Catalytic activity of thermolysin under extremes of pressure and temperature: modulation by metal ions.

The catalytic activity of thermolysin (TL), a Zn-dependent neutral protease from Bacillus thermoproteolyticus, has been studied over a wide interval of pressures (1 bar to 4 kbar) and temperatures (20 degreesC to 80 degreesC) by monitoring hydrolysis of a low-molecular-mass substrate, 3-(2-furylacryloyl)-glycyl-L-leucine amide. This reaction shows a very large negative value for the activation volume and, because of that, simultaneous increase in temperature and pressure leads to a significant (up to 40-fold) acceleration of the reaction. At pressures higher than 2-2.5 kbar, the reaction rate starts to decrease due to disactivation of TL. This disactivation is explained in part by pressure-promoted dissociation of zinc ion from the active site and can be inhibited by adding exogenous zinc. Thus, this thermostable protease does not specifically show a higher stability at high pressure in comparison with small mesophilic proteases.