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Literature DB >> 15300008

Wnt proteins in mammary development and cancer.

Abstract

Secreted proteins of the Wnt family play widespread roles in the regulation of embryonic development, and aberrant activation of the canonical Wnt/beta-catenin pathway is one of the most frequent signaling abnormalities known in human cancer. While the consequences of Wnt signaling in development are diverse at the cellular level, they are often concerned with cell fate determination. Recent data also indicate that Wnt proteins influence the self-renewal of stem cells in certain tissues. In the mammary gland, Wnt signals are strongly implicated in initial development of the mammary rudiments, and in the ductal branching and alveolar morphogenesis that occurs during pregnancy. Transgenic expression of Wnt1 or Wnt10b in the mouse mammary gland leads to lobuloalveolar hyperplasia with a major risk of progression to carcinoma. Recent evidence suggests that this phenotype is associated with expansion of a multipotent progenitor cell population. In human breast cancer, evidence of beta-catenin accumulation implies that the canonical Wnt signaling pathway is active in over 50% of carcinomas. However, specific mutations that might account for this activation of signaling have not yet been identified.

Entities: Disease Gene Species

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Year: 2004 PMID： 15300008 DOI： 10.1023/B:JOMG.0000037157.94207.33

Source DB: PubMed Journal: J Mammary Gland Biol Neoplasia ISSN： 1083-3021 Impact factor: 2.673

97 in total

1. Identification of Vangl2 and Scrb1 as planar polarity genes in mammals.

Authors: Mireille Montcouquiol; Rivka A Rachel; Pamela J Lanford; Neal G Copeland; Nancy A Jenkins; Matthew W Kelley
Journal: Nature Date: 2003-04-30 Impact factor: 49.962

Review 2. A second canon. Functions and mechanisms of beta-catenin-independent Wnt signaling.

Authors: Michael T Veeman; Jeffrey D Axelrod; Randall T Moon
Journal: Dev Cell Date: 2003-09 Impact factor: 12.270

Review 3. Mechanisms of Wnt signaling in development.

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Journal: Annu Rev Cell Dev Biol Date: 1998 Impact factor: 13.827

4. Transformation by Wnt family proteins correlates with regulation of beta-catenin.

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Journal: Cell Growth Differ Date: 1997-12

5. A mouse mammary tumor virus-Wnt-1 transgene induces mammary gland hyperplasia and tumorigenesis in mice lacking estrogen receptor-alpha.

Authors: W P Bocchinfuso; W P Hively; J F Couse; H E Varmus; K S Korach
Journal: Cancer Res Date: 1999-04-15 Impact factor: 12.701

6. The Drosophila homolog of the mouse mammary oncogene int-1 is identical to the segment polarity gene wingless.

Authors: F Rijsewijk; M Schuermann; E Wagenaar; P Parren; D Weigel; R Nusse
Journal: Cell Date: 1987-08-14 Impact factor: 41.582

7. Murine Wnt-11 and Wnt-12 have temporally and spatially restricted expression patterns during embryonic development.

Authors: J H Christiansen; C L Dennis; C A Wicking; S J Monkley; D G Wilkinson; B J Wainwright
Journal: Mech Dev Date: 1995-06 Impact factor: 1.882

8. Many tumors induced by the mouse mammary tumor virus contain a provirus integrated in the same region of the host genome.

Authors: R Nusse; H E Varmus
Journal: Cell Date: 1982-11 Impact factor: 41.582

9. Role of endocrine, autocrine, and paracrine interactions in the development of mammary hyperplasia in Wnt-1 transgenic mice.

Authors: T P Lin; R C Guzman; R C Osborn; G Thordarson; S Nandi
Journal: Cancer Res Date: 1992-08-15 Impact factor: 12.701

10. Dishevelled activates Ca2+ flux, PKC, and CamKII in vertebrate embryos.

Authors: Laird C Sheldahl; Diane C Slusarski; Petra Pandur; Jeffrey R Miller; Michael Kühl; Randall T Moon
Journal: J Cell Biol Date: 2003-05-26 Impact factor: 10.539

108 in total

1. Both LRP5 and LRP6 receptors are required to respond to physiological Wnt ligands in mammary epithelial cells and fibroblasts.

Authors: Shruti Goel; Emily N Chin; Saja A Fakhraldeen; Scott M Berry; David J Beebe; Caroline M Alexander
Journal: J Biol Chem Date: 2012-03-20 Impact factor: 5.157

Review 2. Wnt signaling in mammary glands: plastic cell fates and combinatorial signaling.

Authors: Caroline M Alexander; Shruti Goel; Saja A Fakhraldeen; Soyoung Kim
Journal: Cold Spring Harb Perspect Biol Date: 2012-10-01 Impact factor: 10.005

Review 3. Cell-matrix interactions in mammary gland development and breast cancer.

Authors: John Muschler; Charles H Streuli
Journal: Cold Spring Harb Perspect Biol Date: 2010-08-11 Impact factor: 10.005

Review 4. Cell polarity in motion: redefining mammary tissue organization through EMT and cell polarity transitions.

Authors: Nathan J Godde; Ryan C Galea; Imogen A Elsum; Patrick O Humbert
Journal: J Mammary Gland Biol Neoplasia Date: 2010-05-12 Impact factor: 2.673

5. Fibroblast growth factor receptor signaling dramatically accelerates tumorigenesis and enhances oncoprotein translation in the mouse mammary tumor virus-Wnt-1 mouse model of breast cancer.

Authors: Adam C Pond; Jason I Herschkowitz; Kathryn L Schwertfeger; Bryan Welm; Yiqun Zhang; Brian York; Robert D Cardiff; Susan Hilsenbeck; Charles M Perou; Chad J Creighton; Richard E Lloyd; Jeffrey M Rosen
Journal: Cancer Res Date: 2010-05-25 Impact factor: 12.701

6. Leptin-induced epithelial-mesenchymal transition in breast cancer cells requires β-catenin activation via Akt/GSK3- and MTA1/Wnt1 protein-dependent pathways.

Authors: Dan Yan; Dimiter Avtanski; Neeraj K Saxena; Dipali Sharma
Journal: J Biol Chem Date: 2012-01-23 Impact factor: 5.157