Literature DB >> 26490312

Loss of Glycogen Debranching Enzyme AGL Drives Bladder Tumor Growth via Induction of Hyaluronic Acid Synthesis.

Sunny Guin1, Yuanbin Ru1, Neeraj Agarwal1, Carolyn R Lew1, Charles Owens1, Giacomo P Comi2, Dan Theodorescu3.   

Abstract

PURPOSE: We demonstrated that amylo-alpha-1-6-glucosidase-4-alpha-glucanotransferase (AGL) is a tumor growth suppressor and prognostic marker in human bladder cancer. Here we determine how AGL loss enhances tumor growth, hoping to find therapeutically tractable targets/pathways that could be used in patients with low AGL-expressing tumors. EXPERIMENTAL
DESIGN: We transcriptionally profiled bladder cell lines with different AGL expression. By focusing on transcripts overexpressed as a function of low AGL and associated with adverse clinicopathologic variables in human bladder tumors, we sought to increase the chances of discovering novel therapeutic opportunities.
RESULTS: One such transcript was hyaluronic acid synthase 2 (HAS2), an enzyme responsible for hyaluronic acid (HA) synthesis. HAS2 expression was inversely proportional to that of AGL in bladder cancer cells and immortalized and normal urothelium. HAS2-driven HA synthesis was enhanced in bladder cancer cells with low AGL, and this drove anchorage-dependent and independent growth. siRNA-mediated depletion of HAS2 or inhibition of HA synthesis by 4-methylumbelliferone (4MU) abrogated in vitro and xenograft growth of bladder cancer cells with low AGL. AGL and HAS2 mRNA expression in human tumors was inversely correlated in patient datasets. Patients with high HAS2 and low AGL tumor mRNA expression had poor survival, lending clinical support to xenograft findings that HAS2 drives growth of tumors with low AGL.
CONCLUSIONS: Our study establishes HAS2-mediated HA synthesis as a driver of growth of bladder cancer with low AGL and provides preclinical rationale for personalized targeting of HAS2/HA signaling in patients with low AGL-expressing tumors. ©2015 American Association for Cancer Research.

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Year:  2015        PMID: 26490312      PMCID: PMC4775343          DOI: 10.1158/1078-0432.CCR-15-1706

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  32 in total

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Authors:  Mario W Kramer; Diogo O Escudero; Soum D Lokeshwar; Roozbeh Golshani; Obi O Ekwenna; Kristell Acosta; Axel S Merseburger; Mark Soloway; Vinata B Lokeshwar
Journal:  Cancer       Date:  2010-10-19       Impact factor: 6.860

2.  An hTERT-immortalized human urothelial cell line that responds to anti-proliferative factor.

Authors:  Jayoung Kim; Mihee Ji; Joseph A DiDonato; Raymond R Rackley; Mei Kuang; Provash C Sadhukhan; Joshua R Mauney; Susan K Keay; Michael R Freeman; Louis S Liou; Rosalyn M Adam
Journal:  In Vitro Cell Dev Biol Anim       Date:  2010-12-07       Impact factor: 2.416

3.  Profiling the evolution of human metastatic bladder cancer.

Authors:  Brian E Nicholson; Henry F Frierson; Mark R Conaway; Jabed M Seraj; Michael A Harding; Garret M Hampton; Dan Theodorescu
Journal:  Cancer Res       Date:  2004-11-01       Impact factor: 12.701

4.  Glycogen storage disease type III: A novel Agl knockout mouse model.

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Journal:  Biochim Biophys Acta       Date:  2014-08-01

5.  Alteration of cell-cell and cell-matrix adhesion in urothelial cells: an oncogenic mechanism for mutant FGFR3.

Authors:  Erica di Martino; Gavin Kelly; Jo-An Roulson; Margaret A Knowles
Journal:  Mol Cancer Res       Date:  2014-09-15       Impact factor: 5.852

6.  Glycogen storage disease type III diagnosis and management guidelines.

Authors:  Priya S Kishnani; Stephanie L Austin; Pamela Arn; Deeksha S Bali; Anne Boney; Laura E Case; Wendy K Chung; Dev M Desai; Areeg El-Gharbawy; Ronald Haller; G Peter A Smit; Alastair D Smith; Lisa D Hobson-Webb; Stephanie Burns Wechsler; David A Weinstein; Michael S Watson
Journal:  Genet Med       Date:  2010-07       Impact factor: 8.822

7.  Significance of semaphorin-3A and MMP-14 protein expression in non-small cell lung cancer.

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8.  Predictive value of progression-related gene classifier in primary non-muscle invasive bladder cancer.

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Journal:  Mol Cancer       Date:  2010-01-08       Impact factor: 27.401

Review 9.  Targeting hyaluronic acid family for cancer chemoprevention and therapy.

Authors:  Vinata B Lokeshwar; Summan Mirza; Andre Jordan
Journal:  Adv Cancer Res       Date:  2014       Impact factor: 6.242

10.  Orphan nuclear receptor HNF4G promotes bladder cancer growth and invasion through the regulation of the hyaluronan synthase 2 gene.

Authors:  T Okegawa; K Ushio; M Imai; M Morimoto; T Hara
Journal:  Oncogenesis       Date:  2013-07-29       Impact factor: 7.485
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  13 in total

1.  Bladder cancer: In the driving seat - AGL loss drives tumour growth.

Authors:  Louise Stone
Journal:  Nat Rev Urol       Date:  2015-11-10       Impact factor: 14.432

2.  Elucidating the role of Agl in bladder carcinogenesis by generation and characterization of genetically engineered mice.

Authors:  Joseph L Sottnik; Vandana Mallaredy; Ana Chauca-Diaz; Carolyn Ritterson Lew; Charles Owens; Garrett M Dancik; Serena Pagliarani; Sabrina Lucchiari; Maurizio Moggio; Michela Ripolone; Giacomo P Comi; Henry F Frierson; David Clouthier; Dan Theodorescu
Journal:  Carcinogenesis       Date:  2019-03-12       Impact factor: 4.944

3.  Physical biology of the cancer cell glycocalyx.

Authors:  Joe Chin-Hun Kuo; Jay G Gandhi; Roseanna N Zia; Matthew J Paszek
Journal:  Nat Phys       Date:  2018-07-04       Impact factor: 20.034

4.  A Festschrift in Honor of Edward M. Messing, MD, FACS.

Authors:  Jean V Joseph; Ralph Brasacchio; Chunkit Fung; Jay Reeder; Kevin Bylund; Deepak Sahasrabudhe; Shu Yuan Yeh; Ahmed Ghazi; Patrick Fultz; Deborah Rubens; Guan Wu; Eric Singer; Edward Schwarz; Supriya Mohile; James Mohler; Dan Theodorescu; Yi Fen Lee; Paul Okunieff; David McConkey; Hani Rashid; Chawnshang Chang; Yves Fradet; Khurshid Guru; Janet Kukreja; Gerald Sufrin; Yair Lotan; Howard Bailey; Katia Noyes; Seymour Schwartz; Kathy Rideout; Gennady Bratslavsky; Steven C Campbell; Ithaar Derweesh; Per-Anders Abrahamsson; Mark Soloway; Leonard Gomella; Dragan Golijanin; Robert Svatek; Thomas Frye; Seth Lerner; Ganesh Palapattu; George Wilding; Michael Droller; Donald Trump
Journal:  Bladder Cancer       Date:  2018-10-03

5.  Involvement of glycogen debranching enzyme in bladder cancer.

Authors:  Benjamin Weinhaus; Sunny Guin
Journal:  Biomed Rep       Date:  2017-05-09

6.  Identification of a glycolysis-related gene signature associated with clinical outcome for patients with lung squamous cell carcinoma.

Authors:  Ziming Xu; Shiwei Zhang; Fulai Nian; Shangyu Xu
Journal:  Cancer Med       Date:  2021-05-15       Impact factor: 4.452

7.  CD44 and RHAMM are essential for rapid growth of bladder cancer driven by loss of Glycogen Debranching Enzyme (AGL).

Authors:  Darby Oldenburg; Yuanbin Ru; Benjamin Weinhaus; Steve Cash; Dan Theodorescu; Sunny Guin
Journal:  BMC Cancer       Date:  2016-09-05       Impact factor: 4.430

8.  Androgen Receptor Regulates CD44 Expression in Bladder Cancer.

Authors:  Joseph L Sottnik; Lauren Vanderlinden; Molishree Joshi; Ana Chauca-Diaz; Charles Owens; Donna E Hansel; Colin Sempeck; Debashis Ghosh; Dan Theodorescu
Journal:  Cancer Res       Date:  2021-03-09       Impact factor: 13.312

Review 9.  Glycogen metabolism has a key role in the cancer microenvironment and provides new targets for cancer therapy.

Authors:  Christos E Zois; Adrian L Harris
Journal:  J Mol Med (Berl)       Date:  2016-02-17       Impact factor: 4.599

10.  Hyaluronic acid family in bladder cancer: potential prognostic biomarkers and therapeutic targets.

Authors:  Daley S Morera; Martin S Hennig; Asif Talukder; Soum D Lokeshwar; Jiaojiao Wang; Michael Garcia-Roig; Nicolas Ortiz; Travis J Yates; Luis E Lopez; Georgios Kallifatidis; Mario W Kramer; Andre R Jordan; Axel S Merseburger; Murugesan Manoharan; Mark S Soloway; Martha K Terris; Vinata B Lokeshwar
Journal:  Br J Cancer       Date:  2017-10-03       Impact factor: 7.640
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