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Literature DB >> 17889671

The MUC1 and galectin-3 oncoproteins function in a microRNA-dependent regulatory loop.

Selvi Ramasamy¹, Sekhar Duraisamy, Sergei Barbashov, Takeshi Kawano, Surender Kharbanda, Donald Kufe.

Abstract

The MUC1 heterodimeric transmembrane glycoprotein is aberrantly overexpressed by diverse human carcinomas. Galectin-3 is a beta-galactoside binding protein that has also been associated with the development of human cancers. The present results demonstrate that MUC1 induces galectin-3 expression by a posttranscriptional mechanism. We show that the MUC1 C-terminal subunit is glycosylated on Asn-36 and that this modification is necessary for upregulation of galectin-3. N-glycosylated MUC1-C increases galectin-3 mRNA levels by suppressing expression of the microRNA miR-322 and thereby stabilizing galectin-3 transcripts. The results show that, in turn, galectin-3 binds to MUC1-C at the glycosylated Asn-36 site. The significance of the MUC1-C-galectin-3 interaction is supported by the demonstration that galectin-3 forms a bridge between MUC1 and the epidermal growth factor receptor (EGFR) and that galectin-3 is essential for EGF-mediated interactions between MUC1 and EGFR. These findings indicate that MUC1 and galectin-3 function as part of a miR-322-dependent regulatory loop.

Entities: Chemical Disease Gene Species

Mesh：

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Year: 2007 PMID： 17889671 PMCID： PMC4217170 DOI： 10.1016/j.molcel.2007.07.031

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 17.970

53 in total

1. MUC1 oncoprotein is targeted to mitochondria by heregulin-induced activation of c-Src and the molecular chaperone HSP90.

Authors: J Ren; A Bharti; D Raina; W Chen; R Ahmad; D Kufe
Journal: Oncogene Date: 2006-01-05 Impact factor: 9.867

2. MicroRNAs acting in a double-negative feedback loop to control a neuronal cell fate decision.

Authors: Robert J Johnston; Sarah Chang; John F Etchberger; Christopher O Ortiz; Oliver Hobert
Journal: Proc Natl Acad Sci U S A Date: 2005-08-12 Impact factor: 11.205

3. MicroRNAs direct rapid deadenylation of mRNA.

Authors: Ligang Wu; Jihua Fan; Joel G Belasco
Journal: Proc Natl Acad Sci U S A Date: 2006-02-22 Impact factor: 11.205

4. Galectin-3 phosphorylation is required for its anti-apoptotic function and cell cycle arrest.

Authors: Tadashi Yoshii; Tomoharu Fukumori; Yuichiro Honjo; Hidenori Inohara; Hyeong-Reh Choi Kim; Avraham Raz
Journal: J Biol Chem Date: 2001-11-27 Impact factor: 5.157

5. RAS is regulated by the let-7 microRNA family.

Authors: Steven M Johnson; Helge Grosshans; Jaclyn Shingara; Mike Byrom; Rich Jarvis; Angie Cheng; Emmanuel Labourier; Kristy L Reinert; David Brown; Frank J Slack
Journal: Cell Date: 2005-03-11 Impact factor: 41.582

6. Galectin-induced activation of the transcription factors NFAT and AP-1 in human Jurkat T-lymphocytes.

Authors: Hermann Walzel; Matthias Blach; Jun Hirabayashi; Yoichiro Arata; Ken-ichi Kasai; Josef Brock
Journal: Cell Signal Date: 2002-10 Impact factor: 4.315

7. Regulation of cytokine receptors by Golgi N-glycan processing and endocytosis.

Authors: Emily A Partridge; Christine Le Roy; Gianni M Di Guglielmo; Judy Pawling; Pam Cheung; Maria Granovsky; Ivan R Nabi; Jeffrey L Wrana; James W Dennis
Journal: Science Date: 2004-10-01 Impact factor: 47.728

8. DF3/MUC1 signaling in multiple myeloma cells is regulated by interleukin-7.

Authors: Yongqing Li; Wen Chen; Jian Ren; Wei-Hsuan Yu; Quan Li; Kiyotsugu Yoshida; Donald Kufe
Journal: Cancer Biol Ther Date: 2003 Mar-Apr Impact factor: 4.742

Review 9. Galectin-3 and metastasis.

Authors: Yukinori Takenaka; Tomoharu Fukumori; Avraham Raz
Journal: Glycoconj J Date: 2002 Impact factor: 2.916

10. Human DF3/MUC1 carcinoma-associated protein functions as an oncogene.

Authors: Yongqing Li; Derek Liu; Dongshu Chen; Surender Kharbanda; Donald Kufe
Journal: Oncogene Date: 2003-09-04 Impact factor: 9.867

109 in total

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Authors: Govind Panchamoorthy; Hala Rehan; Akriti Kharbanda; Rehan Ahmad; Donald Kufe
Journal: Hybridoma (Larchmt) Date: 2011-12

Review 2. Mucins in the pathogenesis of breast cancer: implications in diagnosis, prognosis and therapy.

Authors: Partha Mukhopadhyay; Subhankar Chakraborty; Moorthy P Ponnusamy; Imayavaramban Lakshmanan; Maneesh Jain; Surinder K Batra
Journal: Biochim Biophys Acta Date: 2011-01-26

3. MUC1-C Oncoprotein Interacts Directly with ATM and Promotes the DNA Damage Response to Ionizing Radiation.

Authors: Lei Huang; Xiaodong Liao; Michael Beckett; Yuan Li; Kum Kum Khanna; Zhugang Wang; Surender Kharbanda; Ralph Weichselbaum; Donald Kufe
Journal: Genes Cancer Date: 2010-03

Review 4. Molecular therapy of breast cancer: progress and future directions.

Authors: Sheng-Xiang Lin; Jiong Chen; Mausumi Mazumdar; Donald Poirier; Cheng Wang; Arezki Azzi; Ming Zhou
Journal: Nat Rev Endocrinol Date: 2010-07-20 Impact factor: 43.330

Review 5. Towards molecular mechanisms regulating the expression of galectins in cancer cells under microenvironmental stress conditions.

Authors: Alexander V Timoshenko
Journal: Cell Mol Life Sci Date: 2015-08-06 Impact factor: 9.261

6. MUC1-C oncoprotein suppresses reactive oxygen species-induced terminal differentiation of acute myelogenous leukemia cells.

Authors: Li Yin; Zekui Wu; David Avigan; Jacalyn Rosenblatt; Richard Stone; Surender Kharbanda; Donald Kufe
Journal: Blood Date: 2011-03-21 Impact factor: 22.113