Histidine décarboxylase
The enzyme histidine decarboxylase (, HDC) is transcribed on chromosome 15, region q21.1-21.2, and catalyzes the decarboxylation of histidine to form histamine. In mammals, histamine is an important biogenic amine with regulatory roles in neurotransmission, gastric acid secretion and immune response. Histidine decarboxylase is the sole member of the histamine synthesis pathway, producing histamine in a one-step reaction. Histamine cannot be generated by any other known enzyme. HDC is therefore the primary source of histamine in most mammals and eukaryotes. The enzyme employs a pyridoxal 5'-phosphate (PLP) cofactor, in similarity to many amino acid decarboxylases. Eukaryotes, as well as gram-negative bacteria share a common HDC, while gram-positive bacteria employ an evolutionarily unrelated pyruvoyl-dependent HDC. In humans, histidine decarboxylase is encoded by the HDC gene. Histidine decarboxylase is a group II pyridoxal-dependent decarboxylase, along with aromatic-L-amino-acid decarboxylase, and tyrosine decarboxylase. HDC is expressed as a 74 kDa polypeptide which is not enzymatically functional. Only after post-translational processing does the enzyme become active. This processing consists of truncating much of the protein's C-terminal chain, reducing the peptide molecular weight to 54 kDa. Histidine decarboxylase exists as a homodimer, with several amino acids from the respective opposing chain stabilizing the HDC active site. In HDC's resting state, PLP is covalently bound in a Schiff base to lysine 305, and stabilized by several hydrogen bonds to nearby amino acids aspartate 273, serine 151 and the opposing chain's serine 354. HDC contains several regions that are sequentially and structurally similar to those in a number of other pyridoxal-dependent decarboxylases. This is particularly evident in the vicinity of the active site lysine 305. HDC decarboxylates histidine through the use of a PLP cofactor initially bound in a Schiff base to lysine 305. Histidine initiates the reaction by displacing lysine 305 and forming an aldimine with PLP.