Literature DB >> 21104785

Sulfatase 1 and sulfatase 2 in hepatocellular carcinoma: associated signaling pathways, tumor phenotypes, and survival.

Ju Dong Yang1, Zhifu Sun, Chunling Hu, Jinping Lai, Rebecca Dove, Ikuo Nakamura, Ju-Seog Lee, Snorri S Thorgeirsson, Koo Jeong Kang, In-Sun Chu, Lewis R Roberts.   

Abstract

The heparin-degrading endosulfatases sulfatase 1 (SULF1) and sulfatase 2 (SULF2) have opposing effects in hepatocarcinogenesis despite structural similarity. Using mRNA expression arrays, we analyzed the correlations of SULF expression with signaling networks in human hepatocellular carcinomas (HCCs) and the associations of SULF expression with tumor phenotype and patient survival. Data from two mRNA microarray analyses of 139 and 36 HCCs and adjacent tissues were used as training and validation sets. Partek and Metacore software were used to identify SULF correlated genes and their associated signaling pathways. Associations between SULF expression, the hepatoblast subtype of HCC, and survival were examined. Both SULF1 and 2 had strong positive correlations with periostin, IQGAP1, TGFB1, and vimentin and inverse correlations with HNF4A and IQGAP2. Genes correlated with both SULFs were highly associated with the cell adhesion, cytoskeletal remodeling, blood coagulation, TGFB, and Wnt/β-catenin and epithelial mesenchymal transition signaling pathways. Genes uniquely correlated with SULF2 were more associated with neoplastic processes than genes uniquely correlated with SULF1. High SULF expression was associated with the hepatoblast subtype of HCC. There was a bimodal effect of SULF1 expression on prognosis, with patients in the lowest or highest tertile having a worse prognosis than those in the middle tertile. SULFs have complex effects on HCC signaling and patient survival. There are functionally similar associations with cell adhesion, ECM remodeling, TGFB, and WNT pathways, but also unique associations of SULF1 and SULF2. The roles and targeting of the SULFs in cancer require further investigation.
© 2010 Wiley-Liss, Inc.

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Year:  2011        PMID: 21104785      PMCID: PMC3253341          DOI: 10.1002/gcc.20838

Source DB:  PubMed          Journal:  Genes Chromosomes Cancer        ISSN: 1045-2257            Impact factor:   5.006


  50 in total

1.  The oncogenic effect of sulfatase 2 in human hepatocellular carcinoma is mediated in part by glypican 3-dependent Wnt activation.

Authors:  Jin-Ping Lai; Abdul M Oseini; Catherine D Moser; Chunrong Yu; Sherine F Elsawa; Chunling Hu; Ikuo Nakamura; Tao Han; Ileana Aderca; Hajime Isomoto; Megan M Garrity-Park; Abdirashid M Shire; Jia Li; Schuyler O Sanderson; Alex A Adjei; Martin E Fernandez-Zapico; Lewis R Roberts
Journal:  Hepatology       Date:  2010-11       Impact factor: 17.425

2.  IQGAP1 integrates Ca2+/calmodulin and Cdc42 signaling.

Authors:  Y D Ho; J L Joyal; Z Li; D B Sacks
Journal:  J Biol Chem       Date:  1999-01-01       Impact factor: 5.157

3.  Role of IQGAP1, a target of the small GTPases Cdc42 and Rac1, in regulation of E-cadherin- mediated cell-cell adhesion.

Authors:  S Kuroda; M Fukata; M Nakagawa; K Fujii; T Nakamura; T Ookubo; I Izawa; T Nagase; N Nomura; H Tani; I Shoji; Y Matsuura; S Yonehara; K Kaibuchi
Journal:  Science       Date:  1998-08-07       Impact factor: 47.728

4.  The PG500 series: novel heparan sulfate mimetics as potent angiogenesis and heparanase inhibitors for cancer therapy.

Authors:  K Dredge; E Hammond; K Davis; C P Li; L Liu; K Johnstone; P Handley; N Wimmer; T J Gonda; A Gautam; V Ferro; I Bytheway
Journal:  Invest New Drugs       Date:  2009-04-09       Impact factor: 3.850

5.  Direct detection of HSulf-1 and HSulf-2 activities on extracellular heparan sulfate and their inhibition by PI-88.

Authors:  Md Motarab Hossain; Tomomi Hosono-Fukao; Renhong Tang; Noriko Sugaya; Toin H van Kuppevelt; Guido J Jenniskens; Koji Kimata; Steven D Rosen; Kenji Uchimura
Journal:  Glycobiology       Date:  2009-10-12       Impact factor: 4.313

6.  Quantitative proteomic analysis of HepG2 cells treated with quercetin suggests IQGAP1 involved in quercetin-induced regulation of cell proliferation and migration.

Authors:  Jin Zhou; Shufang Liang; Li Fang; Lijuan Chen; Minghai Tang; Yuhuan Xu; Afu Fu; Jinliang Yang; Yuquan Wei
Journal:  OMICS       Date:  2009-04

7.  Expression of periostin in the serum of NSCLC and its function on proliferation and migration of human lung adenocarcinoma cell line (A549) in vitro.

Authors:  Lingzhi Hong; Huiming Sun; Xiaojing Lv; Di Yang; Jinan Zhang; Yi Shi
Journal:  Mol Biol Rep       Date:  2009-08-18       Impact factor: 2.316

8.  HpSulf, a heparan sulfate 6-O-endosulfatase, is involved in the regulation of VEGF signaling during sea urchin development.

Authors:  Kazumasa Fujita; Eriko Takechi; Naoaki Sakamoto; Noriko Sumiyoshi; Shunsuke Izumi; Tatsuo Miyamoto; Shinya Matsuura; Toko Tsurugaya; Koji Akasaka; Takashi Yamamoto
Journal:  Mech Dev       Date:  2009-12-29       Impact factor: 1.882

9.  Differential involvement of the extracellular 6-O-endosulfatases Sulf1 and Sulf2 in brain development and neuronal and behavioural plasticity.

Authors:  Ina Kalus; Benedikt Salmen; Christoph Viebahn; Kurt von Figura; Dietmar Schmitz; Rudi D'Hooge; Thomas Dierks
Journal:  J Cell Mol Med       Date:  2009 Nov-Dec       Impact factor: 5.310

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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  31 in total

1.  The extracellular sulfatase SULF2 promotes liver tumorigenesis by stimulating assembly of a promoter-looping GLI1-STAT3 transcriptional complex.

Authors:  Ryan M Carr; Paola A Romecin Duran; Ezequiel J Tolosa; Chenchao Ma; Abdul M Oseini; Catherine D Moser; Bubu A Banini; Jianbo Huang; Faizal Asumda; Renumathy Dhanasekaran; Rondell P Graham; Merih D Toruner; Stephanie L Safgren; Luciana L Almada; Shaoqing Wang; Mrinal M Patnaik; Lewis R Roberts; Martin E Fernandez-Zapico
Journal:  J Biol Chem       Date:  2020-01-27       Impact factor: 5.157

2.  Sulfatase 1: a new Jekyll and Hyde in hepatocellular carcinoma?

Authors:  Rosa M Pascale; Diego F Calvisi; Francesco Feo
Journal:  Transl Gastroenterol Hepatol       Date:  2016-05-18

3.  Transcriptional Induction of Periostin by a Sulfatase 2-TGFβ1-SMAD Signaling Axis Mediates Tumor Angiogenesis in Hepatocellular Carcinoma.

Authors:  Gang Chen; Ikuo Nakamura; Renumathy Dhanasekaran; Eriko Iguchi; Ezequiel J Tolosa; Paola A Romecin; Renzo E Vera; Luciana L Almada; Alexander G Miamen; Roongruedee Chaiteerakij; Mengtao Zhou; Michael K Asiedu; Catherine D Moser; Shaoshan Han; Chunling Hu; Bubu A Banini; Abdul M Oseini; Yichun Chen; Yong Fang; Dongye Yang; Hassan M Shaleh; Shaoqing Wang; Dehai Wu; Tao Song; Ju-Seog Lee; Snorri S Thorgeirsson; Eric Chevet; Vijay H Shah; Martin E Fernandez-Zapico; Lewis R Roberts
Journal:  Cancer Res       Date:  2016-11-21       Impact factor: 12.701

4.  Phenotypic Categorization and Profiles of Small and Large Hepatocellular Carcinomas.

Authors:  Petr Pancoska; Sheng-Nan Lu; Brian I Carr
Journal:  J Gastrointest Dig Syst       Date:  2013-03-02

5.  Activation of the transforming growth factor-β/SMAD transcriptional pathway underlies a novel tumor-promoting role of sulfatase 1 in hepatocellular carcinoma.

Authors:  Renumathy Dhanasekaran; Ikuo Nakamura; Chunling Hu; Gang Chen; Abdul M Oseini; Elif Sezin Seven; Alexander G Miamen; Catherine D Moser; Wei Zhou; Toin H van Kuppevelt; Jan M van Deursen; Taofic Mounajjed; Martin E Fernandez-Zapico; Lewis R Roberts
Journal:  Hepatology       Date:  2015-02-13       Impact factor: 17.425

Review 6.  Proteoglycans and their roles in brain cancer.

Authors:  Anna Wade; Aaron E Robinson; Jane R Engler; Claudia Petritsch; C David James; Joanna J Phillips
Journal:  FEBS J       Date:  2013-02-06       Impact factor: 5.542

7.  The human sulfatase 2 inhibitor 2,4-disulfonylphenyl-tert-butylnitrone (OKN-007) has an antitumor effect in hepatocellular carcinoma mediated via suppression of TGFB1/SMAD2 and Hedgehog/GLI1 signaling.

Authors:  Xin Zheng; Xiaohong Gai; Shaoshan Han; Catherine D Moser; Chunling Hu; Abdirashid M Shire; Robert A Floyd; Lewis R Roberts
Journal:  Genes Chromosomes Cancer       Date:  2012-10-29       Impact factor: 5.006

8.  An oncolytic adenovirus regulated by a radiation-inducible promoter selectively mediates hSulf-1 gene expression and mutually reinforces antitumor activity of I131-metuximab in hepatocellular carcinoma.

Authors:  Yan Zhang; Lin Fang; Quan'an Zhang; Qin Zheng; Jinlong Tong; Xiaohui Fu; Xiaoqing Jiang; Changqing Su; Junnian Zheng
Journal:  Mol Oncol       Date:  2012-11-07       Impact factor: 6.603

9.  Mammalian Sulf1 RNA alternative splicing and its significance to tumour growth regulation.

Authors:  Rai B S Gill; Amy Day; Amy Barstow; Gul Zaman; Chantal Chenu; Gurtej K Dhoot
Journal:  Tumour Biol       Date:  2012-06-15

10.  MYCN-dependent expression of sulfatase-2 regulates neuroblastoma cell survival.

Authors:  Valeria Solari; Lucia Borriello; Gianluca Turcatel; Hiroyuki Shimada; Richard Sposto; G Esteban Fernandez; Shahab Asgharzadeh; Edwin A Yates; Jeremy E Turnbull; Yves A DeClerck
Journal:  Cancer Res       Date:  2014-08-27       Impact factor: 12.701
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