Tubulin and microtubules from bovine kidney: Purification, properties, and characterization of ligand binding

Abstract

Tubulin was purified from bovine renal medulla by in vitro assembly of microtubules in the presence of dimethyl sulfoxide and glycerol. Light scattering measurements of the polymerization process demonstrate that dimethyl sulfoxide and glycerol decrease the critical concentration of tubulin required for polymerization. The minimum concentration of tubulin from bovine renal medulla is about 1% of the total soluble protein. Assembly occurs in the absence of detectable amounts of high-molecular weight proteins or τ-protein. Microtubules polymerized in the absence and presence of 10% dimethyl sulfoxide and 4 m glycerol are similar morphologically as detected by electron microscopy. Molecular weights of α- and β-tubulin from bovine renal medulla are 54,000 ± 700 and 52,000 ± 800, respectively, as determined by electrophoresis on polyacrylamide gels in the presence of sodium dodecyl sulfate. Colchicine-binding activity of renal medullary tubulin decays in an apparent first-order process which is temperature dependent. The half-time of decay in buffer is 5.1 h and addition of 5 μ m vinblastine sulfate increases the half-time of decay to 10.9 h at 37 °C. Calculations based on measurements of the rate of decay of colchicine-binding activity at different temperatures indicates that vinblastine sulfate stabilizes the binding activity by decreasing the entropy of activation of the decay process. Colchicine decreases the rate of decay about 3.5-fold both in the absence and presence of vinblastine sulfate at 37 °C. Values of the apparent colchicine-binding constant, K A, of bovine renal medullary tubulin are 5.9 × 10 6 and 7.8 × 10 6 m −1 at 37 °C in the absence and presence of vinblastine sulfate. Vinblastine sulfate decreases the rate of decay and increases the apparent binding constant of colchicine binding. Lumicolchicine does not affect the binding of colchicine. Podophyllotoxin apparently competitively inhibits the binding of colchicine; the apparent K i for podophyllotoxin is 4.0 × 10 −7 m at 37 °C. Thus, tubulin from bovine renal medulla has ligand-binding characteristics which exhibit differences and similarities to the corresponding characteristics of the brain tubulin. These biochemical properties of the colchicine-binding activity of bovine renal medullary tubulin support previous physiologic studies which demonstrate that microtubules are required for the function of vasopressin in mammalian kidneys.