150-kDa oxygen-regulated protein (ORP150) functions as a novel molecular chaperone in MDCK cells

To assess the participationof the 150-kDa oxygen-regulated protein (ORP150) in protein transport,its function in Madin-Darby canine kidney (MDCK) cells was studied.Exposure of MDCK cells to hypoxia resulted in an increase of ORP150antigen and increased binding of ORP150 to GP80/clusterin (80-kDaglycoprotein), a natural secretory protein in this cell line. In ORP150antisense transformant MDCK cells, GP80 was retained within theendoplasmic reticulum after exposure to hypoxia. Metabolic labelingshowed the delay of GP80 maturation in antisense transformants inhypoxia, whereas its matured form was detected in wild-type cells,indicating a role of ORP150 in protein transport, especially inhypoxia. The affinity chromatographic analysis of ORP150 suggested itsability to bind to ATP-agarose. Furthermore, the ATP hydrolysisanalysis showed that ORP150 can release GP80 at a lower ATPconcentration. These data indicate that ORP150 may function as a uniquemolecular chaperone in renal epithelial cells by facilitating proteintransport/maturation in an environment where less ATP is accessible.