Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
 8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Abnormalities in specific mitochondrial respiratory enzymes and DNA (mtDNA) have been reported in cardiomyopathy. In this study, we report 4 cases of severe hypertrophic cardiomyopathy (HCM) in which specific cardiac mitochondrial enzyme activity defects were found, including complex I (n = 2), complex III (n = 2), complex IV (n = 2) and complex V (n = 1). Other abnormalities were also noted including a marked depletion of mtDNA (n = 1) and decreased content of subunit 2 of cytochrome c oxidase (n = 1). None of the mtDNA point mutations and common deletions previously found in association with cardiomyopathy were detected in these patients. These data indicate that specific respiratory enzyme activity defects are frequently present in HCM. Also, our finding of a marked depletion of mtDNA in 1 patient suggests that cardiac mtDNA depletion, previously unreported in HCM, needs further examination in order to establish whether it plays a primary role in its pathogenesis.
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PMID:Cardiac mitochondrial dysfunction and DNA depletion in children with hypertrophic cardiomyopathy. 932 62

Copper is an essential trace element and has profound influence on cardiac myopathy and heart metabolism. Dietary Cu restriction in rats results in cardiomyopathy, and affects the integrity of the basal lamina of cardiac myocytes and capillaries. Decreased levels of delta subunits of ATP synthetase and nuclear encoded subunits of cytochrome oxidase system have been observed. Alteration in expression of glutathione peroxidase and catalase in heart and liver in Cu deficiency (Cu-) has been noted involving both transcriptional and post transcriptional mechanisms. A short description of two genetically inherited disorders of Cu metabolism, i.e. Wilson's disease and Menkes' disease, and Indian childhood cirrhosis (environmental and/or genetic) have been included to illustrate that advances in the knowledge of Cu cellular transport gives a better understanding of the molecular basis of the pathophysiology of these diseases. Menkes' disease, a human model of defective Cu transport and Cu- has shown many pathological changes, similar to those of heart disease in Cu-. The recent cloning of four genes of putative Cu pumping ATPases (Cu-ATPases) from widely different sources, i.e. two from Enterococcus hirae and one each from Wilson's and Menkes disease patients (which are defective in Cu transport and metabolism), has opened a new chapter in the study of Cu cellular transport and metabolism. The encoded gene products, i.e. Cu-ATPases, show extensive homology and are members of a new class of ATP-driven Cu pumps involved in regulation of cellular Cu. Further, Cu transport by Cop B-ATPase (E. hirae) in membrane vesicles and in isolated rat liver plasma membrane has provided biochemical evidence of its role in ATP-driven Cu transport. In this short review I have critically examined the current evidence of the molecular basis of the pathophysiology of cardiomyopathy in Cu- and, have indicated the possible role of P-type Cu ATPase which may be one of the obligatory factors contributing to cardiomyopathy in experimental animals and probably humans. Experimental verification of this hypothesis will be the aim of future studies.
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PMID:Copper deficiency and heart disease: molecular basis, recent advances and current concepts. 945 22

By studying a large series of 157 patients, we found that complex I (33%), complex IV (28%), and complex I+IV (28%) deficiencies were the most common causes of respiratory chain (RC) defects in childhood. Truncal hypotonia (36%), antenatal (20%) and postnatal (31%) growth retardation, cardiomyopathy (24%), encephalopathy (20%), and liver failure (20%) were the main clinical features in our series. No correlation between the type of RC defect and the clinical presentation was noted, but complex I and complex I+IV deficiencies were significantly more frequent in cases of cardiomyopathy (P<.01) and hepatic failure (P<.05), respectively. The sex ratio (male/female) in our entire series was mostly balanced but was skewed toward males being affected with complex I deficiency (sex ratio R=1.68). Interestingly, a high rate of parental consanguinity was observed in complex IV (20%) and complex I+IV (28%) deficiencies. When parental consanguinity was related to geographic origin, an even higher rate of inbreeding was observed in North African families (76%, P<.01). This study gives strong support to the view that an autosomal recessive mode of inheritance is involved in most cases of mitochondrial disorders in childhood, a feature that is particularly relevant to genetic counseling for this devastating condition.
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PMID:A high rate (20%-30%) of parental consanguinity in cytochrome-oxidase deficiency. 968 89

The short-term cardiac side effects of 2',3'-dideoxycytidine (ddC, zalcitabine) were studied in rats in order to understand the biochemical events contributing to the development of ddC-induced cardiomyopathy. In developing animals, ddC treatment provoked a surprisingly rapid appearance of cardiac malfunctions characterized by prolonged RR, PR, and QT intervals and J point depression. The energy metabolism in the heart was compromised, characterized by a decreased creatine phosphate/creatine ratio (from 2.05 normal value to 0.75) and a decreased free ATP/ADP ratio (from 332 normal value to 121). The activity of respiratory complexes (NADH: cytochrome c oxidoreductase and cytochrome oxidase) also decreased significantly. Southern blot and polymerase chain reaction analysis did not show deletions or a decrease in the quantity of mitochondrial DNA (mtDNA) deriving from ddC-treated rat hearts, indicating that under our experimental conditions, ddC-induced heart abnormalities were not the direct consequence of mtDNA-related damage. The ddC treatment of rats significantly increased the formation of reactive oxygen species (ROS) in heart and skeletal muscle as determined by the oxidation of non-fluorescent dihydrorhodamine123 to fluorescent rhodamine123 and the oxidation of cellular proteins determined from protein carbonyl content. An activation of the nuclear poly-(ADP-ribose) polymerase (EC 2.4.2.30) and an increase in the mono-ADP-ribosylation of glucose-regulated protein and desmin were observed in the cardiac tissue from ddC-treated animals. A decrease in the quantity of heat shock protein (HSP)70s was also detected, while the level of HSP25 and HSP60 remained unchanged. Surprisingly, ddC treatment induced a skeletal muscle-specific decrease in the quantity of three proteins, one of which was identified by N-terminal sequencing as myoglobin, and another by tandem mass spectrometer sequencing as triosephosphate isomerase (EC 5.3.1.1). These data show that the short term cardiotoxicity of ddC is partially based on ROS-mediated signalling through poly- and mono-ADP-ribosylation reactions and depression of HSP70 levels, whose processes represent a new mtDNA independent mechanism for ddC-induced cell damage.
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PMID:Molecular mechanism of the short-term cardiotoxicity caused by 2',3'-dideoxycytidine (ddC): modulation of reactive oxygen species levels and ADP-ribosylation reactions. 1059 Nov 46

The human cytochrome oxidase complex is a multisubunit assembly in the inner mitochondrial membrane responsible for the terminal event in electron transport in which molecular oxygen is reduced. Various phenotypic forms of cytochrome oxidase deficiency have been recognized, the major varieties involving degeneration of the brain stem and basal ganglia (Leigh syndrome) and lactic acidemia. Others include a fatal infantile form, a benign reversible form, and forms with cardiomyopathy. Early recognition of complementation groups within, for instance, the Leigh syndrome group has recently been followed up with a description of the gene defect for three of the nuclear-encoded forms of cytochrome c oxidase (COX) deficiency. The three genes indicted, SURF1 for Leigh syndrome, COX 10 for leukodystrophy and tubulopathy, and SCO2 for the cardiomyopathic form, all have a role in the assembly of the mature cytochrome oxidase complex. The description of these gene defects and the role these genes play are discussed in terms of what can be learned about COX assembly and about the etiology of the different phenotypic forms of the disease.
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PMID:Human cytochrome oxidase deficiency. 1104 74

In the last decade, mitochondrial diseases were shown not to be rare but to represent an important group of metabolic disorders. Defects are caused by mutations either located in nuclear genes or in mitochondrial genes. Nuclear gene defects are found in complex IV deficient and complex I deficient patients. Deficiencies of complex II are extremely rare. Different phenotypes are associated with complex IV deficiency, including a neonatal form, cardio-encephalomyopathy in young infants, Leigh syndrome, and pure myopathy. Mutations can be found in the complex IV assembly genes, such as the SURF-1 gene and the SCO2 gene. Different phenotypes are also found in complex I deficient patients and include a neonatal form, Leigh syndrome, pure myopathy, pure cardiomyopathy or multiple-system involvement. In some disorders, the mitochondrial DNA abnormalities are caused by a nuclear gene defect (Alpers-Huttenlocher syndrome, autosomal dominant multiple mitochondrial DNA deletion syndrome, and MNGIE syndrome). Since 1988, more then 70 different mutations were reported in the mitochondrial DNA. Some point mutations are associated with a specific phenotype, others have a wide range of clinical symptoms. We expect that many more mitochondrial DNA mutations will be identified in the future. The number of mutations in nuclear genes will also increase, especially since progress has been made in techniques used for identification of nuclear genes (microcell transfer).
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PMID:Mitochondrial cytopathies and neuromuscular disorders. 1109 88

Fatal infantile mitochondrial cytopathy associated with a C3303T mutation in the mitochondrial tRNA(Leu(UuR)) gene has been reported clinically, biochemically and genetically. Here we have analyzed the percentage of this mutation in various autopsied tissues, and also in single muscle fibers using a micromanupulator, to evaluate the correlation between the pathology and heteroplasmic condition using polymerase chain reaction/restriction fragment length polymorphism. A 5-month-old Japanese girl was admitted to our hospital showing generalized muscle weakness, hepatomegaly, and cardiomegaly with lactic acidosis, and died at 6 months of age. Skeletal muscle showed severe degenerating myopathy found to be full of ragged-red fibers (RRFs), an increased number of lipid droplets, and severe cytochrome c oxidase (COX) deficiency. Microscopically hepatocytes showed massive accumulation in lipid droplets, and the heart muscle showed a network pattern suggesting metabolic cardiomyopathy. The activities of respiratory chain enzyme complex I and complex IV in the skeletal muscle were significantly decreased to 23.4% and 5.0%, respectively, of the control value. The percentage of C3303T mutation in the patient tissues were variable, and ranged from 25% in the pancreas to 99% in the spinal cord. By single fiber analysis, the percentages of C3303T mutation in RRFs with COX negative (group 1; 42.4+/-7.0) and with COX positive (group 2; 58.2+/-5.8) were significantly higher than in non RRFs with normal COX staining (group 3; 10.7+/-6.3) (both P>0.001). Our patient showed a fatal infantile form of encephalopathy, myopathy and cardiomyopathy associated with widely distributed C3303T mutation in all of somatic cells.
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PMID:Inter- and/or intra-organ distribution of mitochondrial C3303T or A3243G mutation in mitochondrial cytopathy. 1127 74

The protean manifestations of a novel maternally inherited point mutation of the mitochondrial genome are reported. The proband showed isolated, spastic paraparesis. A brother, who had suffered from a multisystem progressive disorder, ultimately died of cardiomyopathy. Another brother is healthy. The proband's mother showed truncal ataxia, dysarthria, severe hearing loss, mental regression, ptosis, ophthalmoparesis, distal cyclones, and diabetes mellitus. A muscle biopsy performed in the proband failed to show the morphological abnormalities typical of mitochondrial disorders; the activities of respiratory chain complexes were normal. However, complex I and IV activities were low in the muscle homogenate of the affected mother and brother. Sequence analysis of mtDNA showed a heteroplasmic mutation of the tRNA(Ile) gene (G4284A). The mutation load was approximately 55%, 80%, and 90% in the muscle mtDNA of the proband, his mother, and his affected brother, respectively. Mutation was undetected in the healthy brother, as well as in 100 control samples. Several cybrid clones containing homoplasmic mutant mtDNA from the proband showed significant reductions of complex IV activity and maximum oxygen consumption rate, compared with homoplasmic wild-type clones derived from the same subject.
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PMID:Novel heteroplasmic mtDNA mutation in a family with heterogeneous clinical presentations. 1178 91

We report an infant with intermittent urinary excretion of D-2-hydroxyglutaric (D-2-OHG) acid who died at the age of 10 months from cardiogenic shock due to cardiomyopathy. High urinary concentrations of D-2-OHG and succinic acid, as well as increased levels of lactic acid were detected on three different occasions, whereas a normal urinary profile of organic acids was found on one occasion. The clinical findings of our patient consisted of generalized hypotonia, irritability, developmental delay, generalized tonic seizures, lethargy, cardiomyopathy, and respiratory distress. Cerebral MRI revealed bilateral lesions in the substantia nigra, the periaqueductal area, the medial part of the thalamus, the hypothalamus, the caudate nucleus, putamen and globus pallidus. This pattern is suggestive of a mitochondriopathy. However, respiratory chain enzyme activities were normal in fibroblasts. Exogenous supplementation of D-2-OHG acid strongly inhibited cytochrome-c oxidase activity in fibroblasts from the patient and from normal controls in vitro. The results suggest that our patient has an unusual form of D-2-hydroxyglutaric aciduria (D-2-OHGA), different from the patients published so far, and that the increase of lactic acid and some citric acid cycle intermediates encountered in some patients with D-2-OHGA may be due to a functional defect of the respiratory chain caused by D-2-OHG acid.
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PMID:D-2-Hydroxyglutaric aciduria in a patient with a severe clinical phenotype and unusual MRI findings. 1199 77

Introduction of the constitutively active calcineurin gene into neonatal rat cardiomyocytes by adenovirus resulted in decreased mitochondrial membrane potential (P < 0.05). Infection of H9c2 cells with calcineurin adenovirus resulted in increased superoxide production (P < 0.001). Transgenic mice with cardiac-specific expression of a constitutively active calcineurin cDNA (CalTG mice) exhibit a two- to threefold increase in heart size that progresses to heart failure. We prepared mitochondria enriched for the subsarcolemmal population from the hearts of CalTG mice and transgene negative littermates (control). Intact, well-coupled mitochondria prepared from one to two mouse hearts at a time yielded sufficient material for functional studies. Mitochondrial oxygen consumption was measured with a Clark-type oxygen electrode with substrates for mitochondrial complex II (succinate) and complex IV [tetramethylpentadecane (TMPD)/ascorbate]. CalTG mice exhibited a maximal rate of electron transfer in heart mitochondria that was reduced by approximately 50% (P < 0.002) without a loss of respiratory control. Mitochondrial respiration was unaffected in tropomodulin-overexpressing transgenic mice, another model of cardiomyopathy. Western blotting for mitochondrial electron transfer subunits from mitochondria of CalTG mice revealed a 20-30% reduction in subunit 3 of complex I (ND3) and subunits I and IV of cytochrome oxidase (CO-I, CO-IV) when normalized to total mitochondrial protein or to the adenine nucleotide transporter (ANT) and compared with littermate controls (P < 0.002). Impaired mitochondrial electron transport was associated with high levels of superoxide production in the CalTG mice. Taken together, these data indicate that calcineurin signaling affects mitochondrial energetics and superoxide production. The excessive production of superoxide may contribute to the development of cardiac failure.
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PMID:Calcineurin transgenic mice have mitochondrial dysfunction and elevated superoxide production. 1239 29


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