A rapid method for the preparation of microvilli from rabbit kidney.

A simple method for the isolation of microvilli from kidney brush border is described. The method depends on the preferential aggregation of other subcellular structures by bivalent metal ions. MgCl(2) is added to a homogenate of cortical tissue prepared from frozen rabbit kidneys. Aggregated material is removed by a low-speed centrifugation and the supernatant centrifuged at 15000g to yield a pellet enriched in microvilli. This is resuspended and given a second treatment with Mg(2+). The purified preparation is obtained after four short differential centrifugations. The six brush-border enzymes that were monitored were enriched 11-17-fold compared with the original homogenate and were obtained in about 10% yield. Marker enzymes for other subcellular components showed the preparation to be essentially free of mitochondria and to be less contaminated with endoplasmic reticulum and baso-lateral plasma membranes than are conventional brush-border preparations. The main contamination was of lysosomal origin, about half of which was attributable to adsorbed acid hydrolases rather than to intact lysosomes. The aggregated components in the low-speed pellet bound less Mg(2+) than did the microvillus fraction. A possible mechanism for the role of Mg(2+) is discussed.