PathWhiz

Pathway Description

Valproic Acid Metabolism Pathway

Homo sapiens

Drug Metabolism Pathway

Valproic acid (VPA) is metabolized almost entirely in the liver, via at least there routes: glucuronidation, beta oxidation in the mitochondria, and cytochrome P450 mediated oxidation. The glucuronidation of VPA is mediated by UGT1A3, UGT1A4, UGT1A6, UGT1A8, UGT1A9, UGT1A10, UGT2B7 and UGT2B15. The key CYP-mediated reaction of the VPA metabolic pathway is the generation of 4-ene-VPA by CYP2C9, CYP2A6 and CYP2B6. These three enzymes also catalyze the formation of 4-OH-VPA and 5-OH-VPA. Moreover, CYP2A6 mediates the oxidation of VPA to 3-OH-VPA. Inside the mitochondria, the first step of oxidation is the formation of (VPA-CoA) catalyzed by medium-chain acyl-CoA synthase, followed by the conversion to 2-ene-VPA-CoA through 2-methyl-branched chain acyl-CoA dehydrogenase (ACADSB). 2-ene-VPA-CoA is further converted to 3-hydroxyl-valproyl-VPA (3-OH-VPA-CoA) by an enoyl-CoA hydratase, crotonase (ECSH1) and then 3-OH-VPA-CoA is metabolized to 3-keto-valproyl-CoA (3-oxo-VPA-CoA) through the action of 2-methyl-3-hydroxybutyryl-CoA dehydrogenase. Another route of VPA metabolism in the mitochondria includes the conversion of 4-ene-VPA to 4-ene-VPA-CoA ester catalyzed by ACADSB, followed by a beta-oxidation to form 2,4-diene-VPA-CoA ester. The latter metabolite can furthermore be conjugated to glutathione to form thiol metabolites.

References

Valproic Acid Pathway References

[PharmgKB](http://www.pharmgkb.org/pathway/PA165964265)

Kassahun K, Hu P, Grillo MP, Davis MR, Jin L, Baillie TA: Metabolic activation of unsaturated derivatives of valproic acid. Identification of novel glutathione adducts formed through coenzyme A-dependent and -independent processes. Chem Biol Interact. 1994 Mar;90(3):253-75.

Pubmed: 8168173

Kassahun K, Farrell K, Abbott F: Identification and characterization of the glutathione and N-acetylcysteine conjugates of (E)-2-propyl-2,4-pentadienoic acid, a toxic metabolite of valproic acid, in rats and humans. Drug Metab Dispos. 1991 Mar-Apr;19(2):525-35.

Pubmed: 1676665

Luis PB, Ruiter JP, Ofman R, Ijlst L, Moedas M, Diogo L, Garcia P, de Almeida IT, Duran M, Wanders RJ, Silva MF: Valproic acid utilizes the isoleucine breakdown pathway for its complete beta-oxidation. Biochem Pharmacol. 2011 Dec 1;82(11):1740-6. doi: 10.1016/j.bcp.2011.07.103. Epub 2011 Aug 6.

Pubmed: 21843514

Li J, Norwood DL, Mao LF, Schulz H: Mitochondrial metabolism of valproic acid. Biochemistry. 1991 Jan 15;30(2):388-94.

Pubmed: 1988037

Ito M, Ikeda Y, Arnez JG, Finocchiaro G, Tanaka K: The enzymatic basis for the metabolism and inhibitory effects of valproic acid: dehydrogenation of valproyl-CoA by 2-methyl-branched-chain acyl-CoA dehydrogenase. Biochim Biophys Acta. 1990 May 16;1034(2):213-8.

Pubmed: 2112956

Ho PC, Abbott FS, Zanger UM, Chang TK: Influence of CYP2C9 genotypes on the formation of a hepatotoxic metabolite of valproic acid in human liver microsomes. Pharmacogenomics J. 2003;3(6):335-42. doi: 10.1038/sj.tpj.6500210.

Pubmed: 14597963

Kiang TK, Ho PC, Anari MR, Tong V, Abbott FS, Chang TK: Contribution of CYP2C9, CYP2A6, and CYP2B6 to valproic acid metabolism in hepatic microsomes from individuals with the CYP2C9*1/*1 genotype. Toxicol Sci. 2006 Dec;94(2):261-71. doi: 10.1093/toxsci/kfl096. Epub 2006 Aug 31.

Pubmed: 16945988

Sadeque AJ, Fisher MB, Korzekwa KR, Gonzalez FJ, Rettie AE: Human CYP2C9 and CYP2A6 mediate formation of the hepatotoxin 4-ene-valproic acid. J Pharmacol Exp Ther. 1997 Nov;283(2):698-703.

Pubmed: 9353388

Chung JY, Cho JY, Yu KS, Kim JR, Lim KS, Sohn DR, Shin SG, Jang IJ: Pharmacokinetic and pharmacodynamic interaction of lorazepam and valproic acid in relation to UGT2B7 genetic polymorphism in healthy subjects. Clin Pharmacol Ther. 2008 Apr;83(4):595-600. doi: 10.1038/sj.clpt.6100324. Epub 2007 Aug 8.

Pubmed: 17687269

Argikar UA, Remmel RP: Effect of aging on glucuronidation of valproic acid in human liver microsomes and the role of UDP-glucuronosyltransferase UGT1A4, UGT1A8, and UGT1A10. Drug Metab Dispos. 2009 Jan;37(1):229-36. doi: 10.1124/dmd.108.022426. Epub 2008 Oct 6.

Pubmed: 18838507

Krishnaswamy S, Hao Q, Al-Rohaimi A, Hesse LM, von Moltke LL, Greenblatt DJ, Court MH: UDP glucuronosyltransferase (UGT) 1A6 pharmacogenetics: II. Functional impact of the three most common nonsynonymous UGT1A6 polymorphisms (S7A, T181A, and R184S). J Pharmacol Exp Ther. 2005 Jun;313(3):1340-6. doi: 10.1124/jpet.104.081968. Epub 2005 Mar 10.

Pubmed: 15761113

Enter relative concentration values (without units). Elements will be highlighted in a color gradient where red = lowest concentration and green = highest concentration. For the best results, view the pathway in Black and White.

Visualize Compound Data

		2,3-diene-Valproic acid-CoA
		2,4-diene-Valproic acid-CoA
		2-ene-Valproic acid
		2-ene-Valproic acid CoA
		2-n-Propyl-4-oxopentanoic acid
		2-Propyl-2,4-pentadienoic acid
		2-Propylglutaric acid
		2-Propylsuccinic acid
		3-ene-valproic acid
		3-ene-Valproic acid CoA
		3-Hydroxyvalproic acid
		3-Hydroxyvalproic acid CoA
		3-oxo-Valproic acid CoA
		3-Oxovalproic acid
		4-ene-Valproic acid
		4-ene-Valproic acid CoA
		4-Hydroxyvalproic acid
		5-Hydroxyvalproic acid
		Adenosine monophosphate
		Adenosine triphosphate
		Coenzyme A
		FAD
		Heme
		Hydrogen Ion
		Magnesium
		NAD
		NADH
		NADP
		NADPH
		Oxygen
		Pentanoyl-CoA
		Propionyl-CoA
		Pyrophosphate
		Uridine 5'-diphosphate
		Uridine diphosphate glucuronic acid
		Valproic acid
		Valproic acid CoA
		Valproic acid glucuronide
		Valproyl-dephospho-CoA
		Water

Visualize Protein Data

		3-hydroxyacyl-CoA dehydrogenase type-2
		Acyl-coenzyme A synthetase ACSM1, mitochondrial
		Cytochrome P450 2A6
		Cytochrome P450 2B6
		Cytochrome P450 2C9
		Isovaleryl-CoA dehydrogenase, mitochondrial
		Peroxisomal bifunctional enzyme
		Short/branched chain specific acyl-CoA dehydrogenase, mitochondrial
		Trifunctional enzyme subunit alpha, mitochondrial
		Trifunctional enzyme subunit beta, mitochondrial
		UDP-glucuronosyltransferase 1-3

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