Literature DB >> 8168088

Differential expression of human Wnt genes 2, 3, 4, and 7B in human breast cell lines and normal and disease states of human breast tissue.

E L Huguet1, J A McMahon, A P McMahon, R Bicknell, A L Harris.   

Abstract

Wnt gene expression was investigated by ribonuclease protection analysis in human breast cancer, nontumorous breast tissue, and a variety of human breast cell lines. We report the expression of Wnt3, Wnt4, and Wnt7b in human breast cell lines and Wnt2, Wnt3, Wnt4, and Wnt7b in human breast tissues. Wnt3a and Wnt7a were absent in the cell lines and tissues tested. The level of expression of Wnt2 and Wnt4 was 10- to 20-fold higher in fibroadenomas than it was in normal or malignant breast tissue, and in 10% of tumors Wnt7b expression was 30-fold higher than in normal or benign breast tissues. In contrast to the mouse, in which Wnt1 and Wnt3 are involved in tumorigenesis, our results suggest that Wnt2, Wnt4, and Wnt7b may be associated with abnormal proliferation in human breast tissue.

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Year:  1994        PMID: 8168088

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  65 in total

Review 1.  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

2.  Mesd is a universal inhibitor of Wnt coreceptors LRP5 and LRP6 and blocks Wnt/beta-catenin signaling in cancer cells.

Authors:  Wenyan Lu; Chia-Chen Liu; Jaideep V Thottassery; Guojun Bu; Yonghe Li
Journal:  Biochemistry       Date:  2010-06-08       Impact factor: 3.162

3.  Increased beta-catenin protein and somatic APC mutations in sporadic aggressive fibromatoses (desmoid tumors).

Authors:  B A Alman; C Li; M E Pajerski; S Diaz-Cano; H J Wolfe
Journal:  Am J Pathol       Date:  1997-08       Impact factor: 4.307

Review 4.  Wnt signaling and the control of human stem cell fate.

Authors:  J K Van Camp; S Beckers; D Zegers; W Van Hul
Journal:  Stem Cell Rev Rep       Date:  2014-04       Impact factor: 5.739

5.  WNT10B functional dualism: beta-catenin/Tcf-dependent growth promotion or independent suppression with deregulated expression in cancer.

Authors:  Hirohide Yoshikawa; Kenichi Matsubara; Xiaoling Zhou; Shu Okamura; Takahiko Kubo; Yaeko Murase; Yuko Shikauchi; Manel Esteller; James G Herman; Xin Wei Wang; Curtis C Harris
Journal:  Mol Biol Cell       Date:  2007-08-29       Impact factor: 4.138

Review 6.  Dishevelled: A masterful conductor of complex Wnt signals.

Authors:  Monica Sharma; Isabel Castro-Piedras; Glenn E Simmons; Kevin Pruitt
Journal:  Cell Signal       Date:  2018-03-17       Impact factor: 4.315

7.  Wnt gene expression in human trabecular meshwork cells.

Authors:  Rajalekshmy Shyam; Xiang Shen; Beatrice Y J T Yue; Kelly K Wentz-Hunter
Journal:  Mol Vis       Date:  2010-01-28       Impact factor: 2.367

8.  An investigation of WNT pathway activation and association with survival in central nervous system primitive neuroectodermal tumours (CNS PNET).

Authors:  H A Rogers; S Miller; J Lowe; M-A Brundler; B Coyle; R G Grundy
Journal:  Br J Cancer       Date:  2009-03-17       Impact factor: 7.640

9.  WNT signaling enhances breast cancer cell motility and blockade of the WNT pathway by sFRP1 suppresses MDA-MB-231 xenograft growth.

Authors:  Yutaka Matsuda; Thomas Schlange; Edward J Oakeley; Anne Boulay; Nancy E Hynes
Journal:  Breast Cancer Res       Date:  2009-05-27       Impact factor: 6.466

10.  Sulf-2, a heparan sulfate endosulfatase, promotes human lung carcinogenesis.

Authors:  H Lemjabbar-Alaoui; A van Zante; M S Singer; Q Xue; Y-Q Wang; D Tsay; B He; D M Jablons; S D Rosen
Journal:  Oncogene       Date:  2009-10-26       Impact factor: 9.867
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