Abstract

This is an application for a competing continuation of a long standing RO1 to study the chemistry and biochemical and clinical pharmacology of the antitumor agent cyclophosphamide (CP) and its close analog, ifosfamide (IF). CP was first introduced into clinical usage in the 1950's and remains one of the most widely used alkylating agents. It has a number of properties which contribute to its continued utility, including the fact that it exhibits relative sparing of the bone marrow and gi tract, as compared to other related agents. CP is remarkably immunosuppressive and is utilized in the treatment of a number of autoimmune diseases and is a major component of most bone marrow transplantation regimens. IF has similar pharmacologic properties and is preferentially used in the treatment of certain tumors. CP and IF are prodrugs which must be activated by hepatic P450. Competing with the activation reaction are secondary oxidations that lead to the production of neurotoxic metabolites. These undesirable oxidations are more prevalent with IF, making this drug a prime target for modification. In this renewal, we propose to continue and expand our studies of CP/IF alkylation, crosslinking and activation by determining those factors that are important in protecting against toxicities and critical to enhancing therapeutic effects.
In Specific Aim 1, we will use various techniques including siRNA technology to determine the contributions of specific DNA-repair mechanisms to CP/IF resistance and toxicity. Identified mechanisms and genes could be targeted for inhibition with a result of relevant therapies for overcoming resistance.
In Specific Aim 2 we will use human liver samples to evaluate the degree of human variation in the metabolism of CP and IF. We will also identify the SNPs in candidate genes including drug metabolizing genes or genes regulating these enzymes that are responsible for human variation in the phenotype. An understanding of the genotype(s) involved would allow for the identification of patients, before treatment, in whom the normal dose of CP or IF would be inadequate or toxic.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA016783-33
Application #
7341106
Study Section
Special Emphasis Panel (ZRG1-BMCT (01))
Program Officer
Song, Min-Kyung H
Project Start
1977-09-30
Project End
2008-12-31
Budget Start
2008-01-01
Budget End
2008-12-31
Support Year
33
Fiscal Year
2008
Total Cost
$287,853
Indirect Cost

  Institution

Name
Duke University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
044387793
City
Durham
State
NC
Country
United States
Zip Code
27705

  Publications

Springer, James B; Colvin, O Michael; Ludeman, Susan M (2014) Labeled oxazaphosphorines for applications in mass spectrometry studies. 2. Synthesis of deuterium-labeled 2-dechloroethylcyclophosphamides and 2- and 3-dechloroethylifosfamides. J Labelled Comp Radiopharm 57:110-4
Pinto, N; Gamazon, E R; Antao, N et al. (2014) Integrating cell-based and clinical genome-wide studies to identify genetic variants contributing to treatment failure in neuroblastoma patients. Clin Pharmacol Ther 95:644-52
Gamcsik, Michael P; Clark, M Daniel; Ludeman, Susan M et al. (2011) Non-invasive monitoring of L-2-oxothiazolidine-4-carboxylate metabolism in the rat brain by in vivo 13C magnetic resonance spectroscopy. Neurochem Res 36:443-51
Hlavin, Erica M; Smeaton, Michael B; Noronha, Anne M et al. (2010) Cross-link structure affects replication-independent DNA interstrand cross-link repair in mammalian cells. Biochemistry 49:3977-88
Pinto, Navin; Ludeman, Susan M; Dolan, M Eileen (2009) Drug focus: Pharmacogenetic studies related to cyclophosphamide-based therapy. Pharmacogenomics 10:1897-903
Emmenegger, Urban; Shaked, Yuval; Man, Shan et al. (2007) Pharmacodynamic and pharmacokinetic study of chronic low-dose metronomic cyclophosphamide therapy in mice. Mol Cancer Ther 6:2280-9
Spasojevic, Ivan; Colvin, O Michael; Warshany, Keith R et al. (2006) New approach to the activation of anti-cancer pro-drugs by metalloporphyrin-based cytochrome P450 mimics in all-aqueous biologically relevant system. J Inorg Biochem 100:1897-902
Springer, James B; Chang, Young H; Koo, Kyo I et al. (2004) 1,3- vs 1,5-intramolecular alkylation reactions in isophosphoramide and phosphoramide mustards. Chem Res Toxicol 17:1217-26
Smith, Sonali M; Ludeman, Susan M; Wilson, Lynette R et al. (2003) Selective enhancement of ifosfamide-induced toxicity in Chinese hamster ovary cells. Cancer Chemother Pharmacol 52:291-302
Ludeman, Susan M; Gamcsik, Michael P (2002) Mechanisms of resistance against cyclophosphamide and ifosfamide: can they be overcome without sacrificing selectivity? Cancer Treat Res 112:177-97

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