K. Aogi et al., OVERCOMING CPT-11 RESISTANCE BY USING A BISCOCLAURINE ALKALOID, CEPHARANTHINE, TO MODULATE PLASMA TRANS-MEMBRANE POTENTIAL, International journal of cancer, 72(2), 1997, pp. 295-300
Irinotecan, 7-ethyl-10-[4-(I-piperidino)-1-piperidino] carbonyloxycamp
tothecin, (CPT-11) resistance was overcome by using a biscoclaurine al
kaloid, cepharanthine, in CPT-11-and multidrug-resistant 50MT-1 cells.
50MT-1 cells were established from a mouse breast-cancer cell line, F
M3A, by subjecting the cells to a low dose of CPT-11 continuously. 50M
T-1 cells exhibited resistance to CPT-11 (40-fold in colony-formation
assay) and to other drugs such as doxorubicin (11.7-fold) and etoposid
e (VP-16)(16.8-fold). The plasma trans-membrane potential was lower in
50MT-1 cells than in FM3A cells, although there were no differences i
n expressions of P-glycoprotein and of DNA topoisomerase-I and -II pro
teins. The lower membrane potential in 50MT-1 cells was augmented by c
o-treatment with a non-toxic dose of cepharanthine. CPT-11 resistance
in 50MT-1 cells was overcome (5.0- to 1.4-fold, 6-hr exposure) by the
co-treatment with cepharanthine through increasing intracellular accum
ulation of CPT-11. Resistance to doxorubicin and VP-16 was also overco
me by cepharanthine treatment (2.5- to 0.69-fold and 4.2- to 1.4-fold
respectively). We conclude that the modification of plasma trans-membr
ane potential by cepharanthine should be effective in overcoming CPT-1
1 and multidrug resistance in 50MT-1. (C) 1997 Wiley,-Liss, Inc.