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Query: UMLS:C0085584 (
encephalopathy
)
18,178
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hyperornithinemia, hyperammonemia, and homocitrullinuria (HHH) syndrome is caused by mutations in the SLC25A15 (
ORNT1
) gene encoding the mitochondrial ornithine transporter, but the mechanism of pathogenesis of the
encephalopathy
, spastic paraparesis and hepatopathy remains undetermined. HHH syndrome was diagnosed in a 2-year-old Palestinian boy with developmental delay and seizures, and subsequently in his 13-year-old brother with developmental delay. Direct sequencing of the PCR products of SLC25A15 exon amplifications revealed that both brothers were homozygous for a novel 446G deletion in exon 3 as well as for a 760A>T (I254L) polymorphism in exon 5, which is downstream of a premature termination codon produced by the frameshift resulting from the 446G deletion. The index patient had elevated liver enzymes as well as hyperalaninemia, lactic acidemia with an elevated lactate to pyruvate ratio, and increased urinary excretion of lactate, glutarate and Krebs cycle intermediates. These findings are indicative of mitochondrial dysfunction and are in accordance with ultrastructural studies showing increased numbers of large and bizarre mitochondria in liver, muscle, leukocytes and fibroblasts of some HHH patients. Neurologic and hepatic manifestations are characteristic of some primary mitochondrial disorders. Secondary mitochondrial dysfunction may contribute to the pathogenesis of these same features in HHH syndrome.
...
PMID:Hyperornithinemia, hyperammonemia, and homocitrullinuria syndrome with evidence of mitochondrial dysfunction due to a novel SLC25A15 (ORNT1) gene mutation in a Palestinian family. 1475 33
To date, 14 inherited diseases (including phenotypes) associated to mitochondrial transporters of the SLC25 family have been well characterized biochemically and genetically. They are rare metabolic disorders caused by mutations in the SLC25 nuclear genes that encode mitochondrial carriers, a superfamily of 53 proteins in humans that shuttle a variety of solutes across the mitochondrial membrane. Mitochondrial carriers vary considerably in the nature and size of the substrates they transport, the modes of transport and driving forces. However, their substrate translocation mechanism at the molecular level is thought to be basically the same. Herein, the main structural and functional properties of the SLC25 mitochondrial carriers and the known carrier-related diseases are presented. Two of these disorders, ADP/ATP carrier deficiency and phosphate carrier deficiency, are caused by defects of the two mitochondrial carriers that provide mitochondria with ADP and phosphate, the substrates of oxidative phosphorylation; these disorders therefore are characterized by defective energy production by mitochondria. The mutations of SLC25 carrier genes involved in other cellular functions cause carnitine/acylcarnitine carrier deficiency,
HHH
syndrome, aspartate/glutamate isoform 1 and 2 deficiencies, congenital Amish microcephaly, neuropathy with bilateral striatal necrosis, congenital sideroblastic anemia, neonatal epileptic
encephalopathy
, and citrate carrier deficiency; these disorders are characterized by specific metabolic dysfunctions depending on the role of the defective carrier in intermediary metabolism.
...
PMID:Mitochondrial transporters of the SLC25 family and associated diseases: a review. 2479 59
Hyperornithinemia-hyperammonemia-homocitrullinuria (HHH) syndrome is an autosomal recessive metabolic disorder usually presenting in the neonatal period with intermittent episodes of hyperammonemia, psychomotor delay, and progressive
encephalopathy
. Adult cases usually evolve into frank spastic paraparesis. The syndrome is caused by mutations in SLC25A15/
ORNT1
encoding the mitochondrial ornithine transporter; a second ornithine transporter, ORNT2 of unknown function, is also present in most placental mammals. ORNT2 is believed to originate from an ancient retro-transposition event. In yeast Saccharomyces cerevisiae the major function of the transporter (encoded by Arg11) is to shuttle ornithine from the mitochondrial matrix to the cytosol. Its inactivation abolishes growth in the absence of arginine.In this work, we used functional complementation in S. cerevisiae to characterize the function of human ORNT2 and to test the pathogenicity of
ORNT1
mutations found in HHH patients. Notably, we found that human
ORNT1
but not ORNT2 complements the deletion of the yeast gene, despite their high level of homology. However, we identified some key residues in ORNT2, which may recover its functional competence when replaced with the corresponding residues of
ORNT1
, suggesting that roles of the two transporters are different. Moreover, we used this system to test a series of missense mutations of
ORNT1
identified in patients with HHH syndrome. All mutations had a detrimental effect on the functionality of the human gene, without however clear genotype-phenotype correlations. Our data support yeast as a simple and effective model to validate missense mutations occurring in patients with HHH.
...
PMID:Heterologous Expression in Yeast of Human Ornithine Carriers ORNT1 and ORNT2 and of ORNT1 Alleles Implicated in HHH Syndrome in Humans. 2658 10
