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Dopamine beta-hydroxylase

December 02, 2023

Dopamine beta-hydroxylase (DBH), also known as dopamine beta-monooxygenase, is an enzyme (EC 1.14.17.1) that in humans is encoded by the DBH gene. Dopamine beta-hydroxylase catalyzes the conversion of dopamine to norepinephrine.

DBH
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
AliasesDBH, DBM, Dopamine beta-monooxygenase, dopamine beta-hydroxylase, Dopamine β-hydroxylase, ORTHYP1
External IDsOMIM: 609312 MGI: 94864 HomoloGene: 615 GeneCards: DBH
EC number1.14.17.1
Orthologs
SpeciesHumanMouse
Entrez

1621

13166

Ensembl

ENSG00000123454

ENSMUSG00000000889

UniProt

P09172

Q64237

RefSeq (mRNA)

NM_000787

NM_138942

RefSeq (protein)

NP_000778

NP_620392

Location (UCSC)Chr 9: 133.64 – 133.66 MbChr 2: 27.06 – 27.07 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse
dopamine beta-monooxygenase
Identifiers
EC no.1.14.17.1
CAS no.9013-38-1
Databases
IntEnzIntEnz view
BRENDABRENDA entry
ExPASyNiceZyme view
KEGGKEGG entry
MetaCycmetabolic pathway
PRIAMprofile
PDB structuresRCSB PDB PDBe PDBsum
Gene OntologyAmiGO / QuickGO
Search
PMCarticles
PubMedarticles
NCBIproteins
Dopamine is converted to norepinephrine by the enzyme dopamine β-hydroxylase; ascorbic acid serves as a cofactor

The three substrates of the enzyme are dopamine, vitamin C (ascorbate), and O2. The products are norepinephrine, dehydroascorbate, and H2O.

DBH is a 290 kDa copper-containing oxygenase consisting of four identical subunits, and its activity requires ascorbate as a cofactor.[5]

It is the only enzyme involved in the synthesis of small-molecule neurotransmitters that is membrane-bound, making norepinephrine the only known transmitter synthesized inside vesicles. It is expressed in noradrenergic neurons of the central nervous system (i.e. locus coeruleus) and peripheral nervous systems (i.e. sympathetic ganglia), as well as in chromaffin cells of the adrenal medulla.

Mechanism of catalysis edit

Based on the observations of what happens when there is no substrate, or oxygen, the following steps seem to constitute the hydroxylation reaction.[6][7]

 
In the absence of oxygen, dopamine or other substrates, the enzyme and ascorbate mixture produces reduced enzyme and dehydroascorbate. Exposing the reduced enzyme to oxygen and dopamine results in oxidation of the enzyme and formation of noradrenaline and water, and this step doesn't require ascorbate.

Although details of DBH mechanism are yet to be confirmed, DBH is homologous to another enzyme, peptidylglycine α-hydroxylating monooxygenase (PHM). Because DBH and PHM share similar structures, it is possible to model DBH mechanism based on what is known about PHM mechanism.[8]

Substrate specificity edit

Dopamine beta-hydroxylase catalyzes the hydroxylation of not only dopamine but also other phenylethylamine derivatives when available. The minimum requirement seems to be the phenylethylamine skeleton: a benzene ring with a two-carbon side chain that terminates in an amino group.[6]

Assays for DBH activity in human serum and Cerebrospinal fluid edit

DBH activity in human serum could be estimated by a spectrophotometric method [12] or with the aid of Ultra high performance liquid chromatography with Photo Diode Array detector (UHPLC-PDA).[13] A sensitive assay for the detection of DBH activity in cerebrospinal fluid using High-performance liquid chromatography with Electrochemical detector(HPLC-ECD) was also described earlier.[14]

Expression quantitative trait loci (eQTLs) at DBH loci edit

Genetic variants such as single-nucleotide polymorphisms(SNPs)[15][16] at DBH loci were found to be associated with DBH activity and are well known expression quantitative trait loci. Allele variants at two regulatory SNPs namely rs1611115 [17] and rs1989787 [18] were shown to affect transcription of this gene. Mutations identified in dopamine beta hydroxylase deficiency[19] and non-synonymous SNPs such as rs6271 in this gene were found to cause defective secretion of the protein from the endoplasmic reticulum.[20]

Clinical significance edit

DBH primarily contributes to catecholamine and trace amine biosynthesis. It also participates in the metabolism of xenobiotics related to these substances; for example, the human DBH enzyme catalyzes the beta-hydroxylation of amphetamine and para-hydroxyamphetamine, producing norephedrine and para-hydroxynorephedrine respectively.[21][22][23]

DBH has been implicated as correlating factor in conditions associated with decision making and addictive drugs, e.g., alcoholism[24] and smoking,[25] attention deficit hyperactivity disorder,[26] schizophrenia,[27] and Alzheimer's disease.[28] Inadequate DBH is called dopamine beta hydroxylase deficiency.

The proximal promoter SNPs rs1989787 and rs1611115 were found to be associated with cognition in schizophrenia subjects.[29] Further these SNPs (rs1989787;rs1611115) and a distal promoter variant 19bp Ins/Del(rs141116007) were associated with scores of Abnormal Involuntary Movement Scale in Tardive dyskinesia positive schizophrenia subjects.[29] Of the three variants, the proximal promoter SNP(rs1611115) was associated with Positive and Negative Syndrome Scale(PANSS) scores in Tardive dyskinesia positive schizophrenia subjects.[29] The main effect of a putative splice variant in Dopamine beta-hydroxylase namely rs1108580 was found to be associated with Working memory Processing speed in a north Indian Schizophrenia case control study where the G/G genotype of that single-nucleotide polymorphism(SNP) was found to have lower cognitive scores than those with A/A and A/G genotypes. Furthermore the same SNP was associated with Emotion accuracy in healthy controls.[30]

Structure edit

 
Experimental DBH structural model based upon in silico prediction and physiochemical validation[31]

It was difficult to obtain a stable crystal of dopamine beta-hydroxylase. Hence an homology model based on the primary sequence and comparison to PHM is available.[31]

However, a crystal structure was also put forward in 2016.[32]

Regulation and inhibition edit

This protein may use the morpheein model of allosteric regulation.[33]

Inhibitors edit

Types of dopamine beta-hydroxylase inhibition[clarification needed][citation needed]
HYD[a] HP[b] QCA[c] IQCA[d] BI[e] IAA[f][1]
Competitive Ascorbate Ascorbate Ascorbate Ascorbate Ascorbate Ascorbate
Uncompetitive Tyramine Tyramine
Mixed Tyramine Tyramine Tyramine Tyramine
Ascorbate is cofactor; tyramine is substitute for dopamine, DBH's namesake substrate
  1. ^ hydralazine
  2. ^ 2-hydrazinopyridine
  3. ^ 2-quinoline-carboxylic acid
  4. ^ l-isoquinolinecarboxylic acid
  5. ^ 2,2'-biimidazole
  6. ^ imidazole-4-acetic acid

DBH is inhibited by disulfiram,[34] tropolone,[35] and, most selectively, by nepicastat.[36]

DBH is reversibly inhibited by l-2H-Phthalazine hydrazone (hydralazine; HYD), 2-1H-pyridinone hydrazone (2-hydrazinopyridine; HP), 2-quinoline-carboxylic acid (QCA), l-isoquinolinecarboxylic acid (IQCA), 2,2'-bi-lH-imidazole (2,2'-biimidazole; BI), and IH-imidazole-4-acetic acid (imidazole-4-acetic acid;[2] IAA). HYD, QCA, and IAA are allosteric competitive.[37]

Nomenclature edit

The systematic name of this enzyme class is 3,4-dihydroxyphenethylamine, ascorbate:oxygen oxidoreductase (beta-hydroxylating).

Other names in common use include:

  • dopamine beta-monooxygenase
  • dopamine beta-hydroxylase
  • membrane-associated dopamine beta-monooxygenase (MDBH)
  • soluble dopamine beta-monooxygenase (SDBH)
  • dopamine-B-hydroxylase
  • 3,4-dihydroxyphenethylamine beta-oxidase
  • 4-(2-aminoethyl) pyrocatechol beta-oxidase
  • dopa beta-hydroxylase
  • dopamine beta-oxidase
  • dopamine hydroxylase
  • phenylamine beta-hydroxylase
  • (3,4-dihydroxyphenethylamine) beta-mono-oxygenase

References edit

  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000123454 - Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000000889 - Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Rush RA, Geffen LB (1980). "Dopamine beta-hydroxylase in health and disease". Critical Reviews in Clinical Laboratory Sciences. 12 (3): 241–77. doi:10.3109/10408368009108731. PMID 6998654.
  6. ^ a b Kaufman S, Bridgers WF, Baron J (1968). "The Mechanism of Action of Dopamine β-Hydroxylase". Oxidation of Organic Compounds. Advances in Chemistry. Vol. 77. pp. 172–176. doi:10.1021/ba-1968-0077.ch073. ISBN 0-8412-0078-5.
  7. ^ Friedman S, Kaufman S (May 1966). "An electron paramagnetic resonance study of 3,4-dihydroxyphenylethylamine beta-hydroxylase". The Journal of Biological Chemistry. 241 (10): 2256–9. doi:10.1016/S0021-9258(18)96614-7. PMID 4287853.
  8. ^ Prigge ST, Mains RE, Eipper BA, Amzel LM (August 2000). "New insights into copper monooxygenases and peptide amidation: structure, mechanism and function". Cellular and Molecular Life Sciences. 57 (8–9): 1236–59. doi:10.1007/pl00000763. PMID 11028916. S2CID 12738480.
  9. ^ Broadley KJ (March 2010). "The vascular effects of trace amines and amphetamines". Pharmacology & Therapeutics. 125 (3): 363–375. doi:10.1016/j.pharmthera.2009.11.005. PMID 19948186.
  10. ^ Lindemann L, Hoener MC (May 2005). "A renaissance in trace amines inspired by a novel GPCR family". Trends in Pharmacological Sciences. 26 (5): 274–281. doi:10.1016/j.tips.2005.03.007. PMID 15860375.
  11. ^ Wang X, Li J, Dong G, Yue J (February 2014). "The endogenous substrates of brain CYP2D". European Journal of Pharmacology. 724: 211–218. doi:10.1016/j.ejphar.2013.12.025. PMID 24374199.
  12. ^ Nagatsu T, Udenfriend S (1972). "Photometric Assay of Dopamine-β-Hydroxylase Activity in Human Blood". Clinical Chemistry. 18 (9): 980–983. doi:10.1093/clinchem/18.9.980. PMID 5052101.
  13. ^ Punchaichira TJ, Deshpande SN, Thelma BK (2018). "Determination of Dopamine-β-hydroxylase Activity in Human Serum Using UHPLC-PDA Detection". Neurochemical Research. 43 (12): 2324–2332. doi:10.1007/s11064-018-2653-1. PMID 30357655. S2CID 53024826.
  14. ^ Matsui H, Kato T, Yamamoto C, Fujita K, Nagatsu T (1981). "Highly sensitive assay for dopamine-beta-hydroxylase activity in human cerebrospinal fluid by high performance liquid chromatography-electrochemical detection: properties of the enzyme". Journal of Neurochemistry. 37 (2): 289–296. doi:10.1111/j.1471-4159.1981.tb00454.x. PMID 7264660. S2CID 42736106.
  15. ^ Zabetian CP, Anderson GM, Buxbaum SG, Elston RC, Ichinose H, Nagatsu T, Kim KS, Kim CH, Malison RT, Gelernter J, Cubells JF (2001). "A quantitative-trait analysis of human plasma-dopamine beta-hydroxylase activity: evidence for a major functional polymorphism at the DBH locus". American Journal of Human Genetics. 68 (2): 515–22. doi:10.1086/318198. PMC 1235285. PMID 11170900.
  16. ^ Punchaichira TJ, Prasad S, Deshpande SN, Thelma BK (2016). "Deep sequencing identifies novel regulatory variants in the distal promoter region of the dopamine-beta-hydroxylase gene". Pharmacogenetics and Genomics. 26 (7): 311–23. doi:10.1097/FPC.0000000000000214. PMID 26959714. S2CID 205601803.
  17. ^ Chen Y, Wen G, Rao F, Zhang K, Wang L, Rodriguez-Flores JL, Sanchez, AP, Mahata M, Taupenot L, Sun P, Mahata SK, Tayo B, Schork NJ, Ziegler MG, Hamilton BA, O'Connor DT (2010). "Human dopamine beta-hydroxylase (DBH) regulatory polymorphism that influences enzymatic activity, autonomic function, and blood pressure". Journal of Hypertension. 28 (1): 76–86. doi:10.1097/HJH.0b013e328332bc87. PMC 2860271. PMID 20009769.
  18. ^ Chen Y, Zhang K, Wen G, Rao F, Sanchez AP, Wang L, Rodriguez-Flores JL, Mahata M, Mahata SK, Waalen J, Ziegler MG, Hamilton BA, O'Connor DT (2011). "Human dopamine beta-hydroxylase promoter variant alters transcription in chromaffin cells, enzyme secretion, and blood pressure". American Journal of Hypertension. 24 (1): 24–32. doi:10.1038/ajh.2010.186. PMC 4906639. PMID 20814407.
  19. ^ Kim CH, Leung A, Huh YH, Yang E, Kim DJ, Leblanc P, Ryu H, Kim K, Kim DW, Garland EM, Raj SR, Biaggioni I, Robertson D, Kim KS (2011). "Norepinephrine deficiency is caused by combined abnormal mRNA processing and defective protein trafficking of dopamine beta-hydroxylase". Journal of Biological Chemistry. 286 (11): 9196–204. doi:10.1074/jbc.M110.192351. PMC 3059068. PMID 21209083.
  20. ^ Punchaichira TJ, Dey SK, Mukhopadhyay A, Kundu S, Thelma BK (2017). "Characterization of SNPs in the dopamine-beta-hydroxylase gene providing new insights into its structure-function relationship". Neurogenetics. 18 (3): 155–168. doi:10.1007/s10048-017-0519-3. PMID 28707163. S2CID 5259134.
  21. ^ Glennon RA (2013). "Phenylisopropylamine stimulants: amphetamine-related agents". In Lemke TL, Williams DA, Roche VF, Zito W (eds.). Foye's principles of medicinal chemistry (7th ed.). Philadelphia, US: Wolters Kluwer Health/Lippincott Williams & Wilkins. pp. 646–648. ISBN 9781609133450. Retrieved 11 September 2015. The phase 1 metabolism of amphetamine analogs is catalyzed by two systems: cytochrome P450 and flavin monooxygenase. ... Amphetamine can also undergo aromatic hydroxylation to p-hydroxyamphetamine.  ... Subsequent oxidation at the benzylic position by DA β-hydroxylase affords p-hydroxynorephedrine. Alternatively, direct oxidation of amphetamine by DA β-hydroxylase can afford norephedrine.
  22. ^ Taylor KB (January 1974). "Dopamine-beta-hydroxylase. Stereochemical course of the reaction" (PDF). J. Biol. Chem. 249 (2): 454–458. doi:10.1016/S0021-9258(19)43051-2. PMID 4809526. Retrieved 6 November 2014. Dopamine-β-hydroxylase catalyzed the removal of the pro-R hydrogen atom and the production of 1-norephedrine, (2S,1R)-2-amino-1-hydroxyl-1-phenylpropane, from d-amphetamine.
  23. ^ Horwitz D, Alexander RW, Lovenberg W, Keiser HR (May 1973). "Human serum dopamine-β-hydroxylase. Relationship to hypertension and sympathetic activity". Circ. Res. 32 (5): 594–599. doi:10.1161/01.RES.32.5.594. PMID 4713201. Subjects with exceptionally low levels of serum dopamine-β-hydroxylase activity showed normal cardiovascular function and normal β-hydroxylation of an administered synthetic substrate, hydroxyamphetamine.
  24. ^ Mutschler J, Abbruzzese E, Witt SH, Dirican G, Nieratschker V, Frank J, Grosshans M, Rietschel M, Kiefer F (August 2012). "Functional polymorphism of the dopamine β-hydroxylase gene is associated with increased risk of disulfiram-induced adverse effects in alcohol-dependent patients". Journal of Clinical Psychopharmacology. 32 (4): 578–80. doi:10.1097/jcp.0b013e31825ddbe6. PMID 22760354.
  25. ^ Ella E, Sato N, Nishizawa D, Kageyama S, Yamada H, Kurabe N, Ishino K, Tao H, Tanioka F, Nozawa A, Renyin C, Shinmura K, Ikeda K, Sugimura H (June 2012). "Association between dopamine beta hydroxylase rs5320 polymorphism and smoking behaviour in elderly Japanese". Journal of Human Genetics. 57 (6): 385–90. doi:10.1038/jhg.2012.40. PMID 22513716.
  26. ^ Bhaduri N, Sinha S, Chattopadhyay A, Gangopadhyay PK, Singh M, Mukhopadhyay KK (February 2005). "Analysis of polymorphisms in the dopamine beta hydroxylase gene: association with attention deficit hyperactivity disorder in Indian children". Indian Pediatrics. 42 (2): 123–9. PMID 15767706.
  27. ^ Cubells JF, Sun X, Li W, Bonsall RW, McGrath JA, Avramopoulos D, Lasseter VK, Wolyniec PS, Tang YL, Mercer K, Pulver AE, Elston RC (November 2011). "Linkage analysis of plasma dopamine β-hydroxylase activity in families of patients with schizophrenia". Human Genetics. 130 (5): 635–43. doi:10.1007/s00439-011-0989-6. PMC 3193571. PMID 21509519.
  28. ^ Combarros O, Warden DR, Hammond N, Cortina-Borja M, Belbin O, Lehmann MG, Wilcock GK, Brown K, Kehoe PG, Barber R, Coto E, Alvarez V, Deloukas P, Gwilliam R, Heun R, Kölsch H, Mateo I, Oulhaj A, Arias-Vásquez A, Schuur M, Aulchenko YS, Ikram MA, Breteler MM, van Duijn CM, Morgan K, Smith AD, Lehmann DJ (2010). "The dopamine β-hydroxylase -1021C/T polymorphism is associated with the risk of Alzheimer's disease in the Epistasis Project". BMC Medical Genetics. 11 (161): 162. doi:10.1186/1471-2350-11-162. PMC 2994840. PMID 21070631.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  29. ^ a b c Punchaichira TJ, Mukhopadhyay A, Kukshal P, Bhatia T, Deshpande SN, Thelma BK (2020). "Association of regulatory variants of dopamine β-hydroxylase with cognition and tardive dyskinesia in schizophrenia subjects". Journal of Psychopharmacology. 34 (3): 358–369. doi:10.1177/0269881119895539. PMC 7150076. PMID 31913053.
  30. ^ Punchaichira TJ, Kukshal P, Bhatia T, Deshpande SN (2023). "Effect of rs1108580 of DBH and rs1006737 of CACNA1C on Cognition and Tardive Dyskinesia in a North Indian Schizophrenia Cohort". Molecular Neurobiology. doi:10.1007/s12035-023-03496-4. PMID 37493923.
  31. ^ a b Kapoor A, Shandilya M, Kundu S (2011). "Structural insight of dopamine β-hydroxylase, a drug target for complex traits, and functional significance of exonic single nucleotide polymorphisms". PLOS ONE. 6 (10): e26509. Bibcode:2011PLoSO...626509K. doi:10.1371/journal.pone.0026509. PMC 3197665. PMID 22028891.
  32. ^ Vendelboe TV, Harris P, Zhao Y, Walter TS, Harlos K, Omari KE, Christensen HM (2016). "The crystal structure of human dopamine β-hydroxylase at 2.9 Å resolution". Science Advances. 2 (4): e1500980. Bibcode:2016SciA....2E0980V. doi:10.1126/sciadv.1500980. PMC 4846438. PMID 27152332.
  33. ^ Selwood T, Jaffe EK (March 2012). "Dynamic dissociating homo-oligomers and the control of protein function". Archives of Biochemistry and Biophysics. 519 (2): 131–43. doi:10.1016/j.abb.2011.11.020. PMC 3298769. PMID 22182754.
  34. ^ Goldstein M, Anagnoste B, Lauber E, Mckeregham MR (July 1964). "Inhibition of dopamine- β -hydroxylase by disulfiram". Life Sciences. 3 (7): 763–7. doi:10.1016/0024-3205(64)90031-1. PMID 14203977.
  35. ^ Goldstein M, Lauber E, Mckereghan MR (July 1964). "The inhibitionof dopamine-β-hydroxylase by tropolone and other chelating agents". Biochemical Pharmacology. 13 (7): 1103–6. doi:10.1016/0006-2952(64)90109-1. PMID 14201135.
  36. ^ Stanley WC, Li B, Bonhaus DW, Johnson LG, Lee K, Porter S, Walker K, Martinez G, Eglen RM, Whiting RL, Hegde SS (August 1997). "Catecholamine modulatory effects of nepicastat (RS-25560-197), a novel, potent and selective inhibitor of dopamine-beta-hydroxylase". British Journal of Pharmacology. 121 (8): 1803–9. doi:10.1038/sj.bjp.0701315. PMC 1564872. PMID 9283721.
  37. ^ Townes S, Titone C, Rosenberg RC (February 1990). "Inhibition of dopamine beta-hydroxylase by bidentate chelating agents". Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology. 1037 (2): 240–7. doi:10.1016/0167-4838(90)90174-E. PMID 2306475.

Further reading edit

  • Friedman S, Kaufman S (December 1965). "3,4-dihydroxyphenylethylamine beta-hydroxylase. Physical properties, copper content, and role of copper in the catalytic activity". The Journal of Biological Chemistry. 240 (12): 4763–73. doi:10.1016/S0021-9258(18)97021-3. PMID 5846992.
  • Levin EY, Levenberg B, Kaufman S (1960). "The enzymatic conversion of 3,4-dihydroxyphenylethylamine to norepinephrine". J. Biol. Chem. 235 (7): 2080–2086. doi:10.1016/S0021-9258(18)69366-4. PMID 14416204.

External links edit

  • GeneReviews/NIH/NCBI/UW entry on Dopamine Beta-Hydroxylase Deficiency
  • Dopamine+beta-Hydroxylase at the U.S. National Library of Medicine Medical Subject Headings (MeSH)

December 02, 2023
dopamine, beta, hydroxylase, also, known, dopamine, beta, monooxygenase, enzyme, that, humans, encoded, gene, catalyzes, conversion, dopamine, norepinephrine, dbhavailable, structurespdbortholog, search, pdbe, rcsblist, codes4zelidentifiersaliasesdbh, dopamine. Dopamine beta hydroxylase DBH also known as dopamine beta monooxygenase is an enzyme EC 1 14 17 1 that in humans is encoded by the DBH gene Dopamine beta hydroxylase catalyzes the conversion of dopamine to norepinephrine DBHAvailable structuresPDBOrtholog search PDBe RCSBList of PDB id codes4ZELIdentifiersAliasesDBH DBM Dopamine beta monooxygenase dopamine beta hydroxylase Dopamine b hydroxylase ORTHYP1External IDsOMIM 609312 MGI 94864 HomoloGene 615 GeneCards DBHEC number1 14 17 1Gene location Human Chr Chromosome 9 human 1 Band9q34 2Start133 636 363 bp 1 End133 659 329 bp 1 Gene location Mouse Chr Chromosome 2 mouse 2 Band2 A3 2 19 29 cMStart27 055 245 bp 2 End27 073 212 bp 2 RNA expression patternBgeeHumanMouse ortholog Top expressed inright lobe of liverright adrenal glandleft adrenal glandsympathetic trunksuperior vestibular nucleuslymph nodebody of pancreascingulate gyrusprefrontal cortexBrodmann area 9Top expressed insuperior cervical ganglionadrenal glandexternal carotid arteryparasympathetic nervous systemcarotid bodysubmandibular glandparasympathetic ganglionmyocardium of ventriclesecondary oocytedorsal tegmental nucleusMore reference expression dataBioGPSMore reference expression dataGene ontologyMolecular functionmetal ion binding monooxygenase activity oxidoreductase activity oxidoreductase activity acting on paired donors with incorporation or reduction of molecular oxygen reduced ascorbate as one donor and incorporation of one atom of oxygen L ascorbic acid binding catalytic activity dopamine beta monooxygenase activity copper ion bindingCellular componentcytoplasm transport vesicle membrane integral component of membrane chromaffin granule lumen chromaffin granule membrane cytoplasmic vesicle membrane extracellular region extracellular space secretory granule membrane secretory granule lumen intracellular membrane bounded organelle endoplasmic reticulum microtubule organizing centerBiological processresponse to amphetamine chemical synaptic transmission homoiothermy leukocyte mediated immunity visual learning fear response behavioral response to ethanol locomotory behavior regulation of extrinsic apoptotic signaling pathway regulation of cell population proliferation positive regulation of vasoconstriction glucose homeostasis maternal behavior memory leukocyte migration response to pain blood vessel remodeling cytokine production associative learning catecholamine biosynthetic process dopamine catabolic process norepinephrine biosynthetic process octopamine biosynthetic process positive regulation of cold induced thermogenesisSources Amigo QuickGOOrthologsSpeciesHumanMouseEntrez162113166EnsemblENSG00000123454ENSMUSG00000000889UniProtP09172Q64237RefSeq mRNA NM 000787NM 138942RefSeq protein NP 000778NP 620392Location UCSC Chr 9 133 64 133 66 MbChr 2 27 06 27 07 MbPubMed search 3 4 WikidataView Edit HumanView Edit Mousedopamine beta monooxygenaseIdentifiersEC no 1 14 17 1CAS no 9013 38 1DatabasesIntEnzIntEnz viewBRENDABRENDA entryExPASyNiceZyme viewKEGGKEGG entryMetaCycmetabolic pathwayPRIAMprofilePDB structuresRCSB PDB PDBe PDBsumGene OntologyAmiGO QuickGOSearchPMCarticlesPubMedarticlesNCBIproteinsDopamine is converted to norepinephrine by the enzyme dopamine b hydroxylase ascorbic acid serves as a cofactorThe three substrates of the enzyme are dopamine vitamin C ascorbate and O2 The products are norepinephrine dehydroascorbate and H2O DBH is a 290 kDa copper containing oxygenase consisting of four identical subunits and its activity requires ascorbate as a cofactor 5 It is the only enzyme involved in the synthesis of small molecule neurotransmitters that is membrane bound making norepinephrine the only known transmitter synthesized inside vesicles It is expressed in noradrenergic neurons of the central nervous system i e locus coeruleus and peripheral nervous systems i e sympathetic ganglia as well as in chromaffin cells of the adrenal medulla Contents 1 Mechanism of catalysis 1 1 Substrate specificity 2 Assays for DBH activity in human serum and Cerebrospinal fluid 2 1 Expression quantitative trait loci eQTLs at DBH loci 3 Clinical significance 4 Structure 5 Regulation and inhibition 5 1 Inhibitors 6 Nomenclature 7 References 8 Further reading 9 External linksMechanism of catalysis editBased on the observations of what happens when there is no substrate or oxygen the following steps seem to constitute the hydroxylation reaction 6 7 nbsp In the absence of oxygen dopamine or other substrates the enzyme and ascorbate mixture produces reduced enzyme and dehydroascorbate Exposing the reduced enzyme to oxygen and dopamine results in oxidation of the enzyme and formation of noradrenaline and water and this step doesn t require ascorbate Although details of DBH mechanism are yet to be confirmed DBH is homologous to another enzyme peptidylglycine a hydroxylating monooxygenase PHM Because DBH and PHM share similar structures it is possible to model DBH mechanism based on what is known about PHM mechanism 8 Substrate specificity edit Biosynthetic pathways for catecholamines and trace amines in the human brain 9 10 11 nbsp L Phenylalanine L Tyrosine L DOPA Epinephrine Phenethylamine p Tyramine Dopamine Norepinephrine N Methylphenethylamine N Methyltyramine p Octopamine Synephrine 3 Methoxytyramine AADC AADC AADC primarypathway PNMT PNMT PNMT PNMT AAAH AAAH brainCYP2D6 minorpathway COMT DBH DBH nbsp In humans catecholamines and phenethylaminergic trace amines are derived from the amino acid L phenylalanine Dopamine beta hydroxylase catalyzes the hydroxylation of not only dopamine but also other phenylethylamine derivatives when available The minimum requirement seems to be the phenylethylamine skeleton a benzene ring with a two carbon side chain that terminates in an amino group 6 Assays for DBH activity in human serum and Cerebrospinal fluid editDBH activity in human serum could be estimated by a spectrophotometric method 12 or with the aid of Ultra high performance liquid chromatography with Photo Diode Array detector UHPLC PDA 13 A sensitive assay for the detection of DBH activity in cerebrospinal fluid using High performance liquid chromatography with Electrochemical detector HPLC ECD was also described earlier 14 Expression quantitative trait loci eQTLs at DBH loci edit Genetic variants such as single nucleotide polymorphisms SNPs 15 16 at DBH loci were found to be associated with DBH activity and are well known expression quantitative trait loci Allele variants at two regulatory SNPs namely rs1611115 17 and rs1989787 18 were shown to affect transcription of this gene Mutations identified in dopamine beta hydroxylase deficiency 19 and non synonymous SNPs such as rs6271 in this gene were found to cause defective secretion of the protein from the endoplasmic reticulum 20 Clinical significance editDBH primarily contributes to catecholamine and trace amine biosynthesis It also participates in the metabolism of xenobiotics related to these substances for example the human DBH enzyme catalyzes the beta hydroxylation of amphetamine and para hydroxyamphetamine producing norephedrine and para hydroxynorephedrine respectively 21 22 23 DBH has been implicated as correlating factor in conditions associated with decision making and addictive drugs e g alcoholism 24 and smoking 25 attention deficit hyperactivity disorder 26 schizophrenia 27 and Alzheimer s disease 28 Inadequate DBH is called dopamine beta hydroxylase deficiency The proximal promoter SNPs rs1989787 and rs1611115 were found to be associated with cognition in schizophrenia subjects 29 Further these SNPs rs1989787 rs1611115 and a distal promoter variant 19bp Ins Del rs141116007 were associated with scores of Abnormal Involuntary Movement Scale in Tardive dyskinesia positive schizophrenia subjects 29 Of the three variants the proximal promoter SNP rs1611115 was associated with Positive and Negative Syndrome Scale PANSS scores in Tardive dyskinesia positive schizophrenia subjects 29 The main effect of a putative splice variant in Dopamine beta hydroxylase namely rs1108580 was found to be associated with Working memory Processing speed in a north Indian Schizophrenia case control study where the G G genotype of that single nucleotide polymorphism SNP was found to have lower cognitive scores than those with A A and A G genotypes Furthermore the same SNP was associated with Emotion accuracy in healthy controls 30 Structure edit nbsp Experimental DBH structural model based upon in silico prediction and physiochemical validation 31 It was difficult to obtain a stable crystal of dopamine beta hydroxylase Hence an homology model based on the primary sequence and comparison to PHM is available 31 However a crystal structure was also put forward in 2016 32 Regulation and inhibition editThis protein may use the morpheein model of allosteric regulation 33 Inhibitors edit Types of dopamine beta hydroxylase inhibition clarification needed citation needed HYD a HP b QCA c IQCA d BI e IAA f 1 Competitive Ascorbate Ascorbate Ascorbate Ascorbate Ascorbate AscorbateUncompetitive Tyramine TyramineMixed Tyramine Tyramine Tyramine TyramineAscorbate is cofactor tyramine is substitute for dopamine DBH s namesake substrate hydralazine 2 hydrazinopyridine 2 quinoline carboxylic acid l isoquinolinecarboxylic acid 2 2 biimidazole imidazole 4 acetic acidDBH is inhibited by disulfiram 34 tropolone 35 and most selectively by nepicastat 36 DBH is reversibly inhibited by l 2H Phthalazine hydrazone hydralazine HYD 2 1H pyridinone hydrazone 2 hydrazinopyridine HP 2 quinoline carboxylic acid QCA l isoquinolinecarboxylic acid IQCA 2 2 bi lH imidazole 2 2 biimidazole BI and IH imidazole 4 acetic acid imidazole 4 acetic acid 2 IAA HYD QCA and IAA are allosteric competitive 37 Nomenclature editThe systematic name of this enzyme class is 3 4 dihydroxyphenethylamine ascorbate oxygen oxidoreductase beta hydroxylating Other names in common use include dopamine beta monooxygenase dopamine beta hydroxylase membrane associated dopamine beta monooxygenase MDBH soluble dopamine beta monooxygenase SDBH dopamine B hydroxylase 3 4 dihydroxyphenethylamine beta oxidase 4 2 aminoethyl pyrocatechol beta oxidase dopa beta hydroxylase dopamine beta oxidase dopamine hydroxylase phenylamine beta hydroxylase 3 4 dihydroxyphenethylamine beta mono oxygenaseReferences edit a b c GRCh38 Ensembl release 89 ENSG00000123454 Ensembl May 2017 a b c GRCm38 Ensembl release 89 ENSMUSG00000000889 Ensembl May 2017 Human PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Mouse PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Rush RA Geffen LB 1980 Dopamine beta hydroxylase in health and disease Critical Reviews in Clinical Laboratory Sciences 12 3 241 77 doi 10 3109 10408368009108731 PMID 6998654 a b Kaufman S Bridgers WF Baron J 1968 The Mechanism of Action of Dopamine b Hydroxylase Oxidation of Organic Compounds Advances in Chemistry Vol 77 pp 172 176 doi 10 1021 ba 1968 0077 ch073 ISBN 0 8412 0078 5 Friedman S Kaufman S May 1966 An electron paramagnetic resonance study of 3 4 dihydroxyphenylethylamine beta hydroxylase The Journal of Biological Chemistry 241 10 2256 9 doi 10 1016 S0021 9258 18 96614 7 PMID 4287853 Prigge ST Mains RE Eipper BA Amzel LM August 2000 New insights into copper monooxygenases and peptide amidation structure mechanism and function Cellular and Molecular Life Sciences 57 8 9 1236 59 doi 10 1007 pl00000763 PMID 11028916 S2CID 12738480 Broadley KJ March 2010 The vascular effects of trace amines and amphetamines Pharmacology amp Therapeutics 125 3 363 375 doi 10 1016 j pharmthera 2009 11 005 PMID 19948186 Lindemann L Hoener MC May 2005 A renaissance in trace amines inspired by a novel GPCR family Trends in Pharmacological Sciences 26 5 274 281 doi 10 1016 j tips 2005 03 007 PMID 15860375 Wang X Li J Dong G Yue J February 2014 The endogenous substrates of brain CYP2D European Journal of Pharmacology 724 211 218 doi 10 1016 j ejphar 2013 12 025 PMID 24374199 Nagatsu T Udenfriend S 1972 Photometric Assay of Dopamine b Hydroxylase Activity in Human Blood Clinical Chemistry 18 9 980 983 doi 10 1093 clinchem 18 9 980 PMID 5052101 Punchaichira TJ Deshpande SN Thelma BK 2018 Determination of Dopamine b hydroxylase Activity in Human Serum Using UHPLC PDA Detection Neurochemical Research 43 12 2324 2332 doi 10 1007 s11064 018 2653 1 PMID 30357655 S2CID 53024826 Matsui H Kato T Yamamoto C Fujita K Nagatsu T 1981 Highly sensitive assay for dopamine beta hydroxylase activity in human cerebrospinal fluid by high performance liquid chromatography electrochemical detection properties of the enzyme Journal of Neurochemistry 37 2 289 296 doi 10 1111 j 1471 4159 1981 tb00454 x PMID 7264660 S2CID 42736106 Zabetian CP Anderson GM Buxbaum SG Elston RC Ichinose H Nagatsu T Kim KS Kim CH Malison RT Gelernter J Cubells JF 2001 A quantitative trait analysis of human plasma dopamine beta hydroxylase activity evidence for a major functional polymorphism at the DBH locus American Journal of Human Genetics 68 2 515 22 doi 10 1086 318198 PMC 1235285 PMID 11170900 Punchaichira TJ Prasad S Deshpande SN Thelma BK 2016 Deep sequencing identifies novel regulatory variants in the distal promoter region of the dopamine beta hydroxylase gene Pharmacogenetics and Genomics 26 7 311 23 doi 10 1097 FPC 0000000000000214 PMID 26959714 S2CID 205601803 Chen Y Wen G Rao F Zhang K Wang L Rodriguez Flores JL Sanchez AP Mahata M Taupenot L Sun P Mahata SK Tayo B Schork NJ Ziegler MG Hamilton BA O Connor DT 2010 Human dopamine beta hydroxylase DBH regulatory polymorphism that influences enzymatic activity autonomic function and blood pressure Journal of Hypertension 28 1 76 86 doi 10 1097 HJH 0b013e328332bc87 PMC 2860271 PMID 20009769 Chen Y Zhang K Wen G Rao F Sanchez AP Wang L Rodriguez Flores JL Mahata M Mahata SK Waalen J Ziegler MG Hamilton BA O Connor DT 2011 Human dopamine beta hydroxylase promoter variant alters transcription in chromaffin cells enzyme secretion and blood pressure American Journal of Hypertension 24 1 24 32 doi 10 1038 ajh 2010 186 PMC 4906639 PMID 20814407 Kim CH Leung A Huh YH Yang E Kim DJ Leblanc P Ryu H Kim K Kim DW Garland EM Raj SR Biaggioni I Robertson D Kim KS 2011 Norepinephrine deficiency is caused by combined abnormal mRNA processing and defective protein trafficking of dopamine beta hydroxylase Journal of Biological Chemistry 286 11 9196 204 doi 10 1074 jbc M110 192351 PMC 3059068 PMID 21209083 Punchaichira TJ Dey SK Mukhopadhyay A Kundu S Thelma BK 2017 Characterization of SNPs in the dopamine beta hydroxylase gene providing new insights into its structure function relationship Neurogenetics 18 3 155 168 doi 10 1007 s10048 017 0519 3 PMID 28707163 S2CID 5259134 Glennon RA 2013 Phenylisopropylamine stimulants amphetamine related agents In Lemke TL Williams DA Roche VF Zito W eds Foye s principles of medicinal chemistry 7th ed Philadelphia US Wolters Kluwer Health Lippincott Williams amp Wilkins pp 646 648 ISBN 9781609133450 Retrieved 11 September 2015 The phase 1 metabolism of amphetamine analogs is catalyzed by two systems cytochrome P450 and flavin monooxygenase Amphetamine can also undergo aromatic hydroxylation to p hydroxyamphetamine Subsequent oxidation at the benzylic position by DA b hydroxylase affords p hydroxynorephedrine Alternatively direct oxidation of amphetamine by DA b hydroxylase can afford norephedrine Taylor KB January 1974 Dopamine beta hydroxylase Stereochemical course of the reaction PDF J Biol Chem 249 2 454 458 doi 10 1016 S0021 9258 19 43051 2 PMID 4809526 Retrieved 6 November 2014 Dopamine b hydroxylase catalyzed the removal of the pro R hydrogen atom and the production of 1 norephedrine 2S 1R 2 amino 1 hydroxyl 1 phenylpropane from d amphetamine Horwitz D Alexander RW Lovenberg W Keiser HR May 1973 Human serum dopamine b hydroxylase Relationship to hypertension and sympathetic activity Circ Res 32 5 594 599 doi 10 1161 01 RES 32 5 594 PMID 4713201 Subjects with exceptionally low levels of serum dopamine b hydroxylase activity showed normal cardiovascular function and normal b hydroxylation of an administered synthetic substrate hydroxyamphetamine Mutschler J Abbruzzese E Witt SH Dirican G Nieratschker V Frank J Grosshans M Rietschel M Kiefer F August 2012 Functional polymorphism of the dopamine b hydroxylase gene is associated with increased risk of disulfiram induced adverse effects in alcohol dependent patients Journal of Clinical Psychopharmacology 32 4 578 80 doi 10 1097 jcp 0b013e31825ddbe6 PMID 22760354 Ella E Sato N Nishizawa D Kageyama S Yamada H Kurabe N Ishino K Tao H Tanioka F Nozawa A Renyin C Shinmura K Ikeda K Sugimura H June 2012 Association between dopamine beta hydroxylase rs5320 polymorphism and smoking behaviour in elderly Japanese Journal of Human Genetics 57 6 385 90 doi 10 1038 jhg 2012 40 PMID 22513716 Bhaduri N Sinha S Chattopadhyay A Gangopadhyay PK Singh M Mukhopadhyay KK February 2005 Analysis of polymorphisms in the dopamine beta hydroxylase gene association with attention deficit hyperactivity disorder in Indian children Indian Pediatrics 42 2 123 9 PMID 15767706 Cubells JF Sun X Li W Bonsall RW McGrath JA Avramopoulos D Lasseter VK Wolyniec PS Tang YL Mercer K Pulver AE Elston RC November 2011 Linkage analysis of plasma dopamine b hydroxylase activity in families of patients with schizophrenia Human Genetics 130 5 635 43 doi 10 1007 s00439 011 0989 6 PMC 3193571 PMID 21509519 Combarros O Warden DR Hammond N Cortina Borja M Belbin O Lehmann MG Wilcock GK Brown K Kehoe PG Barber R Coto E Alvarez V Deloukas P Gwilliam R Heun R Kolsch H Mateo I Oulhaj A Arias Vasquez A Schuur M Aulchenko YS Ikram MA Breteler MM van Duijn CM Morgan K Smith AD Lehmann DJ 2010 The dopamine b hydroxylase 1021C T polymorphism is associated with the risk of Alzheimer s disease in the Epistasis Project BMC Medical Genetics 11 161 162 doi 10 1186 1471 2350 11 162 PMC 2994840 PMID 21070631 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unflagged free DOI link a b c Punchaichira TJ Mukhopadhyay A Kukshal P Bhatia T Deshpande SN Thelma BK 2020 Association of regulatory variants of dopamine b hydroxylase with cognition and tardive dyskinesia in schizophrenia subjects Journal of Psychopharmacology 34 3 358 369 doi 10 1177 0269881119895539 PMC 7150076 PMID 31913053 Punchaichira TJ Kukshal P Bhatia T Deshpande SN 2023 Effect of rs1108580 of DBH and rs1006737 of CACNA1C on Cognition and Tardive Dyskinesia in a North Indian Schizophrenia Cohort Molecular Neurobiology doi 10 1007 s12035 023 03496 4 PMID 37493923 a b Kapoor A Shandilya M Kundu S 2011 Structural insight of dopamine b hydroxylase a drug target for complex traits and functional significance of exonic single nucleotide polymorphisms PLOS ONE 6 10 e26509 Bibcode 2011PLoSO 626509K doi 10 1371 journal pone 0026509 PMC 3197665 PMID 22028891 Vendelboe TV Harris P Zhao Y Walter TS Harlos K Omari KE Christensen HM 2016 The crystal structure of human dopamine b hydroxylase at 2 9 A resolution Science Advances 2 4 e1500980 Bibcode 2016SciA 2E0980V doi 10 1126 sciadv 1500980 PMC 4846438 PMID 27152332 Selwood T Jaffe EK March 2012 Dynamic dissociating homo oligomers and the control of protein function Archives of Biochemistry and Biophysics 519 2 131 43 doi 10 1016 j abb 2011 11 020 PMC 3298769 PMID 22182754 Goldstein M Anagnoste B Lauber E Mckeregham MR July 1964 Inhibition of dopamine b hydroxylase by disulfiram Life Sciences 3 7 763 7 doi 10 1016 0024 3205 64 90031 1 PMID 14203977 Goldstein M Lauber E Mckereghan MR July 1964 The inhibitionof dopamine b hydroxylase by tropolone and other chelating agents Biochemical Pharmacology 13 7 1103 6 doi 10 1016 0006 2952 64 90109 1 PMID 14201135 Stanley WC Li B Bonhaus DW Johnson LG Lee K Porter S Walker K Martinez G Eglen RM Whiting RL Hegde SS August 1997 Catecholamine modulatory effects of nepicastat RS 25560 197 a novel potent and selective inhibitor of dopamine beta hydroxylase British Journal of Pharmacology 121 8 1803 9 doi 10 1038 sj bjp 0701315 PMC 1564872 PMID 9283721 Townes S Titone C Rosenberg RC February 1990 Inhibition of dopamine beta hydroxylase by bidentate chelating agents Biochimica et Biophysica Acta BBA Protein Structure and Molecular Enzymology 1037 2 240 7 doi 10 1016 0167 4838 90 90174 E PMID 2306475 Further reading editFriedman S Kaufman S December 1965 3 4 dihydroxyphenylethylamine beta hydroxylase Physical properties copper content and role of copper in the catalytic activity The Journal of Biological Chemistry 240 12 4763 73 doi 10 1016 S0021 9258 18 97021 3 PMID 5846992 Levin EY Levenberg B Kaufman S 1960 The enzymatic conversion of 3 4 dihydroxyphenylethylamine to norepinephrine J Biol Chem 235 7 2080 2086 doi 10 1016 S0021 9258 18 69366 4 PMID 14416204 External links editGeneReviews NIH NCBI UW entry on Dopamine Beta Hydroxylase Deficiency Dopamine beta Hydroxylase at the U S National Library of Medicine Medical Subject Headings MeSH Portal nbsp Biology Retrieved from https en wikipedia org w index php title Dopamine beta hydroxylase amp oldid 1187634640, wikipedia, wiki, book, books, library,

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