Literature DB >> 26219913

Suppression of Cytosolic NADPH Pool by Thionicotinamide Increases Oxidative Stress and Synergizes with Chemotherapy.

Philip M Tedeschi1, HongXia Lin1, Murugesan Gounder1, John E Kerrigan1, Emine Ercikan Abali1, Kathleen Scotto1, Joseph R Bertino2.   

Abstract

NAD(+) kinase (NADK) is the only known cytosolic enzyme that converts NAD(+) to NADP(+), which is subsequently reduced to NADPH. The demand for NADPH in cancer cells is elevated as reducing equivalents are required for the high levels of nucleotide, protein, and fatty acid synthesis found in proliferating cells as well as for neutralizing high levels of reactive oxygen species (ROS). We determined whether inhibition of NADK activity is a valid anticancer strategy alone and in combination with chemotherapeutic drugs known to induce ROS. In vitro and in vivo inhibition of NADK with either small-hairpin RNA or thionicotinamide inhibited proliferation. Thionicotinamide enhanced the ROS produced by several chemotherapeutic drugs and produced synergistic cell kill. NADK inhibitors alone or in combination with drugs that increase ROS-mediated stress may represent an efficacious antitumor combination and should be explored further.
Copyright © 2015 by The American Society for Pharmacology and Experimental Therapeutics.

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Year:  2015        PMID: 26219913      PMCID: PMC4576680          DOI: 10.1124/mol.114.096727

Source DB:  PubMed          Journal:  Mol Pharmacol        ISSN: 0026-895X            Impact factor:   4.436


  37 in total

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Journal:  Curr Med Chem       Date:  2011       Impact factor: 4.530

2.  Clinical experience with 6-aminonicotinamide.

Authors:  F P HERTER; S G WEISSMAN; H G THOMPSON; G HYMAN; D S MARTIN
Journal:  Cancer Res       Date:  1961-01       Impact factor: 12.701

3.  Pyridine nucleotide metabolism: mechanism of action of the niacin antagonist, 6-aminonicotinamide.

Authors:  L S DIETRICH; I M FRIEDLAND; L A KAPLAN
Journal:  J Biol Chem       Date:  1958-10       Impact factor: 5.157

Review 4.  MNADK, a Long-Awaited Human Mitochondrion-Localized NAD Kinase.

Authors:  Ren Zhang
Journal:  J Cell Physiol       Date:  2015-08       Impact factor: 6.384

Review 5.  Regulation of cancer cell metabolism.

Authors:  Rob A Cairns; Isaac S Harris; Tak W Mak
Journal:  Nat Rev Cancer       Date:  2011-02       Impact factor: 60.716

6.  Determination of reduced nicotinamide adenine dinucleotide phosphate concentration using high-performance liquid chromatography with fluorescence detection: ratio of the reduced form as a biomarker of oxidative stress.

Authors:  Yuki Ogasawara; Masayo Funakoshi; Kazuyuki Ishii
Journal:  Biol Pharm Bull       Date:  2009-11       Impact factor: 2.233

Review 7.  Glutathione in cancer biology and therapy.

Authors:  José M Estrela; Angel Ortega; Elena Obrador
Journal:  Crit Rev Clin Lab Sci       Date:  2006       Impact factor: 6.250

Review 8.  ROS stress in cancer cells and therapeutic implications.

Authors:  Helene Pelicano; Dennis Carney; Peng Huang
Journal:  Drug Resist Updat       Date:  2004-04       Impact factor: 18.500

9.  Enhanced degradation of dihydrofolate reductase through inhibition of NAD kinase by nicotinamide analogs.

Authors:  Yi-Ching Hsieh; Philip Tedeschi; Rialnat Adebisi Lawal; Debabrata Banerjee; Kathleen Scotto; John E Kerrigan; Kuo-Chieh Lee; Nadine Johnson-Farley; Joseph R Bertino; Emine Ercikan Abali
Journal:  Mol Pharmacol       Date:  2012-11-29       Impact factor: 4.436

10.  Identification and characterization of a human mitochondrial NAD kinase.

Authors:  Kazuto Ohashi; Shigeyuki Kawai; Kousaku Murata
Journal:  Nat Commun       Date:  2012       Impact factor: 14.919
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  11 in total

1.  Genome-Wide CRISPR Screen for Essential Cell Growth Mediators in Mutant KRAS Colorectal Cancers.

Authors:  Edwin H Yau; Indrasena Reddy Kummetha; Gianluigi Lichinchi; Rachel Tang; Yunlin Zhang; Tariq M Rana
Journal:  Cancer Res       Date:  2017-09-27       Impact factor: 12.701

Review 2.  Subcellular compartmentalization of NAD+ and its role in cancer: A sereNADe of metabolic melodies.

Authors:  Yi Zhu; Jiaqi Liu; Joun Park; Priyamvada Rai; Rong G Zhai
Journal:  Pharmacol Ther       Date:  2019-04-08       Impact factor: 12.310

3.  Deficiency of the Mitochondrial NAD Kinase Causes Stress-Induced Hepatic Steatosis in Mice.

Authors:  Kezhong Zhang; Hyunbae Kim; Zhiyao Fu; Yining Qiu; Zhao Yang; Jiemei Wang; Deqiang Zhang; Xin Tong; Lei Yin; Jing Li; Jianmei Wu; Nathan R Qi; Sander M Houten; Ren Zhang
Journal:  Gastroenterology       Date:  2017-09-18       Impact factor: 22.682

4.  Combinatorial Therapy of Zinc Metallochaperones with Mutant p53 Reactivation and Diminished Copper Binding.

Authors:  Saif Zaman; Xin Yu; Anthony F Bencivenga; Adam R Blanden; Yue Liu; Tracy Withers; Bing Na; Alan J Blayney; John Gilleran; David A Boothman; Stewart N Loh; S David Kimball; Darren R Carpizo
Journal:  Mol Cancer Ther       Date:  2019-06-13       Impact factor: 6.261

5.  Nampt Potentiates Antioxidant Defense in Diabetic Cardiomyopathy.

Authors:  Shin-Ichi Oka; Jaemin Byun; Chun-Yang Huang; Nobushige Imai; Guersom Ralda; Peiyong Zhai; Xiaoyong Xu; Sanchita Kashyap; Junco S Warren; John Alan Maschek; Trevor S Tippetts; Mingming Tong; Sundararajan Venkatesh; Yoshiyuki Ikeda; Wataru Mizushima; Toshihide Kashihara; Junichi Sadoshima
Journal:  Circ Res       Date:  2021-04-30       Impact factor: 23.213

Review 6.  Fe-S Clusters Emerging as Targets of Therapeutic Drugs.

Authors:  Laurence Vernis; Nadine El Banna; Dorothée Baïlle; Elie Hatem; Amélie Heneman; Meng-Er Huang
Journal:  Oxid Med Cell Longev       Date:  2017-12-28       Impact factor: 6.543

Review 7.  NAD Kinases: Metabolic Targets Controlling Redox Co-enzymes and Reducing Power Partitioning in Plant Stress and Development.

Authors:  Bin-Bin Li; Xiang Wang; Li Tai; Tian-Tian Ma; Abdullah Shalmani; Wen-Ting Liu; Wen-Qiang Li; Kun-Ming Chen
Journal:  Front Plant Sci       Date:  2018-03-23       Impact factor: 5.753

Review 8.  Escaping Death: Mitochondrial Redox Homeostasis in Cancer Cells.

Authors:  Francesco Ciccarese; Vincenzo Ciminale
Journal:  Front Oncol       Date:  2017-06-09       Impact factor: 6.244

Review 9.  NAD- and NADPH-Contributing Enzymes as Therapeutic Targets in Cancer: An Overview.

Authors:  Alvinsyah Adhityo Pramono; Gulam M Rather; Herry Herman; Keri Lestari; Joseph R Bertino
Journal:  Biomolecules       Date:  2020-02-26

Review 10.  NAD Analogs in Aid of Chemical Biology and Medicinal Chemistry.

Authors:  Anais Depaix; Joanna Kowalska
Journal:  Molecules       Date:  2019-11-19       Impact factor: 4.411
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