Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:6.4.1.1 (
pyruvate carboxylase
)
1,516
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The most common defect associated with deficiency of the pyruvate dehydrogenase (PDH) complex occurs in the E1 component, specifically due to mutations in the
X-linked
E1 alpha gene. Clinical sequelae of these mutations, which range from severe neonatal lactic acidosis to carbohydrate-sensitive ataxia, can be different in males and females depending on the nature of the mutation and, in the case of females, on the X-inactivation pattern in different tissues. Males have a high representation of missense mutations among the patient cohort, while females are much more likely to have DNA rearrangements, particularly toward the 3' end of the coding sequence of the gene. Missplicing mutations involving exon 6 deletion have been reported, as has a missense mutation conferring true thiamin-responsiveness of the enzyme and the patient's clinical symptoms. Pyruvate carboxylase deficiency, on the other hand, is a true autosomal recessive disease, though it has high occurrences in particular ethnic groups, especially in Algonkian-speaking Amerindians and in Arabs. In the former group the defect is a simple type in which material cross-reactive to
pyruvate carboxylase
antibody is present in cultured cells (CRM+ve). In the latter group, cross-reacting material is rarely present (CRM-ve). The CRM+ve patients can survive into teenage years with careful supervision, while the CRM-ve patients have complications due to hyperammonaemia and dysfunction of the urea cycle and rarely survive beyond 3 months of life.
...
PMID:Disorders of pyruvate carboxylase and the pyruvate dehydrogenase complex. 888 69
The pyruvate dehydrogenase complex (PDC) is integral to metabolism and energetics. Congenital PDC deficiency leads to lactic acidosis, neurological degeneration and early death. An investigational compound for such defects is dichloroacetate (DCA), which activates the PDC (inhibiting reversible phosphorylation of the E1alpha subunit) and decreases its turnover. Here, primary human fibroblast cultures from five healthy subjects and six patients with mutations in the PDC-E1 component were grown in media+/-DCA, exposed to media containing (13)C-labeled glucose, and studied (as cell extracts) by nuclear magnetic resonance (NMR) spectroscopy. Computer modeling of NMR-derived (13)C-glutamate isotopomeric patterns estimated relative carbon flow through TCA cycle-associated pathways and characterized effects of PDC deficiency on metabolism and energetics. Rates of glucose consumption (GCR) and lactate production (LPR) were measured. With the exception of one patient cell line expressing an unusual splicing mutation, PDC-deficient cells had significantly higher GCR, LPR and label-derived acetyl-CoA, indicative of increased glycolysis vs. controls. In all cells, DCA caused a major shift (40% decrease) from anaplerotic-related pathways (e.g.,
pyruvate carboxylase
) toward flux through PDC. Ignoring the patient with the splicing mutation, DCA decreased average glycolysis (29%) in patient cells, but had no significant effect on control cells, and did not change LPR or the nucleoside triphosphate to diphosphate ratio (NTP/
NDP
) in either cell type. Maintenance of NTP despite reduced glycolysis indicates that DCA improves metabolic efficiency by increasing glucose oxidation. This study demonstrates that NMR spectroscopy provides insight into biochemical consequences of PDC deficiency and the mechanism of putative therapeutic agents.
...
PMID:Magnetic resonance spectroscopic investigation of mitochondrial fuel metabolism and energetics in cultured human fibroblasts: effects of pyruvate dehydrogenase complex deficiency and dichloroacetate. 1676 24
Leigh syndrome (LS), or subacute necrotizing encephalomyelopathy, is the most common childhood mitochondrial encephalopathy, accounting for more than 50% of cases in this age group. Its estimated incidence is 1:40,000 - 1:77,000 liveborn infants a year. LS is a rare progressive multisystem fatal disorder inherited by autosomal recessive,
X-linked
and maternal transmission. Clinical onset is predominantly in the first two years of life (average: six months); 50% of patients die within a year, even though there are later- and even adult-onset forms with a more protracted evolution. LS is due to a deficit of various respiratory chain and Krebs cycle enzymes resulting in insufficient production of adenosine triphosphate (ATP), in particular cytochrome-c-oxidase (COX),
pyruvate carboxylase
, pyruvate dehydrogenase complex and complex I of the respiratory chain, which share an autosomal recessive and
X-linked
mode of transmission. Cases with maternal inheritance (MILS) are due to a mitochondrial DNA (mtDNA) point mutation. LS is clinically heterogeneous in relation to the severity of the metabolic dysfunction and is characterized by muscle involvement and especially CNS disorders, particularly psychomotor retardation, ocular symptoms, hypotonia and pyramidal signs. Death is most commonly due to respiratory failure, status epilepticus and sudden coma. The major neuropathological findings, first described by Leigh in 1951, are symmetrical foci of spongy necrosis associated with vessel proliferation and reactive gliosis in basal nuclei, brainstem and thalamus grey matter. The neuronal metabolic alteration can also affect the white matter, resulting in delayed myelination or hypomyelination. The diagnosis rests on clinical signs, elevated CSF lactate, pyruvate and alanine, and biochemical and neuroradiological data. We describe two patients with LS studied with morphological MR associated with diffusion and spectroscopy techniques to assess the diagnostic potential of standard MR imaging and establish whether the association of functional MR methods can improve its diagnostic accuracy. A case of LS with a post-mortem MR study is also described. Three patients with a diagnosis of LS based on clinical, CSF and laboratory data were studied on a GE SIGNA EXCITE 1.5 T unit using an eight-channel phased-array head coil to acquire standard sequences (SE T1; TSE DP T2; FLAIR) and echo-planar diffusion-weighted sequences (DWI; b= 1000 s/mm2) with calculation of ADC maps. The spectroscopic study used single-voxel (TE/TR ms = 144/1500) and multi-voxel techniques (TE/TR ms = 144/1000) at the level of the basal nuclei. Bilateral and symmetrical involvement of basal nuclei grey matter with T2 hyperintensity was a consistent finding in the morphological MR study. In one patient, associated white matter involvement with T2 hyperintensity in periventricular and retrotrigonal areas reflected delayed myelination or hypomyelination. The deep grey matter changes, sometimes associated with white matter lesions, suggested a diagnosis of subacute necrotizing encephalomyelopathy, in line with the literature. Acute-phase ADC values in affected areas were lower than those of normal grey and white matter and displayed signal hyperintensity on DWI. Reduced ADC values are associated with restricted water diffusivity typical of cytotoxic edema. Spectroscopy showed a high lactate peak, reflecting altered anaerobic glycolysis, and a reduced NAA peak in affected areas, which are however non-specific findings. The most informative study in these patients is standard MR associated with functional techniques, which can confirm the diagnosis obtained with morphological imaging.
...
PMID:Leigh Syndrome: an MR Study of Three Cases. 2429 89
