Literature DB >> 12618329

Resistance to the anti-proliferative activity of recombinant arginine deiminase in cell culture correlates with the endogenous enzyme, argininosuccinate synthetase.

Li-Jiuan Shen1, Wen-Chun Lin, Karin Beloussow, Wei-Chiang Shen.   

Abstract

Recombinant mycoplasma enzyme, arginine deiminase (rADI), has been proposed as a possible cancer treatment via arginine depletion. However, many cell lines are resistant to rADI-treatment, even though most require arginine for proliferation. We compared eight different cell lines for sensitivity in cell proliferation to the effect of either rADI or arginine deprivation. The activity of argininosuccinate synthetase (AS), the rate-limiting enzyme for converting citrulline to arginine, was also measured. Our results indicate that resistance to rADI-treatment may correlate with cellular AS activity, either constitutive or inducible, allowing cell survival by conversion of the product of the rADI reaction, i.e. citrulline to arginine. Copyright 2002 Elsevier Science Ireland Ltd.

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Year:  2003        PMID: 12618329     DOI: 10.1016/s030-43835(02)00693-6

Source DB:  PubMed          Journal:  Cancer Lett        ISSN: 0304-3835            Impact factor:   8.679


  21 in total

Review 1.  Pegylated arginine deiminase: a novel anticancer enzyme agent.

Authors:  Lynn Feun; Niramol Savaraj
Journal:  Expert Opin Investig Drugs       Date:  2006-07       Impact factor: 6.206

Review 2.  Targeting Metabolism for Cancer Therapy.

Authors:  Alba Luengo; Dan Y Gui; Matthew G Vander Heiden
Journal:  Cell Chem Biol       Date:  2017-09-21       Impact factor: 8.116

Review 3.  Microbial-based therapy of cancer: current progress and future prospects.

Authors:  Nuno Bernardes; Raquel Seruca; Ananda M Chakrabarty; Arsenio M Fialho
Journal:  Bioeng Bugs       Date:  2009-12-02

4.  Argininosuccinate synthetase (ASS) deficiency in high-grade pulmonary neuroendocrine carcinoma: an opportunity for personalized targeted therapy.

Authors:  Ann E Walts; John S Bomalaski; Delma Ines; Sandra Orsulic
Journal:  J Cancer Res Clin Oncol       Date:  2014-12-30       Impact factor: 4.553

5.  Pancreatic cancer cell lines deficient in argininosuccinate synthetase are sensitive to arginine deprivation by arginine deiminase.

Authors:  Tawnya L Bowles; Randie Kim; Joseph Galante; Colin M Parsons; Subbulakshmi Virudachalam; Hsing-Jien Kung; Richard J Bold
Journal:  Int J Cancer       Date:  2008-10-15       Impact factor: 7.396

Review 6.  Arginine depriving enzymes: applications as emerging therapeutics in cancer treatment.

Authors:  Neha Kumari; Saurabh Bansal
Journal:  Cancer Chemother Pharmacol       Date:  2021-07-26       Impact factor: 3.333

Review 7.  Arginine deprivation as a targeted therapy for cancer.

Authors:  L Feun; M You; C J Wu; M T Kuo; M Wangpaichitr; S Spector; N Savaraj
Journal:  Curr Pharm Des       Date:  2008       Impact factor: 3.116

8.  Selective Intracellular Delivery of Recombinant Arginine Deiminase (ADI) Using pH-Sensitive Cell Penetrating Peptides To Overcome ADI Resistance in Hypoxic Breast Cancer Cells.

Authors:  Tzyy-Harn Yeh; Yun-Ru Chen; Szu-Ying Chen; Wei-Chiang Shen; David K Ann; Jennica L Zaro; Li-Jiuan Shen
Journal:  Mol Pharm       Date:  2015-12-17       Impact factor: 4.939

9.  Phase I/II study of pegylated arginine deiminase (ADI-PEG 20) in patients with advanced melanoma.

Authors:  Patrick A Ott; Richard D Carvajal; Neeta Pandit-Taskar; Achim A Jungbluth; Eric W Hoffman; Bor-Wen Wu; John S Bomalaski; Ralph Venhaus; Linda Pan; Lloyd J Old; Anna C Pavlick; Jedd D Wolchok
Journal:  Invest New Drugs       Date:  2012-08-05       Impact factor: 3.850

Review 10.  Targeting arginine-dependent cancers with arginine-degrading enzymes: opportunities and challenges.

Authors:  Melissa M Phillips; Michael T Sheaff; Peter W Szlosarek
Journal:  Cancer Res Treat       Date:  2013-12-31       Impact factor: 4.679
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