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Literature DB >> 6434846

Animal models for dicarboxylic aciduria.

Abstract

Four compounds, 2[5(4-chlorophenyl)pentyl] oxirane-2-carboxylate (POCA), pent-4-enoate, hypoglycin and valproate, which are hypoglycaemic in fasted animals and form unusual acyl-CoA esters in vivo, inhibit mitochondrial beta-oxidation by different mechanisms. POCA, hypoglycin and valproate are known to cause dicarboxylic aciduria. Saturated dicarboxylic acids are thought to be derived from long chain fatty acids by peroxisomal beta-oxidation when mitochondrial beta-oxidation is severely impaired. The use of these inhibitors provides animal models of dicarboxylic aciduria found in some inborn errors of metabolism.

Entities: Chemical Disease

Mesh：

Substances：

Year: 1984 PMID： 6434846 DOI： 10.1007/bf03047375

Source DB: PubMed Journal: J Inherit Metab Dis ISSN： 0141-8955 Impact factor: 4.982

17 in total

1. On the mechanisms of some pharmacological actions of the hypoglycaemic toxins hypoglycin and pent-4-enoic acid. A way out of the present confusion.

Authors: H Stanley; A Sherratt; H Osmundsen
Journal: Biochem Pharmacol Date: 1976-04-01 Impact factor: 5.858

2. In vitro studies on the metabolism of hexadecanedioic acid and its mono-L-carnitine ester.

Authors: J E Pettersen
Journal: Biochim Biophys Acta Date: 1973-04-13

3. The occurrence of C6--C10-dicarboxylic acids in urine from patients and rats treated with dipropylacetate.

Authors: P B Mortensen; N Gregersen; S Kølvraa; E Christensen
Journal: Biochem Med Date: 1980-10

4. Inhibition of linoleic acid degradation by hypoglycin A.

Authors: W H Kunau; F Lauterbach
Journal: FEBS Lett Date: 1978-10-01 Impact factor: 4.124

5. Mechanisms of the metabolic disturbances caused by hypoglycin and by pent-4-enoic acid. In vitro studies.

Authors: D Billington; H Osmundsen; H S Sherratt
Journal: Biochem Pharmacol Date: 1978 Impact factor: 5.858

6. The syndrome of systemic carnitine deficiency. Clinical, morphologic, biochemical, and pathophysiologic features.

Authors: G Karpati; S Carpenter; A G Engel; G Watters; J Allen; S Rothman; G Klassen; O A Mamer
Journal: Neurology Date: 1975-01 Impact factor: 9.910

7. The effects of valproate on intermediary metabolism in isolated rat hepatocytes and intact rats.

Authors: D M Turnbull; A J Bone; K Bartlett; P P Koundakjian; H S Sherratt
Journal: Biochem Pharmacol Date: 1983-06-15 Impact factor: 5.858

8. Cyanide-insensitive and clofibrate enhanced beta-oxidation of dodecanedioic acid in rat liver. An indication of peroxisomal beta-oxidation of N-dicarboxylic acids.

Authors: P B Mortensen; S Kølvraa; N Gregersen; K Rasmussen
Journal: Biochim Biophys Acta Date: 1982-11-12

9. Riboflavin deficiency and beta-oxidation systems in rat liver.

Authors: T Sakurai; S Miyazawa; S Furuta; T Hashimoto
Journal: Lipids Date: 1982-09 Impact factor: 1.880

10. On the mode of action of hypoglycin A. 3. Isolation and identification of cis-4-decene-1,10-dioic, cis, cis-4,7-decadiene-1,10-dioic, cis-4-octene-1,8-dioic, glutaric, and adipic acids, N-(methylenecyclopropyl)acetylglycine, and N-isovalerylglycine from urine of hypoglycin A-treated rats.

Authors: K Tanaka
Journal: J Biol Chem Date: 1972-12-10 Impact factor: 5.157

5 in total

Animal models for dicarboxylic aciduria.

1. On the mechanisms of some pharmacological actions of the hypoglycaemic toxins hypoglycin and pent-4-enoic acid. A way out of the present confusion.

2. In vitro studies on the metabolism of hexadecanedioic acid and its mono-L-carnitine ester.

3. The occurrence of C6--C10-dicarboxylic acids in urine from patients and rats treated with dipropylacetate.

4. Inhibition of linoleic acid degradation by hypoglycin A.

5. Mechanisms of the metabolic disturbances caused by hypoglycin and by pent-4-enoic acid. In vitro studies.

6. The syndrome of systemic carnitine deficiency. Clinical, morphologic, biochemical, and pathophysiologic features.

7. The effects of valproate on intermediary metabolism in isolated rat hepatocytes and intact rats.

8. Cyanide-insensitive and clofibrate enhanced beta-oxidation of dodecanedioic acid in rat liver. An indication of peroxisomal beta-oxidation of N-dicarboxylic acids.

9. Riboflavin deficiency and beta-oxidation systems in rat liver.

10. On the mode of action of hypoglycin A. 3. Isolation and identification of cis-4-decene-1,10-dioic, cis, cis-4,7-decadiene-1,10-dioic, cis-4-octene-1,8-dioic, glutaric, and adipic acids, N-(methylenecyclopropyl)acetylglycine, and N-isovalerylglycine from urine of hypoglycin A-treated rats.

Review 1. Biochemical relationships between Reye's and Reye's-like metabolic and toxicological syndromes.

2. Defects of metabolism of fatty acids in the sudden infant death syndrome.

3. Organic aciduria in rats made resistant to hypoglycin toxicity by pretreatment with clofibrate.

Review 4. The biochemical basis of mitochondrial diseases.

5. Branched chain amino acids are associated with muscle mass in functionally limited older adults.