EC:2.3.1.21 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.21 (CPT)
4,580 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tissues of fasted animals treated with L-aminocarnitine (L-3-amino-4-trimethylaminobutyrate) showed an accumulation of long-chain acylcarnitines and triacylglycerols. Blood levels of free fatty acids, long-chain acylcarnitines and triacylglycerol-rich lipoproteins were found to be increased, whereas glucose was reduced. The liver mitochondria isolated from rats treated with L-aminocarnitine utilized both pyruvate and succinate normally, but were not able to oxidize palmitoylcarnitine. In vitro oxidation of palmitoylcarnitine by liver mitochondria was inhibited by L-aminocarnitine in a concentration-dependent fashion in contrast to succinate and pyruvate oxidation which was not modified. L-aminocarnitine proved to be a potent and selective inhibitor (IC50 = 805 nM) of the carnitine palmitoyltransferase isoenzyme, located on the inner side of the mitochondrial inner membrane (CPT2). The activity of the carnitine palmitoyltransferase isoenzyme located on the mitochondrial outer membrane inhibitable by malonyl-CoA (IC50 = 19 microM), was not inhibited by 0.8 microM L-aminocarnitine. Both in vitro and in vivo effects of L-aminocarnitine suggest that the substance has a specific and potent inhibitory action on CPT2. Its in vivo inhibition results in a dramatic increase of long-chain acylcarnitines in various organs, that it is why this increase can be considered a very good marker of CPT2 inhibition. A markedly altered lipid metabolism was observed.
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PMID:Tissue lipid accumulation by L-aminocarnitine, an inhibitor of carnitine-palmitoyltransferase-2. Studies in intact rats and isolated mitochondria. 162 37

Sodium cholate was used as an anionic detergent to discriminate the two components of liver overt carnitine palmitoyltransferase (CPT1); namely a catalytic entity and a regulatory component that bound malonyl-CoA. Cholate solubilized approx. 40% of the malonyl-CoA binding entity from mitochondrial outer membranes without appreciable solubilization of CPT1 activity. Cholate did not interfere with binding of [14C]malonyl-CoA to outer membranes or to crude total mitochondrial membrane fractions. By contrast, the non-ionic detergent Tween-20 was ineffective in solubilizing the malonyl-CoA binding entity and also substantially interfered with the binding of [14C]malonyl-CoA. Both detergents appeared to cause total disengagement of the malonyl-CoA binding entity from the catalytic entity of CPT1 only when some inner membrane material was present. 'Reconstitution' experiments were performed in which a malonyl-CoA sensitivity conferring factor in cholate extracts from outer membranes was associated with CPT derived from inner membranes (CPT2). The IC50 for inhibition of CPT2 by malonyl-CoA in this artificial system was similar to that observed with CPT1 in situ in outer membranes. Extracts containing malonyl-CoA sensitivity conferring factor derived from outer membranes of fed or 48 h fasted rats were associated with CPT2 derived from fed rats. The outer membrane extracts from fasted animals conferred a lower maximum responsiveness to malonyl-CoA, but appeared to have a higher affinity for CPT2 than the extracts from fed rats. These results suggest that physiological state can alter the intrinsic properties of the malonyl-CoA sensitivity confering factor.
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PMID:Cholate separates the catalytic and malonyl-CoA-binding components of carnitine palmitoyltransferase from liver outer mitochondrial membranes. 203 50

1. Confirming previous work [Murthy & Pande (1987) Proc. Natl. Acad. Sci. U.S.A. 84, 378-382], malonyl-CoA-inhibitable carnitine palmitoyltransferase (CPT1) from rat liver was found to be localized in outer rather than in inner mitochondrial membranes. 2. Antisera were raised against a liver mitochondrial CPT of Mr 68,000, which was presumed to be the latent from of the enzyme (CPT2). These antisera cross-reacted with solubilized CPT extracted from liver inner mitochondrial membranes and with polypeptides of Mr 68,000 and 60,000 in immunoblots of both inner and outer mitochondrial membranes. The antisera also precipitated CPT activity from detergent-treated total membrane and outer-membrane preparations. 3. The antisera did not precipitate [14C]malonyl-CoA binding material obtained either from total membranes or from outer membranes. 4. It was concluded that liver CPT1 and CPT2 have some epitopes in common and may have a similar subunit size. In addition, CPT1 and the entity that binds malonyl-CoA must be separated polypeptides.
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PMID:The relationship of rat liver overt carnitine palmitoyltransferase to the mitochondrial malonyl-CoA binding entity and to the latent palmitoyltransferase. 224 11

Human carnitine palmitoyltransferase (CPT) deficiency results in 2 clinical forms: a more common "muscular form" with myoglobinuria with or without delayed or impaired ketogenesis and a rare "hepatic form" with hypoketotic hypoglycemia, encephalopathy and seizures without muscular manifestations. We present 2 patients, a male (patient 1) and a female (patient 2) with infantile "hepatic" CPT deficiency and previously documented CPT1 deficiency in fibroblasts. In patient 2, a deficiency of "total" CPT activity in liver had also been previously documented. We set up an isotope exchange assay system that effectively differentiated CPT1 and CPT2 activities in muscle. We found normal CPT1 and CPT2 activities in our patients under near saturating substrate conditions. The CPT1 and CPT2 activities were suppressed to a strikingly similar degree under different kinetic conditions as compared to control muscle and were found to have similar Km values for carnitine and PCoA. With Km concentrations of carnitine, the mean residual activities of CPT1 for patients 1 and 2 were 49 and 44%, respectively (control range 40-53%); the mean residual activities of CPT2 were 60 and 46%, respectively (control range 49-59%). With Km concentrations of PCoA, the mean residual activities of CPT1 for patients 1 and 2 were 52 and 58%, respectively (control range of 52-59%); mean residual activities of CPT2 were 54% and 56%, respectively (control range of 51-68%). When the Vmax concentration of PCoA was doubled and bovine serum albumin reduced to 0.1%, the mean residual activities of CPT1 for patients 1 and 2 were 69 and 63%, respectively (control range 60-80%). In "muscular" patients, a marked absolute deficiency of CPT2 activity (less than 12% residual) was found with an apparent increased sensitivity to suppression of enzymatic activity when the Km concentration of carnitine was used. We suggest that CPT1 and CPT2 may be separate proteins. Furthermore, CPT1 itself may exist as tissue-specific isoforms being the same protein in liver and fibroblasts and a different protein in muscle. Either could be encoded for by the same or closely related genes.
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PMID:Normal muscle CPT1 and CPT2 activities in hepatic presentation patients with CPT1 deficiency in fibroblasts. Tissue specific isoforms of CPT1? 280 20

Human carnitine palmitoyl transferase (CTP) deficiency results in two different clinical variants, one with "hepatic" and one with "muscular" symptoms. We studied CPT activity and long-chain fatty acid oxidation in fibroblast cell lines from four patients, two from each group. Overall CPT activity was deficient in patients' fibroblasts with the hepatic presentation, as previously demonstrated in patients' fibroblasts with the muscular presentation. The hepatic patients' fibroblasts displayed a CPT1 deficiency which resulted in impaired long-chain fatty acid oxidation. In contrast, CPT1 activity and palmitate oxidation were normal in muscular patients' fibroblasts. In these latter patients, the mutation presumably involved CPT2 activity. These data suggest that CPT deficiency is due to at least two different mutations, resulting in two distinct patterns of clinical and biochemical abnormalities.
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PMID:Hepatic and muscular presentations of carnitine palmitoyl transferase deficiency: two distinct entities. 321 16

Carnitine palmitoyltransferase and carnitine octanoyltransferase activities in brain mitochondrial fractions were approx. 3-4-fold lower than activities in liver. Estimated Km values of CPT1 and CPT2 (the overt and latent forms respectively of carnitine palmitoyltransferase) for L-carnitine were 80 microM and 326 microM, respectively, and K0.5 values for palmitoyl-CoA were 18.5 microM and 12 microM respectively. CPT1 activity was strongly inhibited by malonyl-CoA, with I50 values (concn. giving 50% of maximum inhibition) of approx. 1.5 microM. In the absence of other ligands, [2-14C]malonyl-CoA bound to intact brain mitochondria in a manner consistent with the presence of two independent classes of binding sites. Estimated values for KD(1), KD(2), N1 and N2 were 18 nM, 27 microM, 1.3 pmol/mg of protein and 168 pmol/mg of protein respectively. Neither CPT1 activity, nor its sensitivity towards malonyl-CoA, was affected by 72 h starvation. Rates of oxidation of palmitoyl-CoA (in the presence of L-carnitine) or of palmitoylcarnitine by non-synaptic mitochondria were extremely low, indicating that neither CPT1 nor CPT2 was likely to be rate-limiting for beta-oxidation in brain. CPT1 activity relative to mitochondrial protein increased slightly from birth to weaning (20 days) and thereafter decreased by approx. 50%.
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PMID:Carnitine acyltransferase activities in rat brain mitochondria. Bimodal distribution, kinetic constants, regulation by malonyl-CoA and developmental pattern. 397 77

Mitochondria were isolated from liver, heart and skeletal muscle of a 34-day-old female infant who died from a myopathic illness. Muscle biopsy showed lipid accumulation and no obvious pathology in any other organ. Enzymatic analysis of skeletal muscle extracts revealed normal activities of the markers pyruvate dehydrogenase and citrate synthase. Malonyl-CoA-sensitive carnitine palmitoyltransferase (CPT1) was detected but malonyl-CoA-insensitive carnitine palmitoyltransferase (CPT2) appeared to be absent. Quantitative immunoblotting revealed the presence of a normal abundance of CPT2 protein in the patient's muscle. It is concluded that enzymically inactive CPT2 protein was present.
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PMID:Neonatal carnitine palmitoyltransferase-2 deficiency: a case presenting with myopathy. 776 92

The most common form of carnitine palmitoyltransferase II (CPT II) deficiency occurs in adults and is characterized by muscle pain, stiffness, and myoglobinuria, triggered by exercise, fasting, or other metabolic stress. This study reports the molecular heterogeneity of CPT2 mutations and their biochemical consequences among a series of 59 individuals who were suspected of having CPT II deficiency based on the decreased CPT activity observed in muscle or leukocytes samples, clinical findings, or referral for mutation analysis from other laboratories. Only 19 subjects were considered to be at particularly high risk of CPT II deficiency based on review of their clinical symptoms and residual CPT activity. The samples were initially screened for 11 mutations with allele-specific oligonucleotides (ASO). Extensive sequence analysis was subsequently performed on 14 samples which either had a CPT2 mutation detected by ASO screening or the residual CPT activity was below that observed in ASO positive samples. Three known (P50H, S113L, and F448L) and three novel mutations were identified among 13 individuals in this study. A single nucleotide polymorphism was also identified 11 bp distal to the CPT2 polyadenylation site that will be useful for linkage analysis. Two of the new mutations were single nucleotide missense mutations, R503C and G549D, that occurred in highly conserved regions of the CPT isoforms, and the third was a frameshift mutation, 413 delAG, caused by a 2-bp deletion upstream of a previously identified missense mutation, F448L. The 413 delAG mutation was the second most common mutation identified in our study (20% of mutant alleles) and all individuals with the mutation were of Ashkenazi Jewish ancestry suggesting a defined ethnic origin for the mutation. Despite rigorous mutation analysis, six of 13 individuals identified with CPT2 mutations remained as heterozygotes. We propose that heterozygosity for certain CPT2 mutations, S113L and R503C, is sufficient to render individuals at risk of clinical symptoms.
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PMID:Novel mutations associated with carnitine palmitoyltransferase II deficiency. 1009 Apr 76

Carnitine palmitoyltransferase II (CPT II) deficiency is the most common lipid myopathy in adults and is characterized by exercise-induced pain, stiffness, and myoglobinuria. Retrospective analysis of patients with CPT II deficiency has made it possible to correlate the presence of disease-causing mutations in the CPT2 gene with residual CPT activity in muscle. We present evidence that the ratio of CPT II activity to citrate synthase activity in the skeletal muscle of patients presumed to have CPT II deficiency is important for predicting whether the patient has one, two, or no mutations in the CPT2 gene. This finding will assist in the future correlation of the phenotype with the genotype and in identifying manifesting heterozygotes.
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PMID:Biochemical and molecular correlations in carnitine palmitoyltransferase II deficiency. 1039 18

Adult-onset carnitine palmitoyltransferase II (CPT II) deficiency is an autosomal recessive disease characterized by muscle pain and stiffness with rhabdomyolysis and myoglobinuria in severe cases. Exercise, fasting, viral infection, anesthesia, or extremes in temperature may trigger symptoms. A 54-year-old woman exhibited a 35-year history of progressive weakness and myopathic symptoms. CPT II activity in the patient's lymphoblasts, cultured skin fibroblasts, and skeletal muscle was reduced to 47, 43, and 13% of normal, respectively. Respiratory chain enzymes were also reduced in muscle ranging from 22 to 49% of their respective normal reference means. beta-oxidation enzymes in fibroblasts ranged from 29 to 63% of normal. The patient, her father, and her 26-year-old son were all heterozygous for the R503C mutation. The patient's son has a lifelong history of myopathic symptoms while his grandfather only had mild weakness during childhood. Analysis of the V368I and M647V polymorphisms in the CPT2 gene showed that the mutant allele is linked to 368I and 647M in this family and that the normal allele is linked to 647V in the affected patient and her son, and to 647M in the patient's father. While the variability in CPT2 gene haplotypes may contribute to the phenotypic complexities in this family, it is also possible that an additional gene defect in the transport of mitochondrial proteins contributes to the complex phenotype in the patient. We present biochemical and molecular evidence for vertical transmission of a variable myopathy caused by heterozygosity for a single mutation, R503C, in the CPT2 gene.
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PMID:A variable myopathy associated with heterozygosity for the R503C mutation in the carnitine palmitoyltransferase II gene. 1087 95

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