Modulation of multidrug resistance by verapamil or mdr1 anti‐sense oligodeoxynucleotide does not change the high susceptibility to lymphokine‐activated killers in mdr‐resistant human carcinoma (LoVo) line

Abstract

Two sublines were derived from the colon adenocarcinoma line LoVo, the first one was sensitive (LoVo/H) and the second one was made resistant to doxorubicin (LoVo/Dx). When tested for susceptibility to lysis by different types of immune effectors, LoVo/Dx appeared more sensitive than LoVo/H to the killing of CD3+CD5+CD16-, CD3- CD16+)-enriched lymphokine activated killers (LAK) or activated macrophages. In order to check whether this effect was due to different expression of glycoprotein P170 between the two LoVo sublines (30% vs. 90% of positive cells), a pharmacological and genetic modulation of P170 was carried out in LoVo cells. Treatment of LoVo/Dx with the calcium channel blocker verpamil (VRP), strongly impaired P170 function as evaluated by reduced Dx resistance, without affecting the lysability of LoVo/Dx cells by LAKs. Moreover, the significant inhibition of P170 expression resulting from the treatment of LoVo/Dx with mdr1 anti-sense olideoxynucleotide also failed to change the high lysability of LoVo/Dx by LAKs. These results, therefore, indicate that molecules other than P170 are involved in the increased lysis of LoVo/Dx subline by immune effectors and that down-regulation of the P170 expression or function will not reduce the potential effectiveness of cancer chemo-immunotherapy.