1. Academic Validation
  2. Effects of R-enantiomer (GR66234A) and L-enantiomer (GR66235A) of telupidine, a new dihydropyridine derivative, on cell lines displaying the multidrug resistant phenotype

Effects of R-enantiomer (GR66234A) and L-enantiomer (GR66235A) of telupidine, a new dihydropyridine derivative, on cell lines displaying the multidrug resistant phenotype

  • Haematologica. 1994 Jul-Aug;79(4):328-33.
M Tolomeo 1 R A Gancitano M Musso F Porretto R Perricone V Abbadessa A Cajozzo
Affiliations

Affiliation

  • 1 Interdepartimental Center of Research in Clinical Oncology, University of Palermo, Italy.
PMID: 7806087
Abstract

Background: Many dihydropyridine analogues with Calcium Channel blocker activity are able to reverse multidrug resistance (MDR). We studied the daunorubicin resistance reversing activity of the R enantiomer (GR66234A) and the L-enantiomer (GR66235 A) of teludipine, a new lipophilic Calcium Channel blocker synthesized by Glaxo.

Methods: The daunorubicin resistance reversing activity of the enantiomers of teludipine was evaluated in two MDR cell lines: ARNII, an erythroleukemia cell line which expresses P-glycoprotein, and MCF 7/R, a breast Cancer cell line with P-glycoprotein and high levels of glutathione S transferase (GST) and Glutathione Peroxidase (GSH Px).

Results: GR66234A and GR66235A show the same activity in reversing daunorubicin resistance and are more effective than verapamil. The difference in activity between verapamil and the enantiomers of teludipine is greater in ARNII cells than in MCF 7/R cells. Nevertheless, there are no significative differences in cellular daunorubicin accumulation between ARNII and MCF 7/R following exposure to teludipine, nor are there differences in intracellular daunorubicin distribution in the presence of either MDR reversing agent.

Conclusions: The low Calcium Channel antagonistic activity of GR66234A suggests that this compound may be useful in combination with chemotherapy in MDR malignancies.

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