LACK OF CORRELATION BETWEEN MDR-1 EXPRESSION AND VOLUME-ACTIVATION OFCHLORIDE-CURRENTS IN RAT COLON-CANCER CELLS

Correlation between expression of the mdr-1 genes (a and b) at the mRN A and protein level and volume-activation of chloride-channels was stu died in rat colon cancer CC531 cells by means of RT-PCR, Western blott ing and patch clamp, respectively. Three different kinds of cell lines were used: CC531-PAR, CC531-COL and CC531-REV. At the mRNA level the parental cell line CC531-PAR showed significantly less mdr-1a expressi on in comparison with CC531-COL, a drug-resistant cell line induced fr om the parental CC531 cells by growth in the presence of colchicin. Th e third cell line, CC531-REV, was a spontaneous revertant of the drug- resistant cell line to a drug-sensitive one, but with a maintained lev el of mdr-1a mRNA. In none of the three cell lines, mdr-1b mRNA could be detected At the protein level a clear difference in mdr1 expression between CC531-PAR/REV and CC531-COL was observed Although the amount of mdr-1a mRNA detected in CC531-REV was comparable to that found in C C531-COL, the amount of mdr-1 encoded protein in CC531-REV was remarka bly reduced. In all three cell types, cell swelling activated chloride -currents which could be blocked by NPPB. Chloride-currents measured a t the K+ reversal potential of -90 mV were not significantly different (-86.1 +/- 19.1 pA/pF, n=5 in CC531-PAR, -59.5 +/- 13.1 pA/pF, n=6 in CC531-COL and -68.1 +/- 15.3 pA/pF, n=7 in CC531-REV). It is proposed that the mdr-1 genes do not code for the volume-activated chloride-cu rrent in these rat colon cancer cells.