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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A simple fluorescent spot screening test has been developed for the identification of individuals with arginase deficiency (hyperargininemia). The assay is based on the coversion of arginine to ornithine and urea by
arginase
present in 1/8 inch disc of dried blood on filter paper. The enzyme activity is visually estimated by the oxidation of NAD-H to NAD+ in a coupled kinetic reaction. In the absence of the enzyme, there is no oxidation of the NAD-H and consequently no loss of fluorescence. The screening assay has been used to identify successfully both heterozygous and homozygous
arginase
-deficient crabeater macaques (M. fascicularis) as well as three patients with hyperargininemia. This test can be used to screen large numbers of patients with
mental retardation
or seizure disorders rapidly to determine the frequency of this disorder more precisely.
...
PMID:A simple screening test for arginase deficiency (hyperargininemia). 84 87
Argininemia is an autosomal recessive disorder caused by a deficiency in the liver-type arginase enzyme. Clinical manifestations include progressive spastic diplegia and
mental retardation
. While the quality of life can severely deteriorate in most such patients, some do show remarkable improvement in neurological symptoms while on controlled diets. We examined the thesis that differences in clinical responses to dietary treatment are based on molecular heterogeneity in mutant
arginase
alleles. Genomic DNAs from 11 patients with argininemia were examined using the polymerase chain reaction, cloning, and sequencing. Nine mutations representing 21/22 mutant alleles were identified in 11 patients with argininemia, and four of these mutations were expressed in vitro to determine the severity of enzymatic defects. We found that these mutations accounted for 64% of the mutant alleles in our patients. Based on findings in vitro expression tests, the mutations can be considered either severe or moderate. Patients with at least one moderate mutant allele responded well to dietary treatment; concentrations of plasma arginine were controlled within 300 microM. In contrast, patients with two severely mutated alleles did not respond to dietary treatment and plasma arginine was over 400 microM. Argininemia is heterogeneous at the molecular level. The degree of clinical improvement during dietary treatment is reflected in the concentration of arginine in plasma, as a measure of metabolic control. Plasma arginine levels during treatment is reflected in the concentration of arginine in plasma, as a measure of metabolic control. Plasma arginine levels during treatment correlated with types of molecular defects in the
arginase
genes.
...
PMID:Molecular basis of phenotypic variation in patients with argininemia. 764 38
As a toxic metabolic byproduct in mammals, excess ammonia is converted into urea by a series of five enzymatic reactions in the liver that constitute the urea cycle. A portion of this cycle takes place in the mitochondria, while the remainder is cytosolic. Liver
arginase
(L-arginine ureahydrolase, A1) is the fifth enzyme of the cycle, catalyzing the hydrolysis of arginine to ornithine and urea within the cytosol. Patients deficient in this enzyme exhibit hyperargininemia with episodic hyperammonemia and long-term effects of
mental retardation
and spasticity. However, the hyperammonemic effects are not so catastrophic in arginase deficiency as compared to other urea cycle defects. Earlier studies have suggested that this is due to the mitigating effect of a second isozyme of
arginase
(AII) expressed predominantly in the kidney and localized within the mitochondria. In order to explore the curious dual evolution of these two isozymes, and the ways in which the intriguing, aspects of AII physiology might be exploited for gene replacement therapy of AI deficiency, the cloned cDNA for human AI was inserted into an expression vector downstream from the mitochondrial targeting leader sequence for the mitochondrial enzyme ornithine transcarbamylase and transfected into a variety of recipient cell types. AI expression in the target cells was confirmed by northern blot analysis, and competition and immunoprecipitation studies showed successful translocation of the exogenous AI enzyme into the transfected cell mitochondria. Stability studies demonstrated that the translocated enzyme had a longer half-life than either native cytosolic AI or mitochondrial AII. Incubation of the transfected cells with increasing amounts of arginine produced enhanced levels of mitochondrial AI activity, a substrate-induced effect that we have previously seen with native AII but never AI. Along with exploring the basic biological questions of regulation and subcellular localization in this unique dual-enzyme system, these results suggest that the mitochondrial matrix space may be a preferred site for delivery of enzymes in gene replacement therapy.
...
PMID:Delivery of cytosolic liver arginase into the mitochondrial matrix space: a possible novel site for gene replacement therapy. 913 Oct 18
Type II citrullinemia (CTLN2) is characterized by a deficiency of argininosuccinate synthetase (ASS) in the liver. Mutation analysis of the SLC25A13 gene, which is responsible for CTLN2, provides a rapid and accurate diagnosis. We describe clinical, biochemical and histologic features of two patients, whose diagnosis was finally made by mutation analysis. They initially presented with symptoms related to hyperammonemia at 16 to 22 years of age. A patient had shown
mental retardation
and growth failure from early childhood. Laboratory findings including amino acids, were characteristic, such as elevated citrulline, arginine, and lysine concentrations, but definitive diagnosis had not been made. The patients died of liver cirrhosis and hepatoma at 31 and 34 years old, respectively. Fatty change in the hepatocytes was commonly observed in the autopsied specimens. ASS activity was decreased in the liver of both patients, and a concomitant decrease of
arginase
activity was found in one case. Investigation for the SLC25A13 mutation revealed that one patient was homozygous for IVS11 + 1G>A, and the other was compound heterozygote (851del4/S225X). Comparison of genetic, enzymatic and biochemical data among various cases of CTLN2 will be essential to understand the real nature of the disease.
...
PMID:Application of mutation analysis for the previously uncertain cases of adult-onset type II citrullinemia (CTLN2) and their clinical profiles. 1251 93
Arginase deficiency is an urea cycle disorder that generally presents with
mental retardation
and spasticity, yet uncommonly with episodes of hyperammonemia. A female adolescent with arginase deficiency developed hyperammonemic episodes temporally related to her menstrual cycle, which ceased upon adequate treatment with depot medroxy progesterone acetate. A similar case was previously reported. A catamenial trigger should be considered in adolescent female
arginase
-deficient patients with episodes of hyperammonemia.
...
PMID:A patient with arginase deficiency and episodic hyperammonemia successfully treated with menses cessation. 1696
Argininemia is a rare hereditary disease due to a deficiency of hepatic
arginase
, which is the last enzyme of the urea cycle and hydrolyzes arginine to ornithine and urea. The onset of the disease is usually in childhood, and clinical manifestations include progressive spastic paraparesis and
mental retardation
. Liver involvement is less frequent and usually not as severe as observed in other UCDs. For this reason, and because usually there is a major neurological disease at diagnosis, patients with argininemia are rarely considered as candidates for OLT despite its capacity to replace the deficient enzyme by an active one. We report on long-term follow-up of two patients with argininemia. Patient 1 was diagnosed by the age of 20 months and despite appropriate conventional treatment progressed to spastic paraparesis with marked limp. OLT was performed at 10 years of age with normalization of plasmatic arginine levels and guanidino compounds. Ten years post-OLT, under free diet, there is no progression of neurological lesions. The second patient (previously reported by our group) was diagnosed at 2 months of age, during a neonatal cholestasis workup study. OLT was performed at the age of 7 years, due to liver cirrhosis with portal hypertension, in the absence of neurological lesions and an almost-normal brain MRI. After OLT, under free diet, there was normalization of plasmatic arginine levels and guanidino compounds. Twelve years post-OLT, she presents a normal neurological examination. We conclude that OLT prevents progressive neurological impairment in argininemia and should be considered when appropriate conventional treatment fails.
...
PMID:Liver transplantation prevents progressive neurological impairment in argininemia. 2355 24
Background:
Arginases catalyze the last step in the urea cycle. Hyperargininemia, a rare autosomal-recessive disorder of the urea cycle, presents after the first year of age with regression of milestones and evolves gradually into progressive spastic quadriplegia and cognitive dysfunction. Genetic studies reported various mutations in the
ARG1
gene that resulted in hyperargininemia due to a complete or partial loss of
arginase
activity.
Case Presentation:
Five patients from an extended highly consanguineous Sudanese family presented with regression of the acquired milestones, spastic quadriplegia, and
mental retardation
. The disease onset ranged from 1 to 3 years of age. Two patients had epileptic seizures and one patient had stereotypic clapping. Genetic testing using whole-exome sequencing, done for the patients and a healthy parent, confirmed the presence of a homozygous novel missense variant in the
ARG1
gene [GRCh37 (NM_001244438.1): exon 4: g.131902487T>A, c.458T>A, p.(Val153Glu)]. The variant was predicted pathogenic by five algorithms and affected a highly conserved amino acid located in the protein domain ureohydrolase,
arginase
subgroup. Sanger sequencing of 13 sampled family members revealed complete co-segregation between the variant and the disease distribution in the family in line with an autosomal-recessive mode of inheritance. Biochemical analysis confirmed hyperargininemia in five patients.
Conclusion:
This study reports the first Sudanese family with
ARG1
mutation. The reported variant is a loss-of-function missense mutation. Its pathogenicity is strongly supported by the clinical phenotype, the computational functional impact prediction, the complete co-segregation with the disease, and the biochemical assessment.
...
PMID:Novel Homozygous Missense Mutation in the
ARG1
Gene in a Large Sudanese Family. 3319 12
