Purification and characterization of three separate bacteriolytic enzymes excreted by Staphylococcus aureus, Staphylococcus simulans, and Staphylococcus saprophyticus.

AUTOR(ES)

Valisena, S

RESUMO

As a further development of previous investigations showing that different staphylococcal species display different bacteriolytic activity patterns (lyogroups), the bacteriolytic enzymes excreted by three different Staphylococcus species, Staphylococcus aureus (lyogroup I), S. simulans (lyogroup II), and S. saprophyticus (lyogroup IV); have been purified and characterized. A representative strain from each species was grown in a preselected medium made of fully dialyzable products. Culture supernatants were collected in the appropriate growth phase. Two different affinity adsorbents were used for enzyme purification. One was obtained by coupling lysozyme-digested pure peptidoglycan from Micrococcus luteus to cyanogen bromide-activated Sepharose 4B. The second affinity adsorbent used was chitin. The S. aureus bacteriolytic enzyme bound to the solubilized peptidoglycan but not to chitin, whereas the opposite was true for the S. simulans enzyme. The bacteriolytic enzyme from S. saprophyticus did not bind to either the Sepharose 4B-peptidoglycan resin or to chitin, and its purification was achieved by two ion-exchange chromatography steps combined with gel filtration. All three enzymes were purified to apparent homogeneity. Their subsequent characterization indicated that all acted as endo-beta-N-acetylglucosaminidases. However, the three glucosaminidases differed significantly in their kinetics of activity and bacteriolytic spectrum against heat-killed cells of a variety of microorganisms. Very different values also resulted from molecular weight determinations: 80,000 for the S. aureus enzyme, 45,000 for the S. simulans enzyme, and 31,000 for the S. saprophyticus enzyme. Other important differences were observed in their stability, optimal pH and ionic strength for their activity, and their responses to temperature and divalent cations. These results confirmed the previous proposal that different staphylococcal species excrete different lytic enzymes.

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