MITOCHONDRIAL AUTONOMY: Sialic Acid Residues on the Surface of Isolated Rat Cerebral Cortex and Liver Mitochondria

doi:10.1083/jcb.55.1.147

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ARTICLE

MITOCHONDRIAL AUTONOMY : Sialic Acid Residues on the Surface of Isolated Rat Cerebral Cortex and Liver Mitochondria

H. Bruce Bosmann ¹, Marjorie W. Myers ¹, Delena Dehond ¹, Richard Ball ¹, and Kenneth R. Case ¹

¹ From the Department of Pharmacology and Toxicology, University of Rochester School of Medicine and Dentistry, Rochester, New York 14642

N-acetylneuraminic acid at the surfaces of rat cerebral cortexand liver mitochondria and derived mitoplasts (inner membraneplus matrix particles) was studied biochemically and electrokinetically.Rat cerebral cortex mitochondria in 0.0145 M NaCl, 4.5% sorbitol,pH 7.2 ± 0.1, 0.6 mM NaHCO₃, had an electrophoretic mobilityof - 2.88 ± 0.01 µ/sec per v per cm. In the same solutionthe electrophoretic mobility of rat liver mitochondria was -2.01 ± 0.02, of rat liver mitoplasts was - 1.22 ±0.07, and of rat cerebral cortex mitoplasts - 0.91 ± 0.04µ/sec per v per cm. Treatment of these particles with 50µg neuraminidase/mg particle protein resulted in the followingelectrophoretic mobilities in µ/sec per v per cm: rat cerebralcortex mitochondria, - 2.27; rat liver mitochondria, - 1.40;rat cerebral cortex mitoplasts, - 0.78; and rat liver mitoplasts,- 1.10. Rat liver mitochondria, mitoplasts, and outer mitochondrialmembranes contained 2.0, 1.1, and 4.1 nmoles of sialic acid/mgprotein, respectively. 10% of the liver mitochondrial proteinand 27.5% of the sialic acid was solubilized in the mitoplastand outer membrane isolation procedure. Rat cerebral cortexmitochondria, mitoplasts, and outer mitochondrial membranescontained 3.1, 0.8, and 6.2 nmoles sialic acid/mg protein, respectively;10% of the brain mitochondrial protein and 49 % of the sialicacid was solubilized in the mitoplast and outer membrane isolationsolution procedure. Treatment of both the rat liver and cerebralcortex mitochondria with 50 µg neuraminidase (dry weight)/mg protein resulted in the release of about 50% of the availableouter membrane sialic acid residues. Treatment of all of theparticles with trypsin caused release of sialic acid but didnot greatly affect the particle electrophoretic mobility. Ineach instance, curves of pH vs. electrophoretic mobility indicatedthat the particle surface contained an acid dissociable group,most likely a carboxyl group of sialic acid with pK_a $sim$ 2.7. Treatmentof either the rat liver or the cerebral cortex mitochondriawith trypsinized concanavalin A did not affect the particleelectrophoretic mobility but did cause a decrease in the electrophoreticmobility of L5178Y mouse leukemic cells.

Submitted on March 28, 1972
Revised on June 12, 1972

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