SPECIFICITY OF 2 GENETICALLY RELATED CELL-ENVELOPE PROTEINASES OF LACTOCOCCUS-LACTIS SUBSP CREMORIS TOWARDS ALPHA-S1-CASEIN-(1-23)-FRAGMENT

The specificity of two genetically related cell-envelope serine proteinases (P(I)-type and P(III)-type) of Lactococcus lactis subsp. cremoris towards the alpha-s1-casein-(1-23)-fragment, an important intermediate product of primary chymosin-directed proteolysis in cheese, has been established. Both enzymes showed, at pH 6.5 and under relatively low-ionic-strength conditions, a characteristic, mutually different, cleavage pattern that seems, in the first instance, to be determined by the charge N-terminal to the cleaved bond. With P(I), three cleavage sites were found in the N-terminal positively charged part of the peptide and, with P(III), three sites were found in the C-terminal negatively charged part. Comparison of the specific cleavage sites in this peptide and those in beta-casein revealed similarities with respect to the different residues which can occur N-terminally to the cleaved bond. The properties of these substrate residues match with the structural and various interactive features of the respective binding regions of the enzymes predicted on the basis of a close sequence similarity of the lactococcal proteinases with the subtilisin family. A hydrophobic interaction and/or hydrogen-bridge formation seems to govern the binding of the first amino acid residue N-terminal to the scissile bond. The more distantly N-terminally positioned sequence of residues apparently is attracted electrostatically by a negative charge in the binding region of P(I) and by a positive charge in that of P(III), provided that the opposite charge is present at the appropriate position in this sequence. Hence a specific electrostatic binding may occur; additionally, hydrophobic interaction and/or hydrogen-bond formation is important.