoglin, Endothelial Cells, Female, Flow Cytometry, Humans, Lipopolysaccharide Receptors, Male, Middle Aged, Partial Thromboplastin Time, Receptors, Cell Surface, Thromboplastin, Thrombosis, beta 2-Glycoprotein I
Show Abstract · Added August 1, 2015
The antiphospholipid syndrome is characterized by venous or arterial thrombosis and/or recurrent fetal loss in the presence of circulating antiphospholipid antibodies. These antibodies cause activation of endothelial and other cell types leading to the release of microparticles with procoagulant and pro-inflammatory properties. The aims of this study were to characterize the levels of endothelial cell, monocyte or platelet derived, and tissue factor-bearing microparticles in patients with antiphospholipid antibodies, to determine the association of circulating microparticles with anticardiolipin and anti-β2-glycoprotein antibodies, and to define the cellular origin of microparticles that express tissue factor. Microparticle content within citrated blood from 47 patients with antiphospholipid antibodies and 144 healthy controls was analyzed within 2hours of venipuncture. Levels of Annexin-V, CD105 and CD144 (endothelial derived), CD41 (platelet derived) and tissue factor positive microparticles were significantly higher in patients than controls. Though levels of CD14 (monocyte-derived) microparticles in patient plasma were not significantly increased, increased levels of CD14 and tissue factor positive microparticles were observed in patients. Levels of microparticles that stained for CD105 and CD144 showed a positive correlation with IgG (R=0.60, p=0.006) and IgM anti-beta2-glycoprotein I antibodies (R=0.58, p=0.006). The elevation of endothelial and platelet derived microparticles in patients with antiphospholipid antibodies and their correlation with anti-β2-glycoprotein I antibodies suggests a chronic state of vascular cell activation in these individuals and an important role for β2-glycoprotein I in development of the pro-thrombotic state associated with antiphospholipid antibodies.
Copyright © 2014 Elsevier Ltd. All rights reserved.
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21 MeSH Terms
Connective tissue growth factor modulates adult β-cell maturity and proliferation to promote β-cell regeneration in mice.
Riley KG, Pasek RC, Maulis MF, Peek J, Thorel F, Brigstock DR, Herrera PL, Gannon M
(2015) Diabetes 64: 1284-98
MeSH Terms: Animals, Cadherins, Cell Cycle, Cell Death, Cell Proliferation, Connective Tissue Growth Factor, Hepatocyte Growth Factor, Insulin-Secreting Cells, Integrin beta1, Mice, Regeneration
Show Abstract · Added January 2, 2015
Stimulation of endogenous β-cell expansion could facilitate regeneration in patients with diabetes. In mice, connective tissue growth factor (CTGF) is expressed in embryonic β-cells and in adult β-cells during periods of expansion. We discovered that in embryos CTGF is necessary for β-cell proliferation, and increased CTGF in β-cells promotes proliferation of immature (MafA(-)) insulin-positive cells. CTGF overexpression, under nonstimulatory conditions, does not increase adult β-cell proliferation. In this study, we tested the ability of CTGF to promote β-cell proliferation and regeneration after partial β-cell destruction. β-Cell mass reaches 50% recovery after 4 weeks of CTGF treatment, primarily via increased β-cell proliferation, which is enhanced as early as 2 days of treatment. CTGF treatment increases the number of immature β-cells but promotes proliferation of both mature and immature β-cells. A shortened β-cell replication refractory period is also observed. CTGF treatment upregulates positive cell-cycle regulators and factors involved in β-cell proliferation, including hepatocyte growth factor, serotonin synthesis, and integrin β1. Ex vivo treatment of whole islets with recombinant human CTGF induces β-cell replication and gene expression changes consistent with those observed in vivo, demonstrating that CTGF acts directly on islets to promote β-cell replication. Thus, CTGF can induce replication of adult mouse β-cells given a permissive microenvironment.
© 2015 by the American Diabetes Association. Readers may use this article as long as the work is properly cited, the use is educational and not for profit, and the work is not altered.
2 Communities
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11 MeSH Terms