Alterations of red cell membranes from phenylhydrazine-treated rabbits

Abstract

Reticulocytosis was induced in rabbits by two methods: phlebotomy and injection of phenylhydrazine. Normal erythrocytes, reticulocytes from bed rabbits, reticulocytes from phenylhydrazine-treated rabbits, and erythrocytes treated in vitro with phenylhydrazine were compared with respect to their plasma membrane labeling by galactose oxidase and NaB 3H 4, and lactoperoxidase-catalyzed incorporation of 125I. Normal erythrocyte membranes and membranes from reticulocytes of bled rabbits showed almost identical labeling patterns, the presence of 2–3 glycoproteins with moderate to low mobilities on dodecyl sulfate acrylamide gel electrophoresis. Labeling in the absence of enzyme was negligible. In contrast, the reticulocytes from phenylhydrazine-treated rabbits exhibited a large incorporation of tritium without prior treatment with galactose oxidase. Even after prereduction with unlabeled NaBH 4 to remove this nonspecific labeling, the labeled glycoprotein components found in normal erythrocytes were not detectable. Normal erythrocytes treated in vitro with phenylhydrazine, washed, and labeled with galactose oxidase had labeling patterns, including high nonspecific incorporation of 3H, similar to those observed with in vivo phenylhydrazine treatment. Solubilization of membranes with lithium diiososalicylate followed by partitioning with phenol showed that the same glycoproteins were presented in normal or phenylhydrazine membranes, although only the former extract was labeled by galactose oxidase. Individual carbohydrates from the membranes were analyzed by gas-liquid chromatography and, in the case of hexosamines, on the amino acid analyzer. The results of these analyses indicated a slight decline in galactose content with phenylhydrazine treatment. Reticulocyte membranes from bled rabbits also showed a decrease in galactose content, although it was less pronounced. Most of the label incorporated by nonspecific borohydride labeling of membranes from phenylhydrazine-treated animals was found associated with protein. The modified amino acids from labeled proteins are similar to those formed in reactions of oxidized lipids and proteins in model systems.