Isolation and characterization of granules of the toad bladder |
| |
Authors: | Sandra K Masur Shulamit Cooper Stephen Massardo Gloria Gronowicz Meryl S Rubin |
| |
Institution: | (1) Department of Physiology and Biophysics, Mount Sinai School of Medicine, 10029 New York, New York;(2) Center for Polypeptide and Membrane Research, Mount Sinai School of Medicine, 10029 New York, New York |
| |
Abstract: | Summary The electron-dense granules that lie just below the apical plasma membrane of granular epithelial cells of toad urinary bladder contribute glycoproteins to that apical membrane. Also, exocytosis of granules (and tubules) elicited by antidiuretic hormone potentially doubles that apical surface, during the same period the transport changes characteristic of the hormonal response occur.Granules separated from other membrane systems of the cells provide the material to assess the importance of the granules as glycocalyx precursors and in hormone action. We used isosmotic media to effect preliminary separations by differential centrifugation. Then granules were isolated by centrifugation on self-forming gradients of Percoll of decreasing hypertonicity.We find qualitative and quantitative changes in protein composition and enzymic activities in the isolated fractions. The primary criterion for granule purification was electron microscopic morphology. In addition, polypeptide species found in the granule fraction are limited in number and quantity. The granules are enzymically and morphologically not lysosomal in nature. Granules may provide the glycoproteins of the apical glycocalyx but they differ from the isolated plasma membrane fraction enzymically, in protein composition and in proportion of esterified cholesterol.We conclude that the granules are not average plasma membrane precursors. Their role in the membrane properties of the toad urinary bladder may now be evaluated by characterizing permeability and other properties of the isolated organelles. |
| |
Keywords: | toad (Bufo marinus) urinary bladder granules plasma membrane antidiuretic hormone osmotic water permeability membrane shuttle hypothesis |
本文献已被 SpringerLink 等数据库收录! |