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)

The oral hypoglycemic agent, methyl 2-tetradecylglycidate (Me-TDGA), which inhibits in vitro mitochondrial carnitine palmitoyl transferase A (CPT-A) was used to study the relationship of CPT inhibition to changes in ketonemia and glycemia in normal and diabetic rats. After oral administration of Me-TDGA, the CPT activity of isolated rat liver mitochondria was substantially reduced with only the presumed outer enzyme fraction CPT-A released by digitonin treatment showing reduced activity. Mitochondrial fatty acyl-CoA synthetase was not inhibited. Oral doses of 0.1-2.5 mg/kg Me-TDGA produced both a dose-dependent lowering of plasma ketones and an inhibition of liver CPT. With single doses in excess of 2.5 mg/kg, po, heart and skeletal muscle CPT were also consistently inhibited. The effect on the liver enzyme persisted for at least 48 hr following 1 mg/kg, po, while the effect on ketones disappeared by 36 hr. The degree of inhibition of liver CPT produced by Me-TDGA was not altered by diabetes or the dietary state. At low doses (0.05-0.25 mg/kg, po), the most sensitive parameter was inhibition of hepatic CPT. Both plasma ketones and CPT were lowered with doses 10-fold less (0.1 mg/kg) than were required for blood glucose lowering, thus making Me-TDGA the most potent hypoketonemic compound known. In conclusion, inhibition of liver beta-oxidation at the stage of CPT-A by Me-TDGA can explain the potent hypoketonemic effects of this compound in fasted normal and diabetic rats. Higher acute doses are needed for both inhibition of muscle CPT and lowering of blood glucose.
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PMID:Inhibition of mitochondrial carnitine palmitoyl transferase A in vivo with methyl 2-tetradecylglycidate (methyl palmoxirate) and its relationship to ketonemia and glycemia. 396 83

Methyl-2-tetradecylglycidic acid (MeTDGA) has been hypothesized to inhibit fatty acid oxidation by irreversible, active site-directed inactivation of carnitine palmitoyltransferase A after being converted to TDGA-CoA. Using synthetic TDGA-CoA, this hypothesis has been confirmed. Assessing enzyme inhibition in an isolated rat liver mitochondrial system, TDGA-CoA (synthetic or enzyme prepared) was more potent than TDGA or MeTDGA and retained activity in the absence of CoA or Mg2+-ATP. It inhibited palmitoyl-CoA but not palmitoyl carnitine oxidation. Enzyme inactivation was exponential, stereospecific, and fast (t0.5 = 38.5 s with 100 nM (R)-TDGA-CoA). TDGA-CoA was identified as a complexing type irreversible inhibitor (Ki approximately 0.27 microM) by the double reciprocal relationship between the pseudo-first order inactivation rate and its concentration, by the inverse dependence of the second order rate constant on its concentration, and by the independence of the first order rate from the enzyme concentration. Palmitoyl-CoA, CoA, and malonyl-CoA protected the enzyme, while L-carnitine and palmitoyl-L-carnitine were without effect. [3-14C] TDGA-CoA labeled a protein, Mr = 90,000, with a time course which paralleled that of enzyme inhibition; maximum specific binding was 16 pmol/mg of mitochondrial protein.
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PMID:Identification of 2-tetradecylglycidyl coenzyme A as the active form of methyl 2-tetradecylglycidate (methyl palmoxirate) and its characterization as an irreversible, active site-directed inhibitor of carnitine palmitoyltransferase A in isolated rat liver mitochondria. 654 20

To determine whether the oxidation of long-chain fatty acids (LCFA) derived from renal tissue lipids can support renal function, we perfused isolated rat kidneys with a substrate-free Krebs-Ringer bicarbonate solution containing 6 g/100 ml substrate-free (defatted) albumin. We measured GFR, TNa+, and Qo2 at 7-min intervals from 15 to 99 min after cannulation of the renal artery. Two groups (A and B) of 12 perfusions each were done. During substrate-free perfusion mean %TNa+ was low (A = 45 +/- 2%, B = 62 +/- 5%). When 10(-4) M 2-tetradecylglycidic acid (2-TDGA), a specific and irreversible inhibitor of long-chain acylcarnitine transferase-I, was added to the substrate-free perfusate, significant decreases in %TNa+ (A to approximately 25%; B to approximately 35%) and in Qo2 (delta = -25%) occurred. During perfusion with either 5 mM lactate or 5 mM alpha-ketoglutarate (alpha-KG) %TNa+ increased to approximately 80%. When 2-TDGA was added in the presence of lactate or of alpha-KG no decrease in %TNa+ or Qo2 occurred. Thus, 2-TDGA does not inhibit net renal Na+ transport or O2 uptake in the presence of high concentrations of lactate or alpha-KG, substrates not requiring long-chain acylcarnitine transferase for their utilization. We conclude that oxidation of LCFA released from renal tissue lipids can support a significant portion of Na+ reabsorption.
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PMID:Support of kidney function by long-chain fatty acids derived from renal tissue. 682 57

Thiodiglycolic acid has been identified as a major metabolite of the anticancer drug ifosfamide in humans. Patients treated with 12-16 g ifosfamide/m2.day excreted thiodiglycolic acid ranging from 0.10 +/- 0.02 mmol on the first day of therapy, to a maximum of 3.27 +/- 0.15 mmol on the fourth day of ifosfamide infusion. This amounted to 5.4 +/- 0.2% of the administered dose of ifosfamide appearing as thiodiglycolic acid in urine during a 5 days' continuous ifosfamide infusion. Thiodiglycolic acid (50mg/kg) administered to rats inhibited the carnitine-dependent oxidation of [1-14C]palmitic acid by 55%, but affected neither the oxidation of [1-14C]octanoic acid, which is carnitine-independent, nor the oxidation of [1, 4-14C]succinic acid, a marker of Kreb's cycle activity. Additionally, thiodiglycolic acid (30 microM) inhibited oxidation of palmitic acid but not palmitoyl-L-carnitine in isolated rat liver mitochondria, indicating that it either sequesters carnitine or inhibits carnitine palmitoyltransferase I. This study elucidates a specific mitochondrial dysfunction induced by thiodiglycolic acid which may contribute to the adverse effects associated with ifosfamide chemotherapy.
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PMID:Thiodiglycolic acid is excreted by humans receiving ifosfamide and inhibits mitochondrial function in rats. 949 79