Deborah M. Applebaum scite author profile

A B S T R A C T The rise in plasma triglyceride (TG) levels associated with estrogen administration has been thought to arise from impaired clearance because of the uniform suppression of post-heparin lipolytic activity (PHLA). Recently PHLA has been shown to consist of two activities: hepatic TG lipase and extrahepatic lipoprotein lipase (LPL). To determine whether estrogen might induce a selective decline in one of these activities, both hepatic TG lipase and extrahepatic LPL were measured in postheparin plasma from 13 normal women before and after 2 wk of treatment with ethinyl estradiol (1 ,ug/kg per day). Hepatic TG lipase and extrahepatic LPL were determined by two techniques: (a) separation by heparin-Sepharose column chromatography, and (b) selective inhibition with specific antibodies to post-heparin hepatic TG lipase and milk LPL. Estrogen uniformly depressed hepatic TG lipase as measured by affinity column (-68±12%, mean±SD, P < 0.001) or antibody inhibition (-63±11%, P < 0.001). Extrahepatic LPL was not significantly changed by affinity column (-22±40%) or antibody inhibition (-3+42%). Direct measurement of adipose tissue LPL from buttock fat biopsies also showed no systematic change in the activated form of LPL measured as heparin-elutable LPL (+64+164%) or in the tissue form of LPL measured in extracts of acetone-ether powders (+21±77%). The change in hepatic TG lipase correlated with the change in PHLA (r = 0.969, P < 0.01). However, neither the change in PHLA nor hepatic TG lipase correlated with the in-

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REGULATORY PATTERNS IN PUTRESCINE BIOSYNTHESIS IN ESCHERICHIA COLI

Morris

Applebaum

et al. 1970

Annals of the New York Academy of Sciences

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Comparison of the biosynthetic and biodegradative ornithine decarboxylases of Escherichia coli

Applebaum¹,

Dunlap²,

Morris³

1977

Biochemistry

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Biosynthetic ornithine decarboxylase was purified 4300-fold from Escherichia coli to a purity of approximately 85% as judged by polyacrylamide gel electrophoresis. The enzyme showed hyperbolic kinetics with a Km of 5.6 mM for ornithine and 1.0 micronM for pyridoxal phosphate and it was competitively inhibited by putrescine and spermidine. The biosynthetic decarboxylase was compared with the biodegradative ornithine decarboxylase [Applebaum, D., et al. (1975), Biochemistry 14, 3675]. Both enzymes were dimers of 80 000-82 000 molecular weight and exhibited similar kinetic properties. However, they differed significantly in other respects. The pH optimum of the biosynthetic enzyme was 8.1, compared with 6.9 for the biodegradative. Both enzymes were activated by nucleotides, but with different specificity. Antibody to the purified biodegradative ornithine decarboxylase did not cross-react with the biosynthetic enzyme. The evolutionary relationship of these two decarboxylases to the other amino acid decarboxylases of E. coli is discussed.

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Biodegradative ornithine decarboxylase of Escherichia coli. Purification, properties, and pyridoxal 5'-phosphate binding site

Applebaum¹,

Sabo²,

Fischer³

et al. 1975

Biochemistry

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The biodegradative ornithine decarboxylase of Escherichia coli has been purified to apparent homogeneity. At its pH optimum (pH 7.0), the enzyme exists as a dimer of 160,000 molecular weight. Aggregation of the dimer was promoted by lower pH values. The enzyme requires pyridoxal 5'-phosphate for activity. The coenzyme appears to be bound in Schiff base linkage as suggested by spectral studies and inhibition by NaBH4. The following sequence was determined for the coenzyme binding site: Val-His-(epsilon-Pxy)Lys-Gln-Gln-Ala-Gly-Gln. The properties of this enzyme are compared with the other biodegradative amino acid decarboxylases that have been isolated from E. coli.

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