Yasuo Tano

Tautomerism of histidine 64 associated with proton transfer in catalysis of carbonic anhydrase.

The imidazole 15N signals of histidine 64 (His64), involved in the catalytic function of human carbonic anhydrase II (hCAII), were assigned unambiguously. This was accomplished by incorporating the labeled histidine as probes for solution NMR analysis, with 15N at ring-Nδ1 and Nϵ2, 13Cat ring-Cϵ1, 13C and 15N at all carbon and nitrogen, or 15N at the amide nitrogen and the labeled glycine with 13C at the carbonyl carbon. Using the pH dependence of ring-15N signals and a comparison between experimental and simulated curves, we determined that the tautomeric equilibrium constant (KT) of His64 is 1.0, which differs from that of other histidine residues. This unique value characterizes the imidazole nitrogen atoms of His64 as both a general acid (a) and base (b): its ϵ2-nitrogen as (a) releases one proton into the bulk, whereas itsδ1-nitrogen as (b) extracts another proton from a water molecule within the water bridge coupling to the zinc-bound water inside the cave. This accelerates the generation of zinc-bound hydroxide to react with the carbon dioxide. Releasing the productive bicarbonate ion from the inside separates the water bridge pathway, in which the next water molecules move into beside zinc ion. A new water molecule is supplied from the bulk to near the δ1-nitrogen of His64. These reconstitute the water bridge. Based on these features, we suggest here a catalytic mechanism for hCAII: the tautomerization of His64 can mediate the transfers of both protons and water molecules at a neutral pH with high efficiency, requiring no time- or energy-consuming processes.