PROPERTIES OF PROTEINASE FROMSTREPTOCOCCUS FAECALISVAR.LIQUEFACIENS

Abstract

Bleiweis, ArnoldS. (The Pennsylvania State University, University Park),and Leonard N. Zimmerman. Properties of proteinase fromStreptococcus faecalisvar.liquefaciens. J. Bacteriol.88:653–659. 1964.—The extracellular group D streptococcal proteinase is inactivated by chelating agents [ethylenediamine-tetraacetate (EDTA),o-phenanthroline, and 8-quinolinol] and mercaptans (cysteine, mercaptoethanol, and thioglycolate). The optimal inhibitory concentrations of EDTA (4 × 10⁻⁴m) and cysteine (2.5 × 10⁻²m) promote rapid loss of activity with 50% inactivation after 4 to 5 min. Enzyme inactivated by either EDTA or cysteine is reactivated about 80% by 4 × 10⁻⁴mZn⁺⁺. Such reactivation of EDTA-treated enzyme is prevented completely by iodoacetate (5 × 10⁻²m) and of cysteine-treated enzyme by oxidizing conditions, which suggests that the zinc binding-site may be a thiol. High levels of zinc (10⁻³m) do not allow reactivation in either case, and actually inhibit native proteinase. Ca⁺⁺, Mg⁺⁺, Co⁺⁺, Fe⁺⁺, Cu⁺⁺, and Ni⁺⁺do not reactivate cysteine-treated enzyme, but Mn⁺⁺(10⁻⁴to 8 × 10⁻⁴m) allows 27% reversal. N₂-held, cysteine-treated enzyme can be spontaneously reactivated if the substrate is flushed with O₂during the assay; leakage of air or O₂into the samples before assay leads to loss of reactivatability. Native proteinase does not lose activity after dialysis for 43 hr against 0.07mphosphate buffer. It is concluded that the group D proteinase obtained fromStreptococcus faecalisvar.liquefaciensis probably a zinc metalloenzyme that is unlike the thiol-activated, group A streptococcal proteinase, but similar to the mammalian carboxypeptidase A.