RGD Reference Report - Two polymorphic forms of human histamine methyltransferase: structural, thermal, and kinetic comparisons. - Rat Genome Database

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Two polymorphic forms of human histamine methyltransferase: structural, thermal, and kinetic comparisons.

Authors: Horton, JR  Sawada, K  Nishibori, M  Zhang, X  Cheng, X 
Citation: Horton JR, etal., Structure (Camb) 2001 Sep;9(9):837-49.
RGD ID: 1359041
Pubmed: PMID:11566133   (View Abstract at PubMed)
PMCID: PMC4030376   (View Article at PubMed Central)

BACKGROUND: Histamine plays important biological roles in cell-to-cell communication; it is a mediator in allergic responses, a regulator of gastric acid secretion, a messenger in bronchial asthma, and a neurotransmitter in the central nervous system. Histamine acts by binding to histamine receptors, and its local action is terminated primarily by methylation. Human histamine N-methyltransferase (HNMT) has a common polymorphism at residue 105 that correlates with the high- (Thr) and low- (Ile) activity phenotypes. RESULTS: Two ternary structures of human HNMT have been determined: the Thr105 variant complexed with its substrate histamine and reaction product AdoHcy and the Ile105 variant complexed with an inhibitor (quinacrine) and AdoHcy. Our steady-state kinetic data indicate that the recombinant Ile105 variant shows 1.8- and 1.3-fold increases in the apparent K(M) for AdoMet and histamine, respectively, and slightly (16%) but consistently lower specific activity as compared to that of the Thr105 variant. These differences hold over a temperature range of 25 degrees C-45 degrees C in vitro. Only at a temperature of 50 degrees C or higher is the Ile105 variant more thermolabile than the Thr105 enzyme. CONCLUSIONS: HNMT has a 2 domain structure including a consensus AdoMet binding domain, where the residue 105 is located on the surface, consistent with the kinetic data that the polymorphism does not affect overall protein stability at physiological temperatures but lowers K(M) values for AdoMet and histamine. The interactions between HNMT and quinacrine provide the first structural insights into a large group of pharmacologic HNMT inhibitors and their mechanisms of inhibition.



Molecular Pathway Annotations    Click to see Annotation Detail View

RGD Manual Annotations


  
Object SymbolSpeciesTermQualifierEvidenceWithNotesSourceOriginal Reference(s)
HNMTHumanhomocysteine metabolic pathway   TAS  RGD 
HnmtRathomocysteine metabolic pathway   ISS  RGD 
HNMTHumanmethionine cycle/metabolic pathway   TAS  RGD 
HnmtRatmethionine cycle/metabolic pathway   ISS  RGD 
Objects Annotated

Genes (Rattus norvegicus)
Hnmt  (histamine N-methyltransferase)

Genes (Homo sapiens)
HNMT  (histamine N-methyltransferase)


Additional Information