Literature DB >> 24573695

ZEB2-transgene expression in the epidermis compromises the integrity of the epidermal barrier through the repression of different tight junction proteins.

Marianthi N Tatari1, Bram De Craene, Bieke Soen, Joachim Taminau, Petra Vermassen, Steven Goossens, Katharina Haigh, Silvia Cazzola, Jo Lambert, Danny Huylebroeck, Jody J Haigh, Geert Berx.   

Abstract

Epithelial homeostasis within the epidermis is maintained by means of multiple cell-cell adhesion complexes such as adherens junctions, tight junctions, gap junctions, and desmosomes. These complexes co-operate in the formation and the regulation of the epidermal barrier. Disruption of the epidermal barrier through the deregulation of the above complexes is the cause behind a number of skin disorders such as psoriasis, dermatitis, keratosis, and others. During epithelial-to-mesenchymal transition (EMT), epithelial cells lose their adhesive capacities and gain mesenchymal properties. ZEB transcription factors are key inducers of EMT. In order to gain a better understanding of the functional role of ZEB2 in epidermal homeostasis, we generated a mouse model with conditional overexpression of Zeb2 in the epidermis. Our analysis revealed that Zeb2 expression in the epidermis leads to hyperproliferation due to the combined downregulation of different tight junction proteins compromising the epidermal barrier. Using two epidermis-specific in vivo models and in vitro promoter assays, we identified occludin as a new Zeb2 target gene. Immunohistological analysis performed on human skin biopsies covering various pathogeneses revealed ZEB2 expression in the epidermis of pemphigus vulgaris. Collectively, our data support the notion for a potential role of ZEB2 in intracellular signaling of this disease.

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Year:  2014        PMID: 24573695     DOI: 10.1007/s00018-014-1589-0

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  43 in total

1.  Regulation of tight junctions during the epithelium-mesenchyme transition: direct repression of the gene expression of claudins/occludin by Snail.

Authors:  Junichi Ikenouchi; Miho Matsuda; Mikio Furuse; Shoichiro Tsukita
Journal:  J Cell Sci       Date:  2003-03-26       Impact factor: 5.285

2.  Krüppel-like factor 8 induces epithelial to mesenchymal transition and epithelial cell invasion.

Authors:  Xianhui Wang; Mingzhe Zheng; Gang Liu; Weiya Xia; Paula J McKeown-Longo; Mien-Chie Hung; Jihe Zhao
Journal:  Cancer Res       Date:  2007-08-01       Impact factor: 12.701

Review 3.  The ins and outs of the epithelial to mesenchymal transition in health and disease.

Authors:  M Angela Nieto
Journal:  Annu Rev Cell Dev Biol       Date:  2011-07-08       Impact factor: 13.827

Review 4.  Regulatory networks defining EMT during cancer initiation and progression.

Authors:  Bram De Craene; Geert Berx
Journal:  Nat Rev Cancer       Date:  2013-02       Impact factor: 60.716

5.  Desmoplakin is essential in epidermal sheet formation.

Authors:  V Vasioukhin; E Bowers; C Bauer; L Degenstein; E Fuchs
Journal:  Nat Cell Biol       Date:  2001-12       Impact factor: 28.824

6.  SIP1, a novel zinc finger/homeodomain repressor, interacts with Smad proteins and binds to 5'-CACCT sequences in candidate target genes.

Authors:  K Verschueren; J E Remacle; C Collart; H Kraft; B S Baker; P Tylzanowski; L Nelles; G Wuytens; M T Su; R Bodmer; J C Smith; D Huylebroeck
Journal:  J Biol Chem       Date:  1999-07-16       Impact factor: 5.157

7.  Erk5 controls Slug expression and keratinocyte activation during wound healing.

Authors:  Valerie Arnoux; Mayssaa Nassour; Annie L'Helgoualc'h; Robert A Hipskind; Pierre Savagner
Journal:  Mol Biol Cell       Date:  2008-08-20       Impact factor: 4.138

8.  Claudin-based tight junctions are crucial for the mammalian epidermal barrier: a lesson from claudin-1-deficient mice.

Authors:  Mikio Furuse; Masaki Hata; Kyoko Furuse; Yoko Yoshida; Akinori Haratake; Yoshinobu Sugitani; Tetsuo Noda; Akiharu Kubo; Shoichiro Tsukita
Journal:  J Cell Biol       Date:  2002-03-11       Impact factor: 10.539

9.  Epithelia suspended in collagen gels can lose polarity and express characteristics of migrating mesenchymal cells.

Authors:  G Greenburg; E D Hay
Journal:  J Cell Biol       Date:  1982-10       Impact factor: 10.539

10.  Efficient mouse transgenesis using Gateway-compatible ROSA26 locus targeting vectors and F1 hybrid ES cells.

Authors:  Omar Nyabi; Michael Naessens; Katharina Haigh; Agnieszka Gembarska; Steven Goossens; Marion Maetens; Sarah De Clercq; Benjamin Drogat; Lieven Haenebalcke; Sonia Bartunkova; Ilse De Vos; Bram De Craene; Mansour Karimi; Geert Berx; Andras Nagy; Pierre Hilson; Jean-Christophe Marine; Jody J Haigh
Journal:  Nucleic Acids Res       Date:  2009-03-11       Impact factor: 16.971
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  14 in total

1.  Epidermal tight junctions in health and disease.

Authors:  J M Brandner; M Zorn-Kruppa; T Yoshida; I Moll; L A Beck; A De Benedetto
Journal:  Tissue Barriers       Date:  2015-04-03

Review 2.  Scaffolding proteins in the development and maintenance of the epidermal permeability barrier.

Authors:  Melissa Crawford; Lina Dagnino
Journal:  Tissue Barriers       Date:  2017-06-30

3.  Zeb2 drives invasive and microbiota-dependent colon carcinoma.

Authors:  Karolina Slowicka; Ioanna Petta; Gillian Blancke; Esther Hoste; Emilie Dumas; Mozes Sze; Hanna Vikkula; Enrico Radaelli; Jody J Haigh; Sven Jonckheere; Joachim Taminau; Niels Vandamme; Andy Wullaert; Eugene Tulchinsky; David Nittner; Pieter Van Vlierberghe; Gert De Hertogh; Pamela Baldin; Emre Etlioglu; Pratyaksha Wirapati; Louis Boon; Bart N Lambrecht; Chris Callewaert; Sabine Tejpar; Steven Goossens; Geert Berx; Lars Vereecke; Geert van Loo
Journal:  Nat Cancer       Date:  2020-06-15

4.  ZEB2 drives immature T-cell lymphoblastic leukaemia development via enhanced tumour-initiating potential and IL-7 receptor signalling.

Authors:  Steven Goossens; Enrico Radaelli; Odile Blanchet; Kaat Durinck; Joni Van der Meulen; Sofie Peirs; Tom Taghon; Cedric S Tremblay; Magdaline Costa; Morvarid Farhang Ghahremani; Jelle De Medts; Sonia Bartunkova; Katharina Haigh; Claire Schwab; Natalie Farla; Tim Pieters; Filip Matthijssens; Nadine Van Roy; J Adam Best; Kim Deswarte; Pieter Bogaert; Catherine Carmichael; Adam Rickard; Santi Suryani; Lauryn S Bracken; Raed Alserihi; Kirsten Canté-Barrett; Lieven Haenebalcke; Emmanuelle Clappier; Pieter Rondou; Karolina Slowicka; Danny Huylebroeck; Ananda W Goldrath; Viktor Janzen; Matthew P McCormack; Richard B Lock; David J Curtis; Christine Harrison; Geert Berx; Frank Speleman; Jules P P Meijerink; Jean Soulier; Pieter Van Vlierberghe; Jody J Haigh
Journal:  Nat Commun       Date:  2015-01-07       Impact factor: 17.694

Review 5.  MITF in melanoma: mechanisms behind its expression and activity.

Authors:  Mariusz L Hartman; Malgorzata Czyz
Journal:  Cell Mol Life Sci       Date:  2014-11-30       Impact factor: 9.261

6.  Targeted chromatin conformation analysis identifies novel distal neural enhancers of ZEB2 in pluripotent stem cell differentiation.

Authors:  Judith C Birkhoff; Rutger W W Brouwer; Petros Kolovos; Anne L Korporaal; Ana Bermejo-Santos; Ilias Boltsis; Karol Nowosad; Mirjam C G N van den Hout; Frank G Grosveld; Wilfred F J van IJcken; Danny Huylebroeck; Andrea Conidi
Journal:  Hum Mol Genet       Date:  2020-08-29       Impact factor: 6.150

7.  ZEB2 and LMO2 drive immature T-cell lymphoblastic leukemia via distinct oncogenic mechanisms.

Authors:  Steven Goossens; Jueqiong Wang; Cedric S Tremblay; Jelle De Medts; Sara T'Sas; Thao Nguyen; Jesslyn Saw; Katharina Haigh; David J Curtis; Pieter Van Vlierberghe; Geert Berx; Tom Taghon; Jody J Haigh
Journal:  Haematologica       Date:  2019-01-24       Impact factor: 9.941

8.  The transcription factor Zeb2 regulates development of conventional and plasmacytoid DCs by repressing Id2.

Authors:  Charlotte L Scott; Bieke Soen; Liesbet Martens; Nicolas Skrypek; Wouter Saelens; Joachim Taminau; Gillian Blancke; Gert Van Isterdael; Danny Huylebroeck; Jody Haigh; Yvan Saeys; Martin Guilliams; Bart N Lambrecht; Geert Berx
Journal:  J Exp Med       Date:  2016-05-16       Impact factor: 14.307

9.  Terminal NK cell maturation is controlled by concerted actions of T-bet and Zeb2 and is essential for melanoma rejection.

Authors:  Mary J van Helden; Steven Goossens; Cécile Daussy; Anne-Laure Mathieu; Fabrice Faure; Antoine Marçais; Niels Vandamme; Natalie Farla; Katia Mayol; Sébastien Viel; Sophie Degouve; Emilie Debien; Eve Seuntjens; Andrea Conidi; Julie Chaix; Philippe Mangeot; Simon de Bernard; Laurent Buffat; Jody J Haigh; Danny Huylebroeck; Bart N Lambrecht; Geert Berx; Thierry Walzer
Journal:  J Exp Med       Date:  2015-10-26       Impact factor: 14.307

10.  FOXP3 and miR-155 cooperate to control the invasive potential of human breast cancer cells by down regulating ZEB2 independently of ZEB1.

Authors:  Cheryl Y Brown; Sonia Dayan; Soon Wei Wong; Adrian Kaczmarek; Christopher M Hope; Stephen M Pederson; Victoria Arnet; Gregory J Goodall; Darryl Russell; Timothy J Sadlon; Simon C Barry
Journal:  Oncotarget       Date:  2018-06-12
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