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Literature DB >> 24240471

Wt1 in the kidney--a tale in mouse models.

Abstract

The WT1 gene was originally identified through its involvement in the development of Wilms tumours. The gene is characterized by a plethora of different isoforms with, in some cases, clearly different functions in transcriptional control and RNA metabolism. Many different mouse models for Wt1 have already been generated, and these are increasingly providing new information on the molecular roles of Wt1 in normal development and disease. In this review we discuss the different models that have been generated and what they have taught us about the role of Wt1 in the kidney.

Entities: Disease Gene Species

Mesh：

Substances：
WT1 Proteins

Year: 2013 PMID： 24240471 DOI： 10.1007/s00467-013-2673-7

Source DB: PubMed Journal: Pediatr Nephrol ISSN： 0931-041X Impact factor: 3.714

53 in total

Review 1. Transcriptional regulation by WT1 in development.

Authors: Stefan G E Roberts
Journal: Curr Opin Genet Dev Date: 2005-10 Impact factor: 5.578

2. Wt1 is required for cardiovascular progenitor cell formation through transcriptional control of Snail and E-cadherin.

Authors: Ofelia M Martínez-Estrada; Laura A Lettice; Abdelkader Essafi; Juan Antonio Guadix; Joan Slight; Víctor Velecela; Emma Hall; Judith Reichmann; Paul S Devenney; Peter Hohenstein; Naoki Hosen; Robert E Hill; Ramón Muñoz-Chapuli; Nicholas D Hastie
Journal: Nat Genet Date: 2009-12-20 Impact factor: 38.330

3. Epithelial transformation of metanephric mesenchyme in the developing kidney regulated by Wnt-4.

Authors: K Stark; S Vainio; G Vassileva; A P McMahon
Journal: Nature Date: 1994-12-15 Impact factor: 49.962

4. The Wilms tumor suppressor gene wt1 is required for development of the spleen.

Authors: U Herzer; A Crocoll; D Barton; N Howells; C Englert
Journal: Curr Biol Date: 1999 Jul 29-Aug 12 Impact factor: 10.834

5. Mice lacking the 68-amino-acid, mammal-specific N-terminal extension of WT1 develop normally and are fertile.

Authors: Colin G Miles; Joan Slight; Lee Spraggon; Maureen O'Sullivan; Charles Patek; Nicholas D Hastie
Journal: Mol Cell Biol Date: 2003-04 Impact factor: 4.272

6. The predominant WT1 isoform (+KTS) encodes a DNA-binding protein targeting the planar cell polarity gene Scribble in renal podocytes.

Authors: Julie Wells; Miguel N Rivera; Woo Jae Kim; Kristen Starbuck; Daniel A Haber
Journal: Mol Cancer Res Date: 2010-06-22 Impact factor: 5.852

Review 7. The many facets of the Wilms' tumour gene, WT1.

Authors: Peter Hohenstein; Nicholas D Hastie
Journal: Hum Mol Genet Date: 2006-10-15 Impact factor: 6.150

8. Subnuclear localization of WT1 in splicing or transcription factor domains is regulated by alternative splicing.

Authors: S H Larsson; J P Charlieu; K Miyagawa; D Engelkamp; M Rassoulzadegan; A Ross; F Cuzin; V van Heyningen; N D Hastie
Journal: Cell Date: 1995-05-05 Impact factor: 41.582

9. Acute multiple organ failure in adult mice deleted for the developmental regulator Wt1.

Authors: You-Ying Chau; David Brownstein; Heidi Mjoseng; Wen-Chin Lee; Natalija Buza-Vidas; Claus Nerlov; Sten Eirik Jacobsen; Paul Perry; Rachel Berry; Anna Thornburn; David Sexton; Nik Morton; Peter Hohenstein; Elisabeth Freyer; Kay Samuel; Rob van't Hof; Nicholas Hastie
Journal: PLoS Genet Date: 2011-12-22 Impact factor: 5.917

10. Stromal-epithelial crosstalk regulates kidney progenitor cell differentiation.

Authors: Amrita Das; Shunsuke Tanigawa; Courtney M Karner; Mei Xin; Lawrence Lum; Chuo Chen; Eric N Olson; Alan O Perantoni; Thomas J Carroll
Journal: Nat Cell Biol Date: 2013-08-25 Impact factor: 28.824

13 in total

Review 1. Growing evidence suggests WT1 effects in the kidney development are modulated by Hsp70/NO interaction.

Authors: Luciana Mazzei; Walter Manucha
Journal: J Nephrol Date: 2016-04-08 Impact factor: 3.902

Review 2. A role of WT1 in cell division and genomic stability.

Authors: Jayasha Shandilya; Stefan G E Roberts
Journal: Cell Cycle Date: 2015 Impact factor: 4.534

3. Single-Cell RNA Sequencing Reveals mRNA Splice Isoform Switching during Kidney Development.

Authors: Yishay Wineberg; Tali Hana Bar-Lev; Anna Futorian; Nissim Ben-Haim; Leah Armon; Debby Ickowicz; Sarit Oriel; Efrat Bucris; Yishai Yehuda; Naomi Pode-Shakked; Shlomit Gilad; Sima Benjamin; Peter Hohenstein; Benjamin Dekel; Achia Urbach; Tomer Kalisky
Journal: J Am Soc Nephrol Date: 2020-07-10 Impact factor: 10.121

4. Integration of Cistromic and Transcriptomic Analyses Identifies Nphs2, Mafb, and Magi2 as Wilms' Tumor 1 Target Genes in Podocyte Differentiation and Maintenance.

Authors: Lihua Dong; Stefan Pietsch; Zenglai Tan; Birgit Perner; Ralph Sierig; Dagmar Kruspe; Marco Groth; Ralph Witzgall; Hermann-Josef Gröne; Matthias Platzer; Christoph Englert
Journal: J Am Soc Nephrol Date: 2015-01-02 Impact factor: 10.121

5. Human heart-forming organoids recapitulate early heart and foregut development.

Authors: Lika Drakhlis; Santoshi Biswanath; Clara-Milena Farr; Victoria Lupanow; Jana Teske; Katharina Ritzenhoff; Annika Franke; Felix Manstein; Emiliano Bolesani; Henning Kempf; Simone Liebscher; Katja Schenke-Layland; Jan Hegermann; Lena Nolte; Heiko Meyer; Jeanne de la Roche; Stefan Thiemann; Christian Wahl-Schott; Ulrich Martin; Robert Zweigerdt
Journal: Nat Biotechnol Date: 2021-02-08 Impact factor: 54.908

Review 6. The yin and yang of kidney development and Wilms' tumors.

Authors: Peter Hohenstein; Kathy Pritchard-Jones; Jocelyn Charlton
Journal: Genes Dev Date: 2015-03-01 Impact factor: 11.361

7. Deducing the stage of origin of Wilms' tumours from a developmental series of Wt1-mutant mice.

Authors: Rachel L Berry; Derya D Ozdemir; Bruce Aronow; Nils O Lindström; Tatiana Dudnakova; Anna Thornburn; Paul Perry; Richard Baldock; Chris Armit; Anagha Joshi; Cécile Jeanpierre; Jingdong Shan; Seppo Vainio; James Baily; David Brownstein; Jamie Davies; Nicholas D Hastie; Peter Hohenstein
Journal: Dis Model Mech Date: 2015-05-14 Impact factor: 5.758