Abstract

The historical model for the agonistic binding site on the histamine H 2-receptor is based on a postulated activation mechanism: it has been suggested that the histamine monocation binds to the histamine H 2-receptor via the formation of three hydrogen bonds. The cationic ammonium group in the side chain and the —NH— group in the π-position of the imidazole act as proton donors, whereas the N— atom in the π-position of the imidazole acts as a proton acceptor. Participation of the ammonium group in H-bonding with a presumed negative charge on the receptor leads to a decrease in positive charge, which is thought to induce a tautomeric change in the imidazole ring system from N τ-H to N π-H. A consequence of this tautomeric shift is the donation of a proton from the receptor to the agonist on one side, while on the other side a proton is donated from the agonist to the receptor. The proposed tautomeric shift has been suggested to trigger the H 2-stimulating effect. However, this model for the constitution of the agonistic binding site and the accessory activation mechanism cannot explain the weak histamine H 2-activity of β-histine and the activity of several other recently synthesized H 2-agonists. Based on a thorough literature study and with the aid of molecular electrostatic potentials (MEPs) we demonstrate that the sulphur atom present in histamine H 2-agonists as dimaprit and 2-amino-5-(2-aminoethyl)thiazole does not function as a proton acceptor, which implicitly means that a tautomeric shift is not a prerequisite for H 2-stimulation. As a consequence, the model for the agonistic binding site is adjusted, resulting in a strong resemblance to the nature and orientation of the amino acids constituting the catalytic triad in serine proteases. Within this concept, the N π-H tautomer of histamine is the biologically active form, in contrast with the existing model in which the N τ-H tautomer is the active form.

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