The ability of laccases to work effectively in properly selected aqueous-organic solutions significantly expands the scope of their application, making them commercially attractive and more competitive. However, it must be considered that molecules of organic solvent are very aggressive towards enzymes and destroy weak non-covalent interactions that maintain the spatial structure of the protein. In this work, we quantitatively described the influence of the nature of water-miscible organic solvents and their concentration on the activity and stability of Trametes versicolor laccase during the oxidation of ABTS (2,2-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid)) through the maximum rates and the Michaelis constants KM. The obtained kinetic parameters make it possible to compare the effect of various organic solvents on laccase and select the most optimal one, which minimizes the decrease in enzyme activity, maintains its stability and allows repeated use. Among the solvents studied, polyhydroxy compounds have the least negative effect on laccase activity; however, in all cases, a high concentration of organic solvent (≥30% (v/v)) leads to suppression of enzymatic activity. It has been shown that the longer the alkyl chain (hydrophobic fragment of the structure), the stronger the negative effect of alcohols on enzymes. The most toxic solvent for Trametes versicolor laccase is isopropanol. In addition, numerous examples of various uses of Trametes versicolor in aquatic-organic environments are discussed here.