Use of monoclonal antibodies to culture rat proximal tubule cells.

Abstract

Current renal cell culture techniques are limited by either a low yield of cells or by heterogeneity of cell types. We have used monoclonal antibodies to microvillus membrane proteins to isolate and culture a pure population of proximal tubule cells. The cells were characterized as proximal tubule cells by phase microscopy, enzyme histochemistry for alkaline phosphatase, butyrate esterase, and gamma-glutamyltransferase, electron microscopy, and specific reactivity with a variety of monoclonal antibodies for proximal tubule cells. Growth over 2-7 days yielded cell numbers up to 1,000-fold greater than obtained by single tubule microdissection. Dome formation was observed, suggesting intact fluid transport. In addition, Na+-H+ exchange and Na+-dependent D-hexose transport, known transport processes of the proximal tubule, were demonstrated by microfluorimetry of single cells and methyl-alpha-D-glucopyranoside uptake, respectively. Our results indicate that large numbers of homogeneous, cultured rat proximal tubule cells that maintain characteristics of in vivo proximal tubule cells can be obtained using a monoclonal antibody technique of isolation.