Literature DB >> 26298314

Thymidine Phosphorylase in Cancer; Enemy or Friend?

Yasir Y Elamin1, Shereen Rafee2, Nemer Osman2, Kenneth J O Byrne2, Kathy Gately3.   

Abstract

Thymidine phosphorylase (TP) is a nucleoside metabolism enzyme that plays an important role in the pyrimidine pathway.TP catalyzes the conversion of thymidine to thymine and 2-deoxy-α-D-ribose-1-phosphate (dRib-1-P). Although this reaction is reversible, the main metabolic function of TP is catabolic. TP is identical to the angiogenic factor platelet-derived endothelial-cell growth factor (PD-ECGF). TP is overexpressed in several human cancers in response to cellular stressful conditions like hypoxia, acidosis, chemotherapy and radiotherapy. TP has been shown to promote tumor angiogenesis, invasion, metastasis, evasion of the immune-response and resistance to apoptosis. Some of the biological effects of TP are dependent on its enzymatic activity, while others are mediated through cytokines like interleukin 10 (IL-10), basic fibroblast growth factor (bFGF) and tumour necrosis factor α (TNFα). Interestingly, TP also plays a role in cancer treatment through its role in the conversion of the oral fluoropyrimidine capecitabine into its active form 5-FU. TP is a predictive marker for fluoropyrimidine response. Given its various biological functions in cancer progression, TP is a promising target in cancer treatment. Further translational research is required in this area.

Entities:  

Keywords:  Angiogenesis; Hallmarks of cancer; Predictive biomarkers; Thymidine phosphorylase

Year:  2015        PMID: 26298314      PMCID: PMC4842186          DOI: 10.1007/s12307-015-0173-y

Source DB:  PubMed          Journal:  Cancer Microenviron        ISSN: 1875-2284


  84 in total

1.  The enzymatic synthesis of nucleosides. I. Thymidine phosphorylase in mammalian tissue.

Authors:  M FRIEDKIN; D ROBERTS
Journal:  J Biol Chem       Date:  1954-03       Impact factor: 5.157

2.  The thymidine phosphorylase inhibitor 5'-O-tritylinosine (KIN59) is an antiangiogenic multitarget fibroblast growth factor-2 antagonist.

Authors:  Sandra Liekens; Annelies Bronckaers; Mirella Belleri; Antonella Bugatti; Rebecca Sienaert; Domenico Ribatti; Beatrice Nico; Alba Gigante; Elena Casanova; Ghislain Opdenakker; María-Jesús Pérez-Pérez; Jan Balzarini; Marco Presta
Journal:  Mol Cancer Ther       Date:  2012-02-01       Impact factor: 6.261

3.  Thymidine phosphorylase expression in normal and hyperplastic endometrium.

Authors:  E Sivridis; A Giatromanolaki; M I Koukourakis; R Bicknell; A L Harris; K C Gatter
Journal:  J Clin Pathol       Date:  2000-09       Impact factor: 3.411

4.  Association of right-sided tumors with high thymidine phosphorylase gene expression levels and the response to oral uracil and tegafur/leucovorin chemotherapy among patients with colorectal cancer.

Authors:  Sotaro Sadahiro; Toshiyuki Suzuki; Akira Tanaka; Kazutake Okada; Hideki Nagase; Junji Uchida
Journal:  Cancer Chemother Pharmacol       Date:  2012-06-30       Impact factor: 3.333

Review 5.  Thymidine phosphorylase and breast carcinoma.

Authors:  Qifeng Yang; Goro Yoshimura; Ichiro Mori; Takeo Sakurai; Kennichi Kakudo
Journal:  Anticancer Res       Date:  2002 Jul-Aug       Impact factor: 2.480

6.  Expressions of Thymidylate Synthase,Thymidine Phosphorylase, Class III β-tubulin, and Excision Repair Cross-complementing Group 1predict Response in Advanced Gastric Cancer Patients Receiving Capecitabine Plus Paclitaxel or Cisplatin.

Authors:  Ming Lu; Jing Gao; Xi-Cheng Wang; Lin Shen
Journal:  Chin J Cancer Res       Date:  2011-12       Impact factor: 5.087

7.  2-Deoxy-D-ribose inhibits hypoxia-induced apoptosis by suppressing the phosphorylation of p38 MAPK.

Authors:  Ryuji Ikeda; Xiao-Fang Che; Mina Ushiyama; Tatsuya Yamaguchi; Hiroshi Okumura; Yuichi Nakajima; Yasuo Takeda; Yoshihiko Shibayama; Tatsuhiko Furukawa; Masatatsu Yamamoto; Misako Haraguchi; Tomoyuki Sumizawa; Katsushi Yamada; Shin-ichi Akiyama
Journal:  Biochem Biophys Res Commun       Date:  2006-02-06       Impact factor: 3.575

8.  Novel mechanism(s) of resistance to 5-fluorouracil in human colon cancer (HCT-8) sublines following exposure to two different clinically relevant dose schedules.

Authors:  C Aschele; A Sobrero; M A Faderan; J R Bertino
Journal:  Cancer Res       Date:  1992-04-01       Impact factor: 12.701

9.  Proteomics identifies thymidine phosphorylase as a key regulator of the angiogenic potential of colony-forming units and endothelial progenitor cell cultures.

Authors:  Giordano Pula; Ursula Mayr; Colin Evans; Marianna Prokopi; Dina S Vara; Xiaoke Yin; Zoe Astroulakis; Qingzhong Xiao; Jonathan Hill; Qingbo Xu; Manuel Mayr
Journal:  Circ Res       Date:  2008-11-20       Impact factor: 17.367

10.  Platelet-derived endothelial cell growth factor/thymidine phosphorylase expression in normal tissues: an immunohistochemical study.

Authors:  S B Fox; A Moghaddam; M Westwood; H Turley; R Bicknell; K C Gatter; A L Harris
Journal:  J Pathol       Date:  1995-06       Impact factor: 7.996
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  23 in total

Review 1.  The Prognostic and Predictive Value of Dihydropyrimidine Dehydrogenase-Related Indicators in Clinical Outcomes of Chemotherapy in Colorectal Cancer Patients: a Systematic Review and Meta-Analysis.

Authors:  Xiaojun Sun; Shilei Guo
Journal:  Pathol Oncol Res       Date:  2018-12-05       Impact factor: 3.201

2.  Thymidine phosphorylase affects clinical outcome following surgery and mRNA expression levels of four key enzymes for 5-fluorouracil metabolism in patients with stage I and II non-small cell lung cancer.

Authors:  Naoya Himuro; Yumiko Niiya; Takao Minakata; Yutaka Oshima; Daisuke Kataoka; Shigeru Yamamoto; Takashi Suzuki; Mitsutaka Kadokura
Journal:  Mol Clin Oncol       Date:  2018-09-25

Review 3.  Role of Cytokines and Chemokines in Angiogenesis in a Tumor Context.

Authors:  Mannon Geindreau; Mélanie Bruchard; Frédérique Vegran
Journal:  Cancers (Basel)       Date:  2022-05-16       Impact factor: 6.575

4.  PIK3R3 promotes chemotherapeutic sensitivity of colorectal cancer through PIK3R3/NF-kB/TP pathway.

Authors:  Sidikjan Ibrahim; Guodong Li; Fuqing Hu; Zhenlin Hou; Qianzhi Chen; Geng Li; Xuelai Luo; Junbo Hu; Yongdong Feng
Journal:  Cancer Biol Ther       Date:  2018-01-25       Impact factor: 4.742

Review 5.  Thymidine phosphorylase: A potential new target for treating cardiovascular disease.

Authors:  Wei Li; Hong Yue
Journal:  Trends Cardiovasc Med       Date:  2017-10-20       Impact factor: 6.677

6.  Thymidine phosphorylase and angiogenesis in early stage esophageal squamous cell carcinoma.

Authors:  Youichi Kumagai; Tetsuhiko Tachikawa; Morihiro Higashi; Jun Sobajima; Akemi Takahashi; Kunihiko Amano; Minoru Fukuchi; Kei-Ichiro Ishibashi; Erito Mochiki; Koji Yakabi; Jun-Ichi Tamaru; Hideyuki Ishida
Journal:  Esophagus       Date:  2017-07-24       Impact factor: 4.230

7.  The response to neoadjuvant chemoradiotherapy with 5-fluorouracil in locally advanced rectal cancer patients: a predictive proteomic signature.

Authors:  Anaïs Chauvin; Chang-Shu Wang; Sameh Geha; Perrine Garde-Granger; Alex-Ane Mathieu; Vincent Lacasse; François-Michel Boisvert
Journal:  Clin Proteomics       Date:  2018-04-13       Impact factor: 3.988

8.  Thymidine phosphorylase expression and prognosis in colorectal cancer treated with 5-fluorouracil-based chemotherapy: A meta-analysis.

Authors:  Jia Che; Lun Pan; Xiangling Yang; Zhiting Liu; Lanlan Huang; Chuangyu Wen; Aihua Lin; Huanliang Liu
Journal:  Mol Clin Oncol       Date:  2017-10-03

9.  Capecitabine reverses tumor escape from anti-VEGF through the eliminating CD11bhigh/Gr1high myeloid cells.

Authors:  Toshiki Iwai; Yui Harada; Hiroshi Saeki; Eiji Oki; Yoshihiko Maehara; Yoshikazu Yonemitsu
Journal:  Oncotarget       Date:  2018-04-03

10.  SAMHD1 protects cancer cells from various nucleoside-based antimetabolites.

Authors:  Nikolas Herold; Sean G Rudd; Kumar Sanjiv; Juliane Kutzner; Julia Bladh; Cynthia B J Paulin; Thomas Helleday; Jan-Inge Henter; Torsten Schaller
Journal:  Cell Cycle       Date:  2017-04-24       Impact factor: 4.534
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