Peptide synthesis using proteases dissolved in organic solvents

Organic solvent-soluble a-chymotrypsin (CTI and subtilisin Carlsberg (SC) are effective catalysts for peptide synthesis in homogeneous organic solutions. The soluble enzymes have values of k(cat)/K-m for the reaction of N-Bz-L-Tyr-OEt with L-Leu-NH2 to yield the dipeptide N-Bz-L-Tyr-Leu-NH2 that are over 3 orders of magnitude higher than their suspended counterparts in isooctane (containing 30% (v/v) tetrahydrofuran (THF) to aid in substrate solubility). Both enzymes are substantially more active in hydrophobic organic solvents than hy drophilic solvents. Adding small concentrations of water (<0.2% and 1% (v/v) in isooctane-THF and ethyl acetate, respectively) results in up to a 150-fold activation of alpha-chymotrypsin-catalyzed peptide synthesis. Importantly, added water does not promote hydrolysis in either isooctane-THF or ethyl acetate; thus, alpha-chymotrypsin is highly selective toward peptide synthesis in the nearly anhydrous organic solutions. Unlike CT, the activation of subtilisin Carlsberg upon partial hydration of isooctane-THF or ethyl acetate was not significant and actually resulted in substantial hydrolysis. Using oc-chymotrypsin, a variety of tripeptides were produced from dipeptide amino acid esters. Reactivity of D-amino acid amides as acyl accepters and partially unblocked amino acid acyl donors further expands the generality of the use of organic solvent-soluble enzymes as peptide synthesis catalysts. (C) 1997 by Elsevier Science Inc.