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Journal of Inherited Metabolic Disease
Published in: Journal of Inherited Metabolic Disease 1/2012

01-01-2012 | Original Article

Bacterial expression of mutant argininosuccinate lyase reveals imperfect correlation of in-vitro enzyme activity with clinical phenotype in argininosuccinic aciduria

Authors: Katharina Engel, Jean-Marc Vuissoz, Sandra Eggimann, Murielle Groux, Christoph Berning, Liyan Hu, Vera Klaus, Dorothea Moeslinger, Saadet Mercimek-Mahmutoglu, Sylvia Stöckler, Bendicht Wermuth, Johannes Häberle, Jean-Marc Nuoffer

Published in: Journal of Inherited Metabolic Disease | Issue 1/2012

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Abstract

Background

The urea cycle defect argininosuccinate lyase (ASL) deficiency has a large spectrum of presentations from highly severe to asymptomatic. Enzyme activity assays in red blood cells or fibroblasts, although diagnostic of the deficiency, fail to discriminate between severe, mild or asymptomatic cases. Mutation/phenotype correlation studies are needed to characterize the effects of individual mutations on the activity of the enzyme.

Methods

Bacterial in-vitro expression studies allowed the enzyme analysis of purified mutant ASL proteins p.I100T (c.299 T > C), p.V178M (c.532 G > A), p.E189G (c.566A > G), p.Q286R (c.857A > G), p.K315E (c.943A > G), p.R379C (c.1135 C > T) and p.R385C (c.1153 C > T) in comparison to the wildtype protein.

Results

In the bacterial in-vitro expression system, ASL wild-type protein was successfully expressed. The known classical p.Q286R, the novel classical p.K315E and the known mutations p.I100T, p.E189G and p.R385C, which all have been linked to a mild phenotype, showed no significant residual activity. There was some enzyme activity detected with the p.V178M (5 % of wild-type) and p.R379C (10 % of wild-type) mutations in which Km values for argininosuccinic acid differed significantly from the wild-type ASL protein.

Conclusion

The bacterially expressed enzymes proved that the mutations found in patients and studied here indeed are detrimental. However, as in the case of red cell ASL activity assays, some mutations found in genetically homozygous patients with mild presentations resulted in virtual loss of enzyme activity in the bacterial system, suggesting a more protective environment for the mutant enzyme in the liver than in the heterologous expression system and/or in the highly dilute assays utilized here.
Literature
Al-Sayed M, Alahmed S, Alsmadi O, Khalil H, Rashed MS, Imtiaz F, Meyer BF (2005) Identification of a common novel mutation in Saudi patients with argininosuccinic aciduria. J Inherit Metab Dis 28:877–883PubMedCrossRef
Barbosa P, Cialkowski M, O'Brien WE (1991a) Analysis of naturally occurring and site-directed mutations in the argininosuccinate lyase gene. J Biol Chem 266:5286–5290PubMed
Barbosa P, Wistow GJ, Cialkowski M, Piatigorsky J, O'Brien WE (1991b) Expression of duck lens delta-crystallin cDNAs in yeast and bacterial hosts. Delta 2-crystallin is an active argininosuccinate lyase. J Biol Chem 266:22319–22322PubMed
Bastone A, Diomede L, Parini R, Carnevale F, Salmona M (1990) Determination of argininosuccinate lyase and arginase activities with an amino acid analyzer. Anal Biochem 191:384–389PubMedCrossRef
Brusilow S, Horwich A (2001) Urea cycle enzymes. In: Scriver C, Beaudet A, Sly W, Valle D (eds) The metabolic & molecular bases of inherited disease, 8th edn. McGraw-Hill, New York, pp 1909–1963
Ceriotti G, Spandrio L (1963) A spectrophotometric method for determination of urea. Clin Chim Acta 8:295–299PubMedCrossRef
Christodoulou J, Craig HJ, Walker DC, Weaving LS, Pearson CE, McInnes RR (2006) Deletion hotspot in the argininosuccinate lyase gene: association with topoisomerase II and DNA polymerase alpha sites. Hum Mutat 27:1065–1071PubMedCrossRef
Ficicioglu C, Mandell R, Shih VE (2009) Argininosuccinate lyase deficiency: longterm outcome of 13 patients detected by newborn screening. Mol Genet Metab 98:273–277PubMedCrossRef
Glick NR, Snodgrass PJ, Schafer IA (1976) Neonatal argininosuccinic aciduria with normal brain and kidney but absent liver argininosuccinate lyase activity. Am J Hum Genet 28:22–30PubMed
Howell PL, Turner MA, Christodoulou J, Walker DC, Craig HJ, Simard LR, Ploder L, McInnes RR (1998) Intragenic complementation at the argininosuccinate lyase locus: reconstruction of the active site. J Inherit Metab Dis 21(Suppl 1):72–85PubMedCrossRef
Keskinen P, Siitonen A, Salo M (2008) Hereditary urea cycle diseases in Finland. Acta Paediatr 97:1412–1419PubMedCrossRef
Kleijer WJ, Garritsen VH, Linnebank M, Mooyer P, Huijmans JG, Mustonen A, Simola KO, Arslan-Kirchner M, Battini R, Briones P, Cardo E, Mandel H, Tschiedel E, Wanders RJ, Koch HG (2002) Clinical, enzymatic, and molecular genetic characterization of a biochemical variant type of argininosuccinic aciduria: prenatal and postnatal diagnosis in five unrelated families. J Inherit Metab Dis 25:399–410PubMedCrossRef
Levy HL, Mitchell ML, Ridley SE (1984) Newborn screening. Pediatrics 73:417PubMed
Linnebank M, Homberger A, Rapp B, Winter C, Marquardt T, Harms E, Koch HG (2000) Two novel mutations (E86A, R113W) in argininosuccinate lyase deficiency and evidence for highly variable splicing of the human argininosuccinate lyase gene. J Inherit Metab Dis 23:308–312PubMedCrossRef
Linnebank M, Tschiedel E, Häberle J, Linnebank A, Willenbring H, Kleijer WJ, Koch HG (2002) Argininosuccinate lyase (ASL) deficiency: mutation analysis in 27 patients and a completed structure of the human ASL gene. Hum Genet 111:350–359PubMedCrossRef
McInnes RR, Shih V, Chilton S (1984) Interallelic complementation in an inborn error of metabolism: genetic heterogeneity in argininosuccinate lyase deficiency. Proc Natl Acad Sci U S A 81:4480–4484PubMedCrossRef
Mercimek-Mahmutoglu S, Moeslinger D, Häberle J, Engel K, Herle M, Strobl MW, Scheibenreiter S, Muehl A, Stockler-Ipsiroglu S (2010) Long-term outcome of patients with argininosuccinate lyase deficiency diagnosed by newborn screening in Austria. Mol Genet Metab 100:24–28PubMedCrossRef
Nuzum CT, Snodgrass PJ (1976) Multiple assays of the 5 urea cycle enzymes in human liver homogenates. In: Grisolia S, Mayor F, Baguena RB (eds) The urea cycle. Wiley, New York, pp 325–349
O'Brien WE, Barr RH (1981) Argininosuccinate lyase: purification and characterization from human liver. Biochemistry 20:2056–2060PubMedCrossRef
Palekar AG, Mantagos S (1981) Human liver argininosuccinase purification and partial characterization. J Biol Chem 256:9192–9194PubMed
Perry TL, Wirtz ML, Kennaway NG, Hsia YE, Atienza FC, Uemura HS (1980) Amino acid and enzyme studies of brain and other tissues in an infant with argininosuccinic aciduria. Clin Chim Acta 105:257–267PubMedCrossRef
Pettersen EF, Goddard TD, Huang CC, Couch GS, Greenblatt DM, Meng EC, Ferrin TE (2004) UCSF Chimera–a visualization system for exploratory research and analysis. J Comput Chem 25:1605–1612PubMedCrossRef
Renouf S, Fairand A, Husson A (1998) Developmental control of argininosuccinate lyase gene by methylation. Biol Neonate 73:190–197PubMedCrossRef
Sampaleanu LM, Vallee F, Thompson GD, Howell PL (2001) Three-dimensional structure of the argininosuccinate lyase frequently complementing allele Q286R. Biochemistry 40:15570–15580PubMedCrossRef
Tanaka T, Nagao M, Mori T, Tsutsumi H (2002) A novel stop codon mutation (X465Y) in the argininosuccinate lyase gene in a patient with argininosuccinic aciduria. Tohoku J Exp Med 198:119–124PubMedCrossRef
Trevisson E, Salviati L, Baldoin MC, Toldo I, Casarin A, Sacconi S, Cesaro L, Basso G, Burlina AB (2007) Argininosuccinate lyase deficiency: mutational spectrum in Italian patients and identification of a novel ASL pseudogene. Hum Mutat 28:694–702PubMedCrossRef
Walker DC, McCloskey DA, Simard LR, McInnes RR (1990) Molecular analysis of human argininosuccinate lyase: mutant characterization and alternative splicing of the coding region. Proc Natl Acad Sci U S A 87:9625–9629PubMedCrossRef
Walker DC, Christodoulou J, Craig HJ, Simard LR, Ploder L, Howell PL, McInnes RR (1997) Intragenic complementation at the human argininosuccinate lyase locus. Identification of the major complementing alleles. J Biol Chem 272:6777–6783PubMedCrossRef
Widhalm K, Koch S, Scheibenreiter S, Knoll E, Colombo JP, Bachmann C, Thalhammer O (1992) Long-term follow-up of 12 patients with the late-onset variant of argininosuccinic acid lyase deficiency: no impairment of intellectual and psychomotor development during therapy. Pediatrics 89:1182–1184PubMed
Yu B, Thompson GD, Yip P, Howell PL, Davidson AR (2001) Mechanisms for intragenic complementation at the human argininosuccinate lyase locus. Biochemistry 40:15581–15590PubMedCrossRef
Zimmermann A, Bachmann C, Baumgartner R (1986) Severe liver fibrosis in argininosuccinic aciduria. Arch Pathol Lab Med 110:136–140PubMed
Metadata
Title
Bacterial expression of mutant argininosuccinate lyase reveals imperfect correlation of in-vitro enzyme activity with clinical phenotype in argininosuccinic aciduria
Authors
Katharina Engel
Jean-Marc Vuissoz
Sandra Eggimann
Murielle Groux
Christoph Berning
Liyan Hu
Vera Klaus
Dorothea Moeslinger
Saadet Mercimek-Mahmutoglu
Sylvia Stöckler
Bendicht Wermuth
Johannes Häberle
Jean-Marc Nuoffer
Publication date
01-01-2012
Publisher
Springer Netherlands
Published in
Journal of Inherited Metabolic Disease / Issue 1/2012
Print ISSN: 0141-8955
Electronic ISSN: 1573-2665
DOI
https://doi.org/10.1007/s10545-011-9357-x

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