Crystallographic structure of pyruvate dehydrogenase (PDH). PH is a six domain dimer with α (blue), α’ (yellow), β (red), and β’ (teal) regions denoted by the different colors. Thiamine pyrophosphate (TPP) is shown in grey ball and stick form, two magnesium ions in purple undergoing metal ligation with the TPP, and two potassium ions in orange. Identifiers EC number 22.214.171.124 CAS number 9014-20-4 Databases IntEnz IntEnz view BRENDA BRENDA entry ExPASy NiceZyme view KEGG KEGG entry MetaCyc metabolic pathway PRIAM profile PDB structures RCSB PDB PDBe PDBsum Gene Ontology AmiGO / EGO Search PMC articles PubMed articles
Not to be confused with pyruvate decarboxylase, the enzyme which catalyses alcoholic fermentation.
Pyruvate dehydrogenase (E1) is the first component enzyme of pyruvate dehydrogenase complex (PDC). The pyruvate dehydrogenase complex contributes to transforming pyruvate into acetyl-CoA by a process called pyruvate decarboxylation. Acetyl-CoA may then be used in the citric acid cycle to carry out cellular respiration, so pyruvate dehydrogenase contributes to linking the glycolysis metabolic pathway to the citric acid cycle and releasing energy via NADH. EC 126.96.36.199.
Pyruvate dehydrogenase (E1) performs the first two reactions within the pyruvate dehydrogenase complex (PDC): a decarboxylation of substrate 1 (pyruvate) and a reductive acetylation of substrate 2 (lipoic acid). Lipoic acid is covalently bound to dihydrolipoamide acetyltransferase (E2), which is the second catalytic component enzyme of PDC. The reaction catalyzed by pyruvate dehydrogenase (E1) is considered to be the rate-limiting step for the pyruvate dehydrogenase complex (PDHc).
Phosphorylation of E1 by pyruvate dehydrogenase kinase (PDK) inactivates E1 and subsequently the entire complex. This is reversed by pyruvate dehydrogenase phosphatase. Pyruvate dehydrogenase phosphatase is stimulated by insulin, PEP, and AMP, but competitively inhibited by ATP, NADH, and Acetyl-CoA.
The ylide resonance form of thiamine pyrophosphate (TPP) begins by attacking the electrophilic ketone of pyruvate. The intermediate β-alkoxide then decarboxylates and the resulting enol is deprotonated on the carbon atom to form a stabilized 1,3-dipole involving a positively charged nitrogen atom of the thiamine heterocycle. This 1,3-dipole undergoes a reductive acetylation with lipoamide-E2.
Biochemical and structural data for E1 revealed a mechanism of activation of TPP cofactor by forming the conserved hydrogen bond with glutamate residue (Glu59 in human E1) and by imposing a V-conformation that brings the N4’ atom of the aminopyrimidine to intramolecular hydrogen bonding with the thiazolium C2 atom. This unique combination of contacts and conformations of TPP leads to formation of the reactive C2-carbanion, eventually. After the cofactor TPP decarboxylates pyruvate, the acetyl portion becomes a hydroxyethyl derivative covalently attached to TPP.
E1 is a multimeric protein. Mammalian E1s, including human E1, are tetrameric, composed of two α- and two β- subunits. Some bacterial E1s, including E1 from Escherichia coli, are composed of two similar subunits, each being as large as the sum of molecular masses of α- and β- subunits.
E1 has two catalytic sites, each providing thiamine pyrophosphate (TPP) and magnesium ion as cofactors. The α- subunit binds magnesium ion and pyrophosphate fragment while the β-subunit binds pyrimidine fragment of TPP, forming together a catalytic site at the interface of subunits. 
The active site for pyruvate dehydrogenase (image created from PDB 1NI4) holds TPP through metal ligation to a magnesium ion (purple sphere) and through hydrogen bonding to amino acids. While over 20 amino acids can be found in the active site, amino acids Tyr 89, Arg 90, Gly 136, Val 138, Asp 167, Gly 168, Ala 169, Asn, 196, and His 263 actually participate in hydrogen bonding to hold TPP and pyruvate (not shown here) in the active site. The amino acids are shown as wires, and the TPP is in ball and stick form. The active site also aids in the transfer of the acyl on the TPP to a lipoamide waiting on E2.
Pyruvate dehydrogenase is an autoantigen recognized in primary biliary cirrhosis. These antibodies appear to recognize oxidized protein that has resulted from inflammatory immune responses. Some of these inflammatory responses could be related to gluten sensitivity as over 50% of the acute liver failure patients in one study exhibited an nonmitochondrial autoantibody against tissue transglutaminase. Other mitochondrial autoantigens include oxoglutarate dehydrogenase and branched-chain alpha-keto acid dehydrogenase complex, which are antigens recognized by anti-mitochondrial antibodies.
Pyruvate dehydrogenase (PDH) deficiency is a congenital degenerative metabolic disease resulting from a mutation of the pyruvate dehydrogenase complex (PDC) located on the X chromosome. Although defects have been identified in all 3 enzymes of the complex, the E1-α subunit is predominantly the culprit. Malfunction of the citric acid cycle due to PDH deficiency deprives the body of energy and leads to an abnormal buildup of lactate. PDH deficiency is a common cause of lactic acidosis in newborns and often presents with severe lethargy, poor feeding, tachypnea, and cases of death have occurred.
Human proteins that possess pyruvate dehydrogenase activity include:
Pyruvate dehydrogenase (lipoamide) alpha 1 Identifiers Symbol PDHA1 Alt. symbols PDHA Entrez 5160 HUGO 8806 OMIM 300502 RefSeq NM_000284 UniProt P08559 Other data EC number 188.8.131.52 Locus Chr. X p22.1 pyruvate dehydrogenase (lipoamide) alpha 2 Identifiers Symbol PDHA2 Alt. symbols PDHAL Entrez 5161 HUGO 8807 OMIM 179061 RefSeq NM_005390 UniProt P29803 Other data EC number 184.108.40.206 Locus Chr. 4 q22-q23 pyruvate dehydrogenase (lipoamide) beta Identifiers Symbol PDHB Alt. symbols PHE1B Entrez 5162 HUGO 8808 OMIM 179060 RefSeq NM_000925 UniProt P11177 Other data EC number 220.127.116.11 Locus Chr. 3 p21.1-14.2
In bacteria, a form of pyruvate dehydrogenase (also called pyruvate oxidase, EC 18.104.22.168) exists that links the oxidation of pyruvate into acetate and carbon dioxide to the reduction of ferrocytochrome. In E. coli this enzyme is encoded by the pox B gene and the protein has a flavin cofactor. This enzyme increases the efficiency of growth of E. coli under aerobic conditions.
- ^ a b c d e PDB 1ni4; Ciszak EM, Korotchkina LG, Dominiak PM, Sidhu S, Patel MS (June 2003). "Structural basis for flip-flop action of thiamin pyrophosphate-dependent enzymes revealed by human pyruvate dehydrogenase". J. Biol. Chem. 278 (23): 21240–6. doi:10.1074/jbc.M300339200. PMID 12651851.
- ^ a b Molecular graphics images were produced using the UCSF Chimera package from the Resource for Biocomputing, Visualization, and Informatics at the University of California, San Francisco; Pettersen EF, Goddard TD, Huang CC, Couch GS, Greenblatt DM, Meng EC, Ferrin TE (October 2004). "UCSF Chimera--a visualization system for exploratory research and analysis". J Comput Chem 25 (13): 1605–12. doi:10.1002/jcc.20084. PMID 15264254.
- ^ Arjunan P, Nemeria N, Brunskill A, Chandrasekhar K, Sax M, Yan Y, Jordan F, Guest JR, Furey W. (2002). "Structure of the pyruvate dehydrogenase multienzyme complex E1 component from Escherichia coli at 1.85 A resolution". Biochemistry 41 (16): 5213–21. doi:10.1021/bi0118557. PMID 11955070. http://pubs.acs.org/cgi-bin/abstract.cgi/bichaw/2002/41/i16/abs/bi0118557.html.
- ^ Leung PS, Rossaro L, Davis PA, et al. (2007). "Antimitochondrial antibodies in acute liver failure: Implications for primary biliary cirrhosis". Hepatology 46 (5): 1436. doi:10.1002/hep.21828. PMID 17657817.
- ^ Frye, Richard E., and Paul J. Benke. "Pyruvate Dehydrogenase Complex Deficiency." EMedicine. 11 Dec. 2007. WebMD. 14 Dec. 2008 <http://emedicine.medscape.com/article/948360-overview>.
- ^ Recny MA, Hager LP (1982). "Reconstitution of native Escherichia coli pyruvate oxidase from apoenzyme monomers and FAD". J. Biol. Chem. 257 (21): 12878–86. PMID 6752142.
- ^ Abdel-Hamid AM, Attwood MM, Guest JR (2001). "Pyruvate oxidase contributes to the aerobic growth efficiency of Escherichia coli". Microbiology (Reading, Engl.) 147 (Pt 6): 1483–98. PMID 11390679.
- MeSH Pyruvate+Dehydrogenase-E1
Aldehyde/oxo oxidoreductases (EC 1.2) 1.2.1: NAD or NADP 1.2.2: cytochrome 1.2.3: oxygen 1.2.4: disulfide 1.2.7: iron-sulfur protein B enzm: 1.1/2/3/4/5/6/7/8/10/11/13/14/15-18, 2.1/2/3/4/5/6/7/8, 2.7.10, 2.7.11-12, 3.1/2/3/4/5/6/7, 22.214.171.124, 3.4.21/22/23/24, 4.1/2/3/4/5/6, 5.1/2/3/4/99, 6.1-3/4/5-6 Glycolysis Metabolic Pathway Glucose Hexokinase Glucose 6-phosphate Glucose-6-phosphate isomerase Fructose 6-phosphate phosphofructokinase-1 Fructose 1,6-bisphosphate Fructose bisphosphate aldolase ATP ADP ATP ADP Dihydroxyacetone phosphate Glyceraldehyde 3-phosphate Triosephosphate isomerase Glyceraldehyde 3-phosphate Glyceraldehyde-3-phosphate dehydrogenase 1,3-Bisphosphoglycerate NAD+ + Pi NADH + H+ + 2 2 Phosphoglycerate kinase 3-Phosphoglycerate Phosphoglycerate mutase 2-Phosphoglycerate Phosphopyruvate hydratase(Enolase) Phosphoenolpyruvate Pyruvate kinase Pyruvate ADP ATP H2O ADP ATP 2 2 2 2 Antigens: Autoantigens DehydrogenaseBranched-chain alpha-keto acid dehydrogenase complex · Oxoglutarate dehydrogenase · Pyruvate dehydrogenase Transglutaminase Nucleoporins Other
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