P‐glycoprotein is not a swelling‐activated Cl− channel; possible role as a Cl− channel regulator

Abstract

The whole‐cell configuration of the patch‐clamp technique was used to determine if P‐glycoprotein (Pgp) is a swelling‐activated Cl⁻ channel. Hamster pgp1 cDNA was transfected into a mouse fibroblast cell line resulting in expression of functional Pgp in the plasma membrane. This cell line was obtained without exposure to chemotherapeutic agents. Swelling‐activated whole‐cell Cl⁻ current (I_cl,swell) was elicited by lowering the bath osmolality. I_cl,swell, was characterized in detail in the pgp1‐transfected mouse cell line and compared with that of its parental cell line. Expression of Pgp did not modify the magnitude or properties of I_cl,swell, except that addition of the anti‐Pgp antibody C219 to the pipette solution inhibited this current by 75% only in the Pgp‐expressing cells. I _Cl,swell in the mouse Pgp‐expressing cell line was compared with that in a Pgp‐expressing hamster fibroblast cell line. The characteristics of I_Cl,swell (voltage dependence, blocker sensitivity, anion selectivity sequence, requirement for hydrolysable ATP) in Pgp‐expressing cells were different between the two cell lines. These results suggest that the channel(s) responsible for I_Cl,swell are different between the two cell lines. In addition, C219 inhibited I_Cl,swell in both Pgp‐expressing cell lines, even though they seem to express different swelling‐activated Cl⁻ channels. We conclude that firstly, Pgp is not a swelling‐activated Cl⁻ channel; secondly, it possibly functions as a Cl⁻ channel regulator; and thirdly, I_Cl,swell is underlined by different Cl⁻ channels in different cells.