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Literature DB >> 25916206

The roles of ADAMTS in angiogenesis and cancer.

Abstract

Angiogenesis is an indispensable mechanism involved in both physiological processes and various pathological conditions, such as inflammation, aberrant wound healing, tumor progression, and metastasis. Among many angiogenic stimulators and inhibitors, vascular endothelial growth factor (VEGF) is regarded as one of the most important members of the signaling protein family involved in blood vessel formation and maturation. The a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTSs) proteins are a family of multifunctional proteinases. Such proteolytic enzymes are associated with various physiological processes, such as collagen maturation, organogenesis, angiogenesis, and reproduction. Importantly, deficiency or overexpression of certain ADAMTS proteinases has been shown to be directly involved in a number of serious diseases, including tumor progression and metastasis. This review explores in-depth the connections between ADAMTS proteinases as positive/negative mediators during angiogenesis and VEGF.

Entities: Disease Gene

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Year: 2015 PMID： 25916206 DOI： 10.1007/s13277-015-3461-8

Source DB: PubMed Journal: Tumour Biol ISSN： 1010-4283

111 in total

Review 1. Proteoglycan degradation by the ADAMTS family of proteinases.

Authors: Heather Stanton; James Melrose; Christopher B Little; Amanda J Fosang
Journal: Biochim Biophys Acta Date: 2011-09-02

2. Thrombospondin-2: a potent endogenous inhibitor of tumor growth and angiogenesis.

Authors: M Streit; L Riccardi; P Velasco; L F Brown; T Hawighorst; P Bornstein; M Detmar
Journal: Proc Natl Acad Sci U S A Date: 1999-12-21 Impact factor: 11.205

3. Extracellular protease ADAMTS9 suppresses esophageal and nasopharyngeal carcinoma tumor formation by inhibiting angiogenesis.

Authors: Paulisally Hau Yi Lo; Hong Lok Lung; Arthur Kwok Leung Cheung; Suneel S Apte; Kwok Wah Chan; Fung Mei Kwong; Josephine Mun Yee Ko; Yue Cheng; Simon Law; Gopesh Srivastava; Eugene R Zabarovsky; Sai Wah Tsao; Johnny Cheuk On Tang; Eric J Stanbridge; Maria Li Lung
Journal: Cancer Res Date: 2010-06-15 Impact factor: 12.701

Review 4. Regulation of tumor angiogenesis by thrombospondin-1.

Authors: Bin Ren; Karen O Yee; Jack Lawler; Roya Khosravi-Far
Journal: Biochim Biophys Acta Date: 2005-12-21

5. ADAMTS1/METH1 inhibits endothelial cell proliferation by direct binding and sequestration of VEGF165.

Authors: Alfonso Luque; Darren R Carpizo; M Luisa Iruela-Arispe
Journal: J Biol Chem Date: 2003-04-25 Impact factor: 5.157

6. Binding and displacement of vascular endothelial growth factor (VEGF) by thrombospondin: effect on human microvascular endothelial cell proliferation and angiogenesis.

Authors: K Gupta; P Gupta; R Wild; S Ramakrishnan; R P Hebbel
Journal: Angiogenesis Date: 1999 Impact factor: 9.596

7. Altered expression of genes regulating angiogenesis in experimental androgen-independent prostate cancer.

Authors: Heléne Gustavsson; Karin Jennbacken; Karin Welén; Jan-Erik Damber
Journal: Prostate Date: 2008-02-01 Impact factor: 4.104

8. Expression of ADAMTS1 and its correlation with angiogenesis in primary gastric cancer and lymph node metastasis.

Authors: Jing Chen; Yu Zhi; Xiaojing Chang; Shuanglong Zhang; Dongqiu Dai
Journal: Dig Dis Sci Date: 2012-09-22 Impact factor: 3.199

9. The effect of thrombospondin-1 on breast cancer metastasis.

Authors: Karen O Yee; Caitlin M Connolly; Mark Duquette; Shideh Kazerounian; Raymond Washington; Jack Lawler
Journal: Breast Cancer Res Treat Date: 2008-04-13 Impact factor: 4.872

Review 10. Biochemistry and genetics of von Willebrand factor.

Authors: J E Sadler
Journal: Annu Rev Biochem Date: 1998 Impact factor: 23.643

21 in total

1. ADAMTS16 activates latent TGF-β, accentuating fibrosis and dysfunction of the pressure-overloaded heart.

Authors: Yufeng Yao; Changqing Hu; Qixue Song; Yong Li; Xingwen Da; Yubin Yu; Hui Li; Ian M Clark; Qiuyun Chen; Qing K Wang
Journal: Cardiovasc Res Date: 2020-04-01 Impact factor: 10.787

2. Knockdown of ezrin suppresses the migration and angiogenesis of human umbilical vein endothelial cells in vitro.

Authors: Liang-Ping Zhao; Lei Huang; Xun Tian; Feng-Qi Liang; Jun-Cheng Wei; Xian Zhang; Sha Li; Qing-Hua Zhang
Journal: J Huazhong Univ Sci Technolog Med Sci Date: 2016-04-13

3. Kaempferol targets estrogen-related receptor α and suppresses the angiogenesis of human retinal endothelial cells under high glucose conditions.

Authors: Yan Wu; Qinmei Zhang; Rui Zhang
Journal: Exp Ther Med Date: 2017-10-03 Impact factor: 2.447

4. ADAMTS5 Deficiency in Calcified Aortic Valves Is Associated With Elevated Pro-Osteogenic Activity in Valvular Interstitial Cells.

Authors: Fei Li; Rui Song; Lihua Ao; T Brett Reece; Joseph C Cleveland; Nianguo Dong; David A Fullerton; Xianzhong Meng
Journal: Arterioscler Thromb Vasc Biol Date: 2017-05-25 Impact factor: 8.311

Review 5. The roles of microRNAs related with progression and metastasis in human cancers.

Authors: Hai-Ting Liu; Peng Gao
Journal: Tumour Biol Date: 2016-10-06

6. ADAMTS10 inhibits aggressiveness via JAK/STAT/c-MYC pathway and reprograms macrophage to create an anti-malignant microenvironment in gastric cancer.

Authors: Junyi Zhou; Tuoyang Li; Hao Chen; Yingming Jiang; Yandong Zhao; Jintuan Huang; Zijian Chen; Xiaocheng Tang; Zhenze Huang; Zuli Yang
Journal: Gastric Cancer Date: 2022-08-04 Impact factor: 7.701

7. Hypoxic regulation of ADAMTS-2 and -3 (a disintegrin and matrix metalloproteinase with thrombospondin motifs 2 and 3) procollagen N proteinases by HIF-1α in endothelial cells.

Authors: Candan Altuntaş; Meltem Alper; Yasemin Keleş; Feyza Nur Sav; Feray Köçkar
Journal: Mol Cell Biochem Date: 2022-10-14 Impact factor: 3.842