Optimization of allopurinol challenge: sample purification, protein intake control, and the use of orotidine response as a discriminative variable improve performance of the test for diagnosing ornithine carbamoyltransferase deficiency.
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BACKGROUND: The diagnosis of heterozygosity for X-linked ornithine carbamoyltransferase (OCT) deficiency has usually been based on measurement of the increase of orotate and orotidine excretion after an allopurinol load. We examined the choices of analyte, cutoff, and test conditions to obtain maximal test accuracy. METHODS: Urine orotate/orotidine responses to allopurinol load in 37 children (13 OCT-deficient and 24 non-OCT-deficient) and 24 women (7 at risk for carrier status and 17 not related to OCT-deficient children) were analyzed by liquid chromatography after sample purification by anion-exchange chromatography. Diagnostic accuracy was evaluated by nonparametric ROC curves. RESULTS: Sample purification was necessary to prevent interferences. Orotate and orotidine excretion increased with increased protein intake during the test. At a cutoff of 8 mmol orotidine/mol creatinine, sensitivity was 1.0 and specificity was 0. 92 in mild forms of OCT deficiency. Results in monoplex carrier women may differ greatly from those expected because of the genetics of this deficiency. CONCLUSIONS: Standardization of protein intake is required in the allopurinol loading test. A negative response in the face of clinical suspicion should be followed with a repeat test during a protein intake not <2.5 g x kg-1 x day-1. Measurements of orotidine provide better clinical sensitivity than measurements of orotate. (+info)
Efficient mitochondrial import of newly synthesized ornithine transcarbamylase (OTC) and correction of secondary metabolic alterations in spf(ash) mice following gene therapy of OTC deficiency.
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BACKGROUND: The mouse strain sparse fur with abnormal skin and hair (spf(ash)) is a model for the human ornithine transcarbamylase (OTC) deficiency, an X-linked inherited urea cycle disorder. The spf(ash) mouse carries a single base-pair mutation in the OTC gene that leads to the production of OTC enzyme at 10% of the normal level. MATERIALS AND METHODS: Recombinant adenoviruses carrying either mouse (Ad.mOTC) or human (Ad.hOTC) OTC cDNA were injected intravenously into the spf(ash) mice. Expression of OTC enzyme precursor and its translocation to mitochondria in the vector-transduced hepatocytes were analyzed on an ultrastructural level. Liver OTC activity and mitochondrial OTC concentration were significantly increased (300% of normal) in mice treated with Ad.mOTC and were moderately increased in mice receiving Ad.hOTC (34% of normal). The concentration and subcellular location of OTC and associated enzymes were studied by electron microscope immunolocalization and quantitative morphometry. RESULTS: Cytosolic OTC concentration remained unchanged in Ad.mOTC-injected mice but was significantly increased in mice receiving Ad.hOTC, suggesting a block of mitochondria translocation for the human OTC precursor. Mitochondrial ATPase subunit c [ATPase(c)] was significantly reduced and mitochondrial carbamy delta phosphate synthetase I (CPSI) was significantly elevated in spf(ash) mice relative to C3H. In Ad.mOTC-treated mice, the hepatic mitochondrial concentration of ATPase(c) was completely normalized and the CPSI concentration was partially corrected. CONCLUSIONS: Taken together, we conclude that newly synthesized mouse OTC enzyme was efficiently imported into mitochondria following vector-mediated gene delivery in spf(ash) mice, correcting secondary metabolic alterations. (+info)
Aberrations of ammonia metabolism in ornithine carbamoyltransferase-deficient spf-ash mice and their prevention by treatment with urea cycle intermediate amino acids and an ornithine aminotransferase inactivator.
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Sparse fur with abnormal skin and hair (spf-ash) mice are deficient in ornithine carbamoyltransferase (OCT) activity, but their OCT protein is kinetically normal. We administered ammonium chloride to spf-ash mice, in order to analyze ammonia metabolism and to find a rationale for the therapy of OCT deficiency. Ammonia concentration in the liver of spf-ash mice increased to a level much higher than in the control. Ammonium chloride injection caused an increase in ornithine (Orn) 5 min after injection and an increase in the sum of Orn, citrulline (Cit) and arginine (Arg) for at least 15 min in the liver of control mice, but no increase in Orn, Cit and Arg in the liver of spf-ash mice. Treatment of spf-ash mice with Arg 5-20 min prior to the injection of ammonium chloride kept the hepatic ammonia concentration at a level comparable to that without the load. A significant reciprocal relationship between ammonia and Orn concentrations in the liver of spf-ash mice 5 min after an ammonium chloride load with or without Arg strongly suggests that ammonia disposal is dependent on the supply of Orn. In spf-ash mice loaded with tryptone as a nitrogen source, Arg supplementation showed a dramatic decrease in urinary orotic acid excretion in a dose-dependent manner. Similar effects were observed with Cit and Orn at the same dose, and a long-lasting effect with an ornithine aminotransferase inactivator, 5-(fluoromethyl)ornithine, at a much lower dose. The rate of urea formation in liver perfused with ammonium chloride was lower in spf-ash mice than in controls, but with the addition of Orn to the medium it increased to a similar level in control and spf-ash mice. These results indicate that OCT is not saturated with Orn in vivo under physiological conditions and that the administration or enrichment of the urea cycle intermediate amino acids enhances the OCT reaction so that the ammonia metabolism of OCT-deficient spf-ash mice is at least partially normalized. (+info)
Under recognition of late onset ornithine transcarbamylase deficiency.
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Late onset ornithine transcarbamylase deficiency (McKusick 311250) is reported in four Finnish patients, two boys and two heterozygous girls. The subtle onset and course of ornithine transcarbamylase deficiency emphasises the need for plasma ammonia and amino acid measurements in clinical situations suggesting a disorder of this nature. (+info)
Late onset heterozygous ornithine transcarbamylase deficiency mimicking complex partial status epilepticus.
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A 57 year old woman with post-traumatic complex partial seizures was admitted because of recurrent episodes of altered mental state over the preceding 4 years, each lasting up to 5 days. There was a history of dietary protein intolerance since childhood and two of her daughters had died in the neonatal period from unexplained encephalopathies. In hospital she developed fluctuating confusion, amnesia, and sudden episodes of unresponsiveness. An EEG was consistent with complex partial status epilepticus but there was no response to benzodiazepines. Nasogastric feeding and sodium valproate were given and shortly afterwards she lapsed into a deep coma. Blood ammonia and urinary orotate were raised, and genetic testing confirmed that she was a carrier of a mutation in exon 3 of the ornithine transcarbamylase gene (C to T at position 92). Treatment with protein restriction, carnitine, and sodium phenylbutyrate led to a full recovery over a period of 3 months. To our knowledge this is the oldest age of onset yet described in a manifesting carrier. She is the fifth patient with heterozygous ornithine transcarbamylase deficiency reported to have had a severe reaction to sodium valproate. Hyperammonaemic encephalopathy should be considered in patients of any age who experience fluctuating confusion. (+info)
Transient depletion of CD4 lymphocyte improves efficacy of repeated administration of recombinant adenovirus in the ornithine transcarbamylase deficient sparse fur mouse.
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One of the current limitations of adenoviral gene therapy is a vector-induced humoral immune response that blocks effective re-administration of the vector. In an animal model of the inborn error of urea synthesis ornithine transcarbamylase (OTC) deficiency, the sparse fur (spf/y) mouse, we tested a strategy to transiently block the CD4 mediated immune response at the time of virus administration using an anti-CD4 monoclonal antibody (GK1.5). The co-administration of GK1.5 resulted in a significantly diminished production of neutralizing antibody to the adenovirus vector, but minimally prolonged metabolic correction. A second infusion of the same virus in GK1.5 treated spf/y mice led to a complete normalization of liver OTC activity at day 3 after infection and a significant metabolic correction of urinary orotate and plasma glutamine. In contrast, there was no evidence of enhanced OTC expression or metabolic correction (measured by normalization of plasma glutamine and urinary orotate) after the second infusion of virus in spf/y mice not treated with GK1.5. Furthermore, when co-administered with two consecutive doses of adenovirus, the anti-CD4 treatment allowed improved transgene expression upon a third administration of virus and a partial normalization of the metabolic abnormalities, compared with mice that did not receive anti-CD4 treatment. The level of OTC expression from the third viral infusion, however, was lower than that from the second viral infusion. Passive transfer experiments suggest that low levels of neutralizing antibodies developing over repeated viral administration was the likely cause of the reduced transgene expression. Together, these findings demonstrated that the host immune system can be modulated to permit effective transgene expression at therapeutic levels by re-administered adenoviral vectors. (+info)
Localized proton MR spectroscopy in infants with urea cycle defect.
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SUMMARY: Urea cycle defect is an inborn error of ammonium metabolism caused by a deficient activity of the enzymes involved in urea synthesis. Localized short-TE proton MR spectroscopy, performed in two infants who had citrullinemia and ornithine transcarbamylase deficiency, respectively, showed a prominent increase of glutamine/glutamate and lipid/lactate complex in both cases. N-acetylaspartate, total creatine, and myo-inositol were decreased in the infant with citrullinemia. Proton MR spectroscopy provided useful information for the diagnosis and understanding of the pathophysiology of urea cycle enzyme defect. (+info)
Non-hepatic hyperammonaemia: an important, potentially reversible cause of encephalopathy.
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The clinical syndrome of encephalopathy is most often encountered in the context of decompensated liver disease and the diagnosis is usually clear cut. Non-hepatic causes of encephalopathy are rarer and tend to present to a wide range of medical specialties with variable and episodic symptoms. Delay can result in the development of potentially life threatening complications, such as seizures and coma. Early recognition is vital. A history of similar episodes or clinical risk factors and early assessment of blood ammonia levels help establish the diagnosis. In addition to adequate supportive care, investigation of the underlying cause of the hyperammonaemia is essential and its reversal, where possible, will often result in complete recovery. Detection of an unborn error of metabolism should lead to the initiation of appropriate maintenance therapy and genetic counselling. (+info)