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Complex subcellular distributions of enzymatic markers in intestinal epithelial cells
Authors:Austin K. Mircheff  Dennis J. Ahnen  Anisul Islam  Nilda A. Santiago  Gary M. Gray
Affiliation:(1) Department of Physiology and Biophysics, University of Southern California School of Medicine, 90033 Los Angeles, California;(2) Division of Gastroenterology, Department of Medicine, Stanford University School of Medicine, 94305 Stanford, California;(3) Present address: Section of Gastroenterology, Department of Medicine, Veterans Administration Medical Center, 94121 Denver, Colorado
Abstract:Summary Current procedures for isolating intestinal epithelial cell surface and intracellular membranes are based on the assumption that each organelle is marked by some unique constitutent. This assumption seemed inconsistent with the dynamic picture of subcellular organization emerging from studies of membrane turnover and recycling. Therefore, we have designed an alternative fractionation which is independent ofa priori marker assignments. We subjected mucosal homogenates to a sequence of separations based on sedimentation coefficient, equilibrium density, and partitioning in aqueous polymer twophase systems. The resulting distributions of protein and enzymatic markers define a total of 17 physically and biochemically distinct membrane populations. Among these are: basal-lateral membranes, with Na,K-ATPase enriched 21-fold; brush-border membranes, with alkaline phosphatase enriched as much as 38-fold; two populations apparently derived from the endoplasmic reticulum; a series of five populations believed to have been derived from the Golgi complex; and a series of five acid phosphatase-rich populations which we cannot identify unequivocally. Each of the five enzymatic markers we have followed is associated with a multiplicity of membrane populations. Basallateral, endoplasmic reticulum, and Golgi membranes contain alkaline phosphatase at the same specific activity as the initial homogenate. Similarly, Na,K-ATPase appears to be associated branes at specific activities two-to seven-fold that of the initial homogenate.
Keywords:brush border  basal-lateral membranes  endoplasmic reticulum  Golgi  phase partitioning
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