Abstract

Multiple drug resistance (MDR) describes a broad cross-resistance of tumor cells to a variety of """"""""natural product"""""""" compounds of widely differing structure and mechanism of action. One type of MDR (Pgp). Certain membrane-active drugs and biologicals modulate MDR, and appear to be more toxic to the Pgp-MDR cells than to their drug-sensitive counterparts. Another type of MDR is """"""""atypical"""""""" (at-MDR) in that the cells are unimpaired in their transport of drugs, not affected by modulators, and do not overexpress the pgp gene or Pgp. The essential nuclear enzyme, topoisomerase II, appears to be altered in at-MDR. The long-term goal of this research is to understand the basis of MDR and its modulation in tumor cells. How does Pgp mediate MDR? Does it bind drug and extrude it or does it alter membrane fluidity, endocytosis or exocytosis (i.e., membrane traffic)? How can modulators both enhance the toxic activity of drugs in MDR cells and yet be more toxic to such cells than to their drug-sensitive counterparts? What is the mechanism of at-MDR? To answer these questions, six specific aims are proposed. The first is to measure membrane traffic in established Pgp-MDR cell lines, while the second is to compare the cellular pharmacology and membrane traffic properties of cells transfected with normal pgp cDNAs and those mutagenized at nucleotide and putative drug-binding sites.
A third aim i s to determine by structure-activity studies whether modulators of Pgp- MDR (reserpine and verapamil) work by binding to Pgp or by altering membrane traffic.
The fourth aim i s to determine the basis for the increased sensitivity of Pgp-MDR cells to verapamil, tumor necrosis factor (TNF), and the alkalinizing effects of ouabain by studies of membrane traffic in these cells and by development of cell lines resistant to these agents. A fifth aim is to determine the mechanism of at-MDR by measuring drug binding to topoisomerase II, drug-induced DNA cleavage patterns mediated by topoisomerase II, and protein kinase C activity. The last aim is to determine the relationship between topoisomerase II and TNF in the potentiation of topoisomerase II-active drugs by TNF. It is anticipated that the studies outlined in this proposal will provide insights into the design of new drugs and therapeutic modalities to overcome these forms of resistance.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA040570-06
Application #
3180707
Study Section
Experimental Therapeutics Subcommittee 1 (ET)
Project Start
1985-08-01
Project End
1992-05-31
Budget Start
1990-06-01
Budget End
1991-05-31
Support Year
6
Fiscal Year
1990
Total Cost
Indirect Cost

  Institution

Name
St. Jude Children's Research Hospital
Department
Type
DUNS #
067717892
City
Memphis
State
TN
Country
United States
Zip Code
38105

  Publications

Ho, Tsui-Ting; He, Xiaolong; Mo, Yin-Yuan et al. (2016) Transient resistance to DNA damaging agents is associated with expression of microRNAs-135b and -196b in human leukemia cell lines. Int J Biochem Mol Biol 7:27-47
Xie, Yi; Natarajan, Karthika; Bauer, Kenneth S et al. (2013) Bcrp1 transcription in mouse testis is controlled by a promoter upstream of a novel first exon (E1U) regulated by steroidogenic factor-1. Biochim Biophys Acta 1829:1288-99
Chen, Cheng-Fen; He, Xiaolong; Arslan, Ahmet Dirim et al. (2011) Novel regulation of nuclear factor-YB by miR-485-3p affects the expression of DNA topoisomerase II? and drug responsiveness. Mol Pharmacol 79:735-41
He, X; Arslan, A D; Pool, M D et al. (2011) Knockdown of splicing factor SRp20 causes apoptosis in ovarian cancer cells and its expression is associated with malignancy of epithelial ovarian cancer. Oncogene 30:356-65
Cho, Sungpil; Lu, Meiling; He, Xiaolong et al. (2011) Notch1 regulates the expression of the multidrug resistance gene ABCC1/MRP1 in cultured cancer cells. Proc Natl Acad Sci U S A 108:20778-83
Natarajan, Karthika; Xie, Yi; Nakanishi, Takeo et al. (2011) Identification and characterization of the major alternative promoter regulating Bcrp1/Abcg2 expression in the mouse intestine. Biochim Biophys Acta 1809:295-305
Das, Sonia G; Srinivasan, Balasubramanian; Hermanson, David L et al. (2011) Structure-activity relationship and molecular mechanisms of ethyl 2-amino-6-(3,5-dimethoxyphenyl)-4-(2-ethoxy-2-oxoethyl)-4H-chromene-3-carboxylate (CXL017) and its analogues. J Med Chem 54:5937-48
Wu, Fangting; Zhu, Shuomin; Ding, Yanna et al. (2009) MicroRNA-mediated regulation of Ubc9 expression in cancer cells. Clin Cancer Res 15:1550-7
Wu, Fangting; Chiocca, Susanna; Beck, William T et al. (2007) Gam1-associated alterations of drug responsiveness through activation of apoptosis. Mol Cancer Ther 6:1823-30
Mo, Yin-Yuan; Yu, Yanni; Theodosiou, Elena et al. (2005) A role for Ubc9 in tumorigenesis. Oncogene 24:2677-83

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