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Regulation of argininosuccinate synthetase level by corticosteroid and pancreatic hormones during perinatal period

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Abstract

The urea cycle takes place in the hepatocyte of ureothelic animals. The conversion of ammonia into urea involves five reactions. The first 2 take place in the matrix of the mitochondria, the last 2 occur in the cytosol. Argininosuccinate synthetase (AS) is the third reaction of the urea cycle. It catalyses the condensation of citrulline and aspartate into arginonosuccinate. We have previously reported that rat AS activity was present in the cytosol and the outer membrane of the mitochondria. We have shown that, at the activity level, the colocation of AS was changing during fetal and neonatal development and was under the control of corticosteroid and pancreatic hormones. However, an unresolved issue was whether both AS had the same specific activity and that their location was changing during ontogenesis or that the specific activities of mitochondrial and cytosolic enzymes were different and/or modified during this period. In the present report, we compared the compartmentalization of AS activity and protein level in the fetus, the new-born and the adult rat and the role of corticosteroid and pancreatic hormones. Specific activities of both AS remained unchanged during ontogenesis. Glucocorticoids induced an increase in mitochondrial AS while glucagon appeared to induce a concomitant decrease in the level of mitochondrial AS and an increase in cytosolic AS.

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References

  1. Cheung CW, Cohen NS, Raijman L: Channelling of urea cycle intermediates in situ in permeabilized hepatocytes. J Biol Chem 264: 4038–4044, 1989

    Google Scholar 

  2. Demarquoy J, Fairand A, Gautier C, Vaillant R: Demonstration of argininosuccinate synthetase associated with mitochondrial membrane. Characterization and hormonal regualtion. Mol Cell Biochem (in press)

  3. Meijer A, Lamers WH, Chamuleau RA: Nitrogen metabolism and ornithine cycle function. Physiol Rev 70: 701–748, 1990

    Google Scholar 

  4. Dkhar J, Saha N, Ratha BK: Ureogenesis in a freshwater teleost: an unusual sub-cellular localization of ornithine-urea cycle enzymes in the freshwater air-breathing teleost Heteropneustes fossilis. Biochem Int 25: 1061–1069, 1991

    Google Scholar 

  5. Girard J, Bal D, Assan R: Rat plasma glucagon during the perinatal period. Diabetologia 7: 481, 1971

    Google Scholar 

  6. Dupouy JP, Coffigny H, Magre S: Maternal and foetal corticosterone levels during late pregnancy in rats. J Endocrinol 65: 347–352, 1975

    Google Scholar 

  7. Husson A, Guechairi M, Fairand A, Bouazza M, Ktorza A, Vaillant R: Effects of pancreatic hormones and glucocorticosteroids on argininosuccinate synthetase and arginonosuccinase activities of rat liver during the perinatal period:In vivo andin vitro studies. Endocrinology 119: 1171–1177, 1986

    Google Scholar 

  8. Ratner S: Enzymatic synthesis of arginine. Methods Enzymol 2: 356–367, 1955

    Google Scholar 

  9. Belbekouche M, Gautier C, Vaillant R: Changes in ornithine transcarbamylase activity and protein level during perinatal period in rat liver. Effects of actinomycin D. Biochem Biophys Res Commun 129: 780–788, 1985

    Google Scholar 

  10. Jost A: Expériences de décapitation de l'embryon de lapin. C R Acad Sci 225: 322–324, 1947

    Google Scholar 

  11. Husson A, Bouazza M, Buquet C, Vaillant R: Precocious induction of arginase in primary cultures of fetal hepatocytes.In vitro, 20: 314–320, 1984

    Google Scholar 

  12. Zuurendonk PF, Tischler ME, Akerboom TPM, Van der Meer R, Williamson JR, Tager JM: Rapid separation of particulate and soluble fractions from isolated cell preparation. Methods Enzymol 56: 207–223, 1979

    Google Scholar 

  13. Saheki T, Kusumi T, Takada S, Katsunuma T, Katunuma N: Crystallization and some properties of argininosuccinate synthetase from rat liver. FEBS Lett 58: 314–317, 1975

    Google Scholar 

  14. Rochovansky O, Kodowaki H, Ratner S: Biosynthesis of urea. Molecular and regulatory properties of crystalline argininosuccinate synthetase. J Biol Chem 252: 5287–5294, 1977

    Google Scholar 

  15. Gautier C, Husson A, Vaillant R: Effects des glucocorticostéroides sur l'activité des enzymes du cycle l'urée dans le foie foetal de rat. Biochimie 59: 91–95, 1977

    Google Scholar 

  16. Edkins E, Räihä NCR: Changes in the activities of the enzymes of urea synthesis caused by dexamethasone and dibutyryladenosine 3′∶5′-cyclic monophosphate in foetal rat liver maintained in organ culture. Biochem J 160: 159–162, 1976

    Google Scholar 

  17. Räihä NCR, Edkins E: Insulin antagonism of dexamethasone. Induced increase of arginnosuccinate synthetase and argininosuccinate lyase. Activities in cultured fetal rat liver. Biol Neonate 31: 266–270, 1977

    Google Scholar 

  18. Husson A, Bouazza M, Buquet C, Vaillant R: Role of dexamethasone and insulin on the development of the five urea-cycle enzymes in cultured rat foetal hepatocytes. Biochem J 225: 271–274, 1985

    Google Scholar 

  19. Husson A, Vaillant R: Effects of glucocorticosteroids and glucagon on argininosuccinate synthetase, argininosuccinase and arginase in fetal rat liver. Endocrinology 10: 227–232, 1982

    Google Scholar 

  20. Beliveau-Carey G, Cheung CW, Cohen NS, Brusilow S, Raijman L: Regulation of urea and citrulline synthesis under physiological conditions. Biochem J 292: 241–247, 1993

    Google Scholar 

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Authors and Affiliations

  1. Université de Bourgogne, Unité de Recherche en Nutrition Cellulaire et Métabolique, BP 138, F-21004, Dijon, France

    Jean Demarquoy

  2. Laboratoire d'Endocrinologie, Université de Haute Normandie, Faculté des Sciences, BP 118, 76134, Mont Saint Aignan Cedex, France

    Alain Fairand, Claude Gautier & René Vaillant

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  1. Jean Demarquoy
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  2. Alain Fairand
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  3. Claude Gautier
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  4. René Vaillant
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Demarquoy, J., Fairand, A., Gautier, C. et al. Regulation of argininosuccinate synthetase level by corticosteroid and pancreatic hormones during perinatal period. Mol Cell Biochem 143, 47–51 (1995). https://doi.org/10.1007/BF00925925

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  • DOI: https://doi.org/10.1007/BF00925925

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