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The allopurinol load test lacks specificity for primary urea cycle defects but may indicate unrecognized mitochondrial disease

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Journal of Inherited Metabolic Disease

Abstract

Thirty-three children ranging from 2 weeks to 12 years of age were selected for allopurinol loading, 16 on the basis of an increased urinary orotate excretion detected by routine organic acid analysis (group A), and 17 for clinical reasons suggesting a urea cycle defect (group B). The allopurinol load test proved positive in 13 of 16 patients from group A, mean peak orotate 64.0μmol/mmol creatinine (upper limit of reference range, 13.2) and 11 of 17 patients from group B, mean peak orotate 41.0μmol/mmol creatinine (upper limit of reference range, 13.2). Thorough investigation of these patients including urinary and plasma amino acid analysis and, in 17 cases, liver biopsy for histology and measurement of ornithine carbamyltransferase (OCT) and carbamyl-phosphate synthetase (CPS) activity failed to identify any evidence of a urea cycle disorder. However, muscle biopsies performed in 11 patients showed some evidence of mitochondrial disease in four cases, two defined on the basis of reduced respiratory chain enzyme activity and two on the basis of mtDNA abnormalities. These findings indicate that an increased excretion of orotate in sick children may not be uncommon and that a positive allopurinol load test result may not indicate a specific inherited urea cycle defect. In addition, these results raise the interesting possibility that defective ureagenesis may be a feature of mitochondrial disease in some individuals.

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Authors and Affiliations

  1. 1 Department of Chemical Pathology and Neonatal Screening, Children's Hospital NHS Trust, Sheffield, UK

    J. R. Bonham, P. Guthrie, M. Downing & J. C. Allen

  2. 2 Division of Child Health, Children's Hospital NHS Trust, Sheffield, UK

    M. S. Tanner & M. Sharrard

  3. 3 Department of Neurology, Children's Hospital NHS Trust, Sheffield, UK

    C. Rittey & J. M. Land

  4. 5 SAS Laboratory for Genetic Enzyme Defects, Division of Medical and Molecular Genetics, Guy's and St Thomas' Hospital NHS Trust, London, UK

    A. Fensom

  5. 6 Department of Histopathology, Children's Hospital NHS Trust, Sheffield, UK

    D. O'Neill

  6. 7 Purine Research Laboratory, Guy's and St Thomas' Hospitals NHS Trust, London, UK

    J. A. Duley & L. D. Fairbanks

Authors
  1. J. R. Bonham
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  2. P. Guthrie
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  3. M. Downing
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  4. J. C. Allen
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  5. M. S. Tanner
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  6. M. Sharrard
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  7. C. Rittey
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  8. J. M. Land
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  9. A. Fensom
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  10. D. O'Neill
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  11. J. A. Duley
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  12. L. D. Fairbanks
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Bonham, J.R., Guthrie, P., Downing, M. et al. The allopurinol load test lacks specificity for primary urea cycle defects but may indicate unrecognized mitochondrial disease. J Inherit Metab Dis 22, 174–184 (1999). https://doi.org/10.1023/A:1005406205548

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  • DOI: https://doi.org/10.1023/A:1005406205548

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