Characterization of a kinin inactivating serine endopeptidase H2 (kininase) from human urine using fluorogenic substrates.

We have previously described a kinin-inactivating endopeptidase (H2), which was purified 19-fold from human urine by DEAE-cellulose chromatography and gel filtration. The enzyme was inhibited 100% by PMSF, TPCK and pOHMB. In the present communication, we further characterized this enzyme using the fluorogenic substrates Abz-RPPGFSPFRQ-EDDnp (Abz-BKQ-EDDnp) and Abz-FRQ-EDDnp (Abz = ortho-aminobenzoic acid; EDDnp = N-[2,4-dinitrophenyl] ethylenediamine). Also a rapid, sensitive and specific assay for the H2 was developed. The enzyme hydrolyzed bradykinin (BK = RPPGFSPFR) at the F-S peptide bond, differing from the cleavage site F-R, in the fluorogenic substrates Abz-BKQ-EDDnp and Abz-FRQ-EDDnp. Other enzymes present in urine as the serine endopeptidase H1, prolyl endopeptidase and neutral endopeptidase-like were not able to hydrolyze the related substrate Abz-FRQ-EDDnp. The determined Km for Abz-BKQ-EDDnp and Abz-FRQ-EDDnp were 0.79 microM and 3.02 microM, respectively. Using the fluorogenic substrates, we observed that PMSF and p-hydroxymercuribenzoate irreversibly inhibited the enzyme H2. E-64 was a weak and reversible inhibitor, whereas EDTA and pepstatin were not inhibitory. The inhibition observed in the presence of pOHMB was partially reversed by 2 mM cysteine. These results suggest that the H2 enzyme belongs to the subfamily of SH-containing serine proteases. Based on the molecular weight of isolated H2 (60 kDa), we believe that this enzyme originated from the kidney and may cleave the kinins filtered through the glomerulus and also that produced in the kidney.

Further characterization of endopeptidase H2 a serine proteinase from human urine.

A human urine serine proteinase chymotrypsin like hydrolyzes the peptide bonds: Phe-Ser (kinin); Gly-Gly, Leu-Arg, Phe-Lys (neuropeptides) and Gln-Gln (substance P). Endopeptidase H2 hydrolyzes better oligopeptides with 4 to 18 aminoacid residues than larger peptides, it does not hydrolyzes kininogen or proenkephalin. The enzyme behaves as an oligoendopeptidase.

Endopeptidase and carboxypeptidase activities in human urine which hydrolyze bradykinin.

1. We have fractionated the bradykinin inactivating activity of human urine by stepwise elution chromatography on DEAE-cellulose and recovered 95% of the inactivating activity and 29% of the protein (absorbance at A280 nm). 2. Seven of nine fractions which presented activity were also tested for angiotensin I and II inactivating activity, angiotensin converting activity and for the hydrolysis of hippuryl-His-Leu and hippuryl-Arg. Sites of hydrolysis in bradykinin were determined by HPLC of the hydrolysates and fragments were compared with authentic peptides. 3. Cleavage sites demonstrated for Fractions A through G were: Phe8-Arg9 (A and B), Phe5-Ser6 (C and F), Pro7-Phe8 (D), Gly4-Phe5 and Pro7-Phe8 (E) and Pro3-Gly4 (G). 4. The relative molecular weight of the bradykininase activity present in each fraction, determined by gel filtration, was: 16 kDa (A), 70 kDa (B), 60 kDa (C), 88 kDa (D), 230 kDa (E), 45 kDa (F) and 49 kDa (G). 5. Bradykinin inactivating activity was inhibited 50-100% by 3 mMEDTA (A, B, D, E and G), 1 mMM 2-mercaptoethanol (A, B, C and G), 0.1 microM Hg2+ (A, C and G), 0.1 mM PMSF (C and F), 1 mM TPCK (C and F), 1 mM Zn2+ (C), 60 microM BPP5a and 40 microM BPP9a (D), 0.1 microM phosphoramidon (E) and 3 mM sodium p-hydroxymercuribenzoate (G). 6. The properties of some of these bradykinin inactivating activities correspond to enzymes previously described in urine and tissues: carboxypeptidases (Fractions A and B), angiotensin I converting enzyme (Fraction D), neutral endopeptidase (Fraction E). However, the chymotrypsin-like activity of Fractions C and F and the prolylendopeptidase activity of Fraction G have not been described before in urine and they are being purified in order to obtain a more accurate characterization.