Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.14 (ATP synthase)
 7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report two male Taiwanese siblings in whom the T-->C point mutation at nucleotide 9176 of the mitochondrial ATPase 6 gene (m.9176T>C mutation) was associated with early onset hypotonia, lactic acidosis, and death due to respiratory arrest at 7 and 10 months old. Brain MRI showed lesions over diffuse white matter and the bilateral posterior limbs of the internal capsule. The m.9176T>C mutation is suggested as the cause of the bilateral striatal necrosis and Leigh syndrome. However, leukodystrophy in Leigh syndrome associated with m.9176T>C mutation has never been reported before. We suggest that m.9176T>C mutation could be a new aetiology for leukodystrophy in children with Leigh syndrome.
 ...
PMID:A previously undescribed leukodystrophy in Leigh syndrome associated with T9176C mutation of the mitochondrial ATPase 6 gene. 1720 80

Elevated levels of cardiac mitochondrial uncoupling protein 3 (UCP3) and decreased cardiac efficiency (hydraulic power/oxygen consumption) with abnormal cardiac function occur in obese, diabetic mice. To determine whether cardiac mitochondrial uncoupling occurs in non-genetic obesity, we fed rats a high fat diet (55% kcal from fat) or standard laboratory chow (7% kcal from fat) for 3 weeks, after which we measured cardiac function in vivo using cine MRI, efficiency in isolated working hearts and respiration rates and ADP/O ratios in isolated interfibrillar mitochondria; also, measured were medium chain acyl-CoA dehydrogenase (MCAD) and citrate synthase activities plus uncoupling protein 3 (UCP3), mitochondrial thioesterase 1 (MTE-1), adenine nucleotide translocase (ANT) and ATP synthase protein levels. We found that in vivo cardiac function was the same for all rats, yet oxygen consumption was 19% higher in high fat-fed rat hearts, therefore, efficiency was 21% lower than in controls. We found that mitochondrial fatty acid oxidation rates were 25% higher, and MCAD activity was 23% higher, in hearts from rats fed the high fat diet when compared with controls. Mitochondria from high fat-fed rat hearts had lower ADP/O ratios than controls, indicating increased respiratory uncoupling, which was ameliorated by GDP, a UCP3 inhibitor. Mitochondrial UCP3 and MTE-1 levels were both increased by 20% in high fat-fed rat hearts when compared with controls, with no significant change in ATP synthase or ANT levels, or citrate synthase activity. We conclude that increased cardiac oxygen utilisation, and thereby decreased cardiac efficiency, occurs in non-genetic obesity, which is associated with increased mitochondrial uncoupling due to elevated UCP3 and MTE-1 levels.
 ...
PMID:A high fat diet increases mitochondrial fatty acid oxidation and uncoupling to decrease efficiency in rat heart. 2131 95

We report the second known family with a very rare, maternally inherited missense m.8851T>C mutation in the mitochondrial MTATP6 gene. A failure to thrive, microcephaly, psychomotor retardation and hypotonia were present in a 3-year-old girl with a high mtDNA mutation load (87-97%). Ataxia and Leigh syndrome were subsequently documented in a neurological examination and brain MRI. A muscle biopsy demonstrated decreased ATP synthase and an accumulation of succinate dehydrogenase products, indicating mitochondrial myopathy. Her 36-year-old mother (68% blood heteroplasmy) developed peripheral neuropathy and muscle weakness at the age of 22 years. Our findings extend the clinical and laboratory phenotype associated with the m.8851T>C mutation.
 ...
PMID:Different laboratory and muscle biopsy findings in a family with an m.8851T>C mutation in the mitochondrial MTATP6 gene. 2320 2

Mitochondrial diseases, ~15% of cases, are because of mitochondrial DNA mutations. This study reported a case of an 11-month-old male infant with mitochondrial disease characteristics and subclinical hypothyroidism (a high thyrotropin level). Laboratory tests were all normal and the enzymatic activities of mitochondrial respiratory chain enzyme complexes I-IV were normal. However, thyroid tests showed abnormal results, and complex V showed a deficiency activity of 52.8% of the low limit of healthy individuals (normal activity is >60.7%). The patient experienced convulsions, and the 24-h ambulatory electroencephalography results showed abnormalities, but the electromyography results were normal. Axial brain MRI showed abnormal dysplasia over the white matter myelination in the bilateral horn of the lateral ventricle. Furthermore, DNA sequencing data showed a novel mutation at 8691A>G of the mitochondrial ATPase 6 gene. This case adds to the growing literature of mitochondrial disorders caused by mitochondrial ATPase 6 mutations.
 ...
PMID:Infantile mitochondrial disorder associated with subclinical hypothyroidism is caused by a rare mitochondrial DNA 8691A>G mutation: a case report. 2605 1

Hepatic and renal energy status prior to transplantation correlates with graft survival. However, effects of brain death (BD) on organ-specific energy status are largely unknown. We studied metabolism, perfusion, oxygen consumption, and mitochondrial function in the liver and kidneys following BD. BD was induced in mechanically-ventilated rats, inflating an epidurally-placed Fogarty-catheter, with sham-operated rats as controls. A 9.4T-preclinical MRI system measured hourly oxygen availability (BOLD-related R2*) and perfusion (T1-weighted). After 4 hrs, tissue was collected, mitochondria isolated and assessed with high-resolution respirometry. Quantitative proteomics, qPCR, and biochemistry was performed on stored tissue/plasma. Following BD, the liver increased glycolytic gene expression (Pfk-1) with decreased glycogen stores, while the kidneys increased anaerobic- (Ldha) and decreased gluconeogenic-related gene expression (Pck-1). Hepatic oxygen consumption increased, while renal perfusion decreased. ATP levels dropped in both organs while mitochondrial respiration and complex I/ATP synthase activity were unaffected. In conclusion, the liver responds to increased metabolic demands during BD, enhancing aerobic metabolism with functional mitochondria. The kidneys shift towards anaerobic energy production while renal perfusion decreases. Our findings highlight the need for an organ-specific approach to assess and optimise graft quality prior to transplantation, to optimise hepatic metabolic conditions and improve renal perfusion while supporting cellular detoxification.
 ...
PMID:Organ-specific responses during brain death: increased aerobic metabolism in the liver and anaerobic metabolism with decreased perfusion in the kidneys. 2953 34