Interactions of active-site residues and catalytic activity of human carbonic anhydrase III.

C Tu,X Chen,X Ren,P.V Lograsso,D.A Jewell,P.J Laipis,D.N Silverman

doi:10.1016/s0021-9258(17)31610-1

Abstract

To elucidate the interactions between residues found in the active-site cavity of human carbonic anhydrase III, we have prepared a series of single and double mutants with Lys-64, Arg-67, and Phe-198 replaced with Ala, Asp, Glu, His, and Leu. Rates of catalysis were determined using 18O exchange between CO2 and water measured by mass spectrometry and initial velocity measured by stopped-flow spectrophotometry. Replacement of these residues resulted in increases in kcat/Km for CO2 hydration as much as 200-fold and increases in the pKa of the zinc-bound water by as much as 3.5 units. We conclude that the effect of replacements made at positions 64, 67, and 198 were in general additive for kcat/Km for CO2 hydration, indicating that there is no interaction between these sites that affects the catalytic interconversion of CO2 and HCO3-. One notable exception is the antagonism exhibited by the double mutant of human carbonic anhydrase III containing Glu-64 and Leu-198. The data also show that one source of the large enhancement of kcat/Km for the mutant containing Asp-198 in human carbonic anhydrase III is the presence of both Asp-198 and Lys-64; when Lys-64 was replaced with Ala, a reduction of catalytic activity was observed. These results provide an additional view of the independent interactions of amino acids that affect the catalytic pathway of isozyme III, the least active of the known carbonic anhydrase isozymes.

Highlights

From the Department of Pharmacology and Therapeutics, lpepartment of Biochemistry and Molecular Biology, University of Florida College of Medicine, Gainesville, Florida 32610-0267
LoGrasso et al (1991) have determined that catalysis of CO, hydration is enhanced in site-directed mutants in which the residues a t 64, 67, and 198 in HCA I11 are replaced with the corresponding residues found in isozyme 11; this enhancement is as great as 50-fold for thereplacement Phe-198 + Leu
Measurement of Catalysis a t Steady StateStopped-flow spectrophoobserved for HCA I1and I11 (Simonsson et al, 1979; Silverman et al, 1979;Jewel1et al., 1991)

Summary

THE JOURNOAFLBIOLCOICHAELMISTRY

Vol 269, No 37, Iasue of September 16, pp. 23002-23006, 1994 Printed in U.S.A. Interactions ofActive-site Residuesand Catalytic Activityof Human Carbonic Anhydrase III*. LoGrasso et al (1991) have determined that catalysis of CO, hydration is enhanced in site-directed mutants in which the residues a t 64, 67, and 198 in HCA I11 are replaced with the corresponding residues found in isozyme 11; this enhancement is as great as 50-fold for thereplacement Phe-198 + Leu. tion between these sites thataffects the catalytic inter- Interestingly, the mirror mutants of HCA I1 do not have an conversion of CO, and HCO;. The values of KZF were large compared with these concentrations of CO, This is expected for the very weak binding ofCO, to carbonic anhydrase and has been measured recently for HCAI1by infrared spectroscopy which determined an equilibrium dissociation constanftor CO, near 100 mM (Krebs et al.993).

RESULTS

Antagonistic Antagonistic Antagonistic

Findings

DISCUSSION