Modification of Arginine-198 in Sarcoplasmic Reticulum Ca2+-ATPase by 1,2-Cyclohexanedione Causes Inhibition of Formation of the Phosphoenzyme Intermediate from Inorganic Phosphate

Tomoyuki Saino,Takashi Daiho,Tohru Kanazawa

doi:10.1074/jbc.272.34.21142

Tomoyuki Saino, Takashi Daiho + Show 1 more

Open Access

https://doi.org/10.1074/jbc.272.34.21142

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Abstract

Sarcoplasmic reticulum vesicles were modified with 1,2-cyclohexanedione (CHD), a specific arginine-modifying reagent, in sodium borate (pH 8.0 or 8.8). Phosphoenzyme formation from Pi in the Ca2+-ATPase (reversal of hydrolysis of the phosphoenzyme intermediate) was almost completely inhibited by the modification with CHD. Tight binding of F- and Mg2+ and high affinity binding of vanadate in the presence of Mg2+, either of which produces a transition state analog for phosphoenzyme formation from the magnesium-enzyme-phosphate complex, were also markedly inhibited. In contrast, phosphoenzyme formation from acetyl phosphate in the forward reaction was unaffected. The enzyme was appreciably protected by tight binding of F- and Mg2+ or by high affinity binding of vanadate in the presence of Mg2+, but not by the presence of 20 mM MgCl2 alone or 150 mM Pi alone, against the CHD-induced inhibition of phosphoenzyme formation from Pi. Peptide mapping of the tryptic digests, detection of peptides containing CHD-modified arginyl residues with Girard's reagent T, sequencing, and mass spectrometry showed that Arg-198 was a single major residue protected by tight binding of F- and Mg2+ against the modification with CHD. These results indicate that modification of Arg-198 with CHD is responsible for at least a part (the portion reduced by the transition state analogs) of the CHD-induced inhibition of phosphoenzyme formation from Pi and suggest that Arg-198 is located in or close to the catalytic site in the transition state for phosphoenzyme formation from the magnesium-enzyme-phosphate complex.

Highlights

We have further shown that EP formation from Pi has been inhibited by the modification with CHD and suggested that the arginyl residue(s) involved in this inhibition is distinct from the above residues
Peptide mapping of tryptic digests of the CHD-modified enzyme, sequencing, and mass spectrometry have shown that Arg-198 is a single major residue protected by tight binding of FϪ and Mg2ϩ against the modification with CHD
The results indicate that modification of Arg-198 with CHD is responsible for at least a part of the inhibition of EP formation from Pi and suggest that Arg-198 is located in or close to the catalytic site in the transition state for EP formation from the magnesium-enzyme-phosphate complex

Summary

Introduction

The EP can be formed from Pi in the presence of Mg2ϩ and absence of Ca2ϩ by reversal of the late step of the catalytic cycle [12, 13] This EP formation occurs through a magnesium-enzyme-phosphate complex that is formed by random binding of Mg2ϩ and Pi to the enzyme [14, 15]. We have further shown that EP formation from Pi has been inhibited by the modification with CHD and suggested that the arginyl residue(s) involved in this inhibition is distinct from the above residues It was previously shown (18 –20) that FϪ and Mg2ϩ bind simultaneously and tightly to the catalytic site of this enzyme to form a stable transition state analog for EP formation from the magnesium-enzyme-phosphate complex. The results indicate that modification of Arg-198 with CHD is responsible for at least a part (the portion reduced by the transition state analogs) of the inhibition of EP formation from Pi and suggest that Arg-198 is located in or close to the catalytic site in the transition state for EP formation from the magnesium-enzyme-phosphate complex

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