Gap junction endocytosis and lysosomal degradation of connexin43-P2 in WB-F344 rat liver epithelial cells treated with DDT and lindane

Abstract

Treatment of WB-F344 rat liver epithelial cells with DDT (1, l-bis(p-chlorophenyl)-2, 2, 2-trichloroethane) or lindane induces a loss of gap junction plaques and a decrease in the phosphorylated gap junction protein connexin43-P2 (Cx43-P2), which is associated with the plaques. In this study we have considered several mechanisms. The loss of junctional plaques could be due to disaggregation of junctional particles or to endocytosis of the plaques, while the loss of Cx43-P2 could be due to dephosphorylation or degradation. Immunohistochemical analyses of DDT- or lindane-treated cells revealed a reduction in plasma membranous Cx43-positive gap junction plaques coincident with the appearance of Cx43-positive punctate cytoplasmic structures. The cytoplasmic Cx43-positive structures eventually disappeared after 4 h treatment.Diffuse Cx43-positive plasma membranous staining was not seen following DDT or lindane treatment.Western blot analyses of these cells indicated that Cx43-P2 decreased in a time-dependent manner that paralleled the disappearance of gap junction plaques from the plasma membrane. The loss of Cx43-P2 was not due to dephosphorylation, since no increase in non-phosphorylated (Cx43-NP) or other phos-phorylated (Cx43-P1) forms of the protein were evident. The decrease in Cx43-P2 and the disappearance of cytoplasmic Cx43-positive structures were prevented by colchicine and chloroquine, which suggests that Cx43-P2-containing plaques were internalized and degraded in lysosomes. In addition, two small (∼18 and ∼22 kDa) bands appeared in Western blots coincident with the loss of Cx43-P2 and may be degradation products of the protein. These immunohistochemical and biochemical data strongly suggest that the loss of gap junction plaques and of Cx43-P2 in WB-F344 cells treated with DDT and lindane were due to endocytosis of the plaques and degradation of Cx43-P2 in lysosomes.