Taxol inhibits endosomal-lysosomal membrane trafficking at two distinct steps in CV-1 cells

1 Department of Pharmaceutical Sciences and 2 Electron Microscopy Core Facility, Doheny Eye Institute, University of Southern California, Los Angeles, California 90033 Although taxol inhibits membrane trafficking, the nature of this inhibition has not been well defined. In this study, we define the effects of taxol on endocytosis in CV-1 cells using density gradient centrifugation of membranes over sorbitol density gradients. After taxol treatment, resident endosomal enzymes and the epidermal growth factor (EGF) receptor (EGFR) showed significant ( P 0.05) enrichment in membranes with properties of early endosomes ( fractions 4 and 5 ); the EGFR and Na + -K + -ATPase were also significantly ( P 0.05) depleted in lysosomal fractions ( fractions 10 and 11 ). The suggestion that taxol specifically reduces movement of endosomal constituents to lysosomes was supported by fluorescence microscopy studies revealing restriction of EGF to the peripheries of taxol-treated cells, in contrast to the perinuclear lysosomal-like distribution of EGF seen in controls. Kinetic studies with 125 I-labeled EGF were also consistent with a taxol-induced block in traffic from endosomes and lysosomes after 15 min of uptake but also suggested an additional taxol-sensitive step in trafficking that involved redistribution of 125 I-EGF within high-density compartments after 150 min. Related changes in cytoplasmic dynein distribution were observed within high-density compartments from taxol-treated cells, suggesting that this motor might participate in this later taxol-sensitive trafficking event. Electron microscopic examination of high-density membranes ( fraction 12 ) showed that taxol increased the numbers of small (500 nm) vesicles found in controls. These data demonstrate that disruption of endocytic events by taxol includes the early accumulation of protein and endocytic markers in endosomes and the later accumulation in a dense compartment that we propose is a subdomain of the lysosomes. cytoplasmic dynein; endosome; lysosome; epidermal growth factor receptor