Human tissue kallikrein. I. Isolation and characterization of human pancreatic kallikrein from duodenal juice

Human pancreatic kallikrein was purified from duodenal juice by ion exchange chromatography on DEAE-Sepharose and immunoaffinity chromatography. Thus, an enzyme preparation with a specific activity (using Ac-Phe-Arg-OEt as substrate) of 1 000 U/mg protein was obtained. A specific biological activity of 1310 KE/mg protein was measured in the dog blood pressure assay and of 0.361 HMW kininogen-U/mg, corresponding to the liberation of 383 micrograms bradykinin-equivalents per mg enzyme per min from HMW kininogen in the rat uterus assay. In dodecyl sulfate gel electrophoresis one protein band corresponding to a molecular mass of 27 kDa was obtained. Using gel filtration on Ultrogel AcA-44 a molecular mass of 40 kDa was measured. The amino-acid composition was determined and isoleucine and alanine were identified as the only N-terminal amino-acid residues. On isoelectric focusing four protein bands with isoelectric points of 5.60, 5.65, 5.70 and 5.85 were separated. The bimolecular velocity constant for the inhibition by diisopropyl fluoro phosphate was determined as 10.5 l x mol-1 x min-1. The dissociation constant Ki of the human pancreatic kallikrein-aprotinin complex was calculated to be 1.5 x 10(-10)M. The kinetic constants for the kallikrein-catalysed hydrolysis of Ac-Phe-Arg-OEt and D Val-Leu-Arg-Nan were determined. Immunological studies showed a close relationship between the human pancreatic kallikrein and other human tissue kallikreins, especially with human urinary kallikrein. Detergents such as Triton X-100, Tween 20 and lysolecithin, as well as human serum albumin, activated the human pancreatic kallikrein preparation.     

Similarity between a kininogenase (kallikrein) from human large intestine and human urinary kallikrein.

A human colon kininogenase (kallikrein) was isolated by gel filtration on Sephacryl S-200 and affinity chromatography on Trasylolbound Sepharose, yielding a material with a specific activity of 1.3 U/mg (substrate: AcPheArgOEt). The molecular weight of the enzyme as estimated by gel filtration is approximately 70 000. After reduction with mercaptoethanol two bands were obtained in dodecyl sulfate eletrophoresis with molecular weights of 27 000 and 70 000. The bimolecular velocity constant for the inhibition by diisopropyl fluorophosphate was determined as 4 l x mol-1 x min-1. The preparation was characterized by immunological and enzymatic methods. Using the radioimmumoassay for human urinary kallikrein cross-reactivity and parallel binding curves were obtained. Kinin liberation from human high Mr-kininogen was totally inhibited by antibodies directed against human urinary kallikrein. Trasylol and diisopropyl fluorophosphate, but not by antibodies directed against human trypsin and plasma kallikrein. The effect on dog blood pressure was comparable to that obtained with human urinary kallikrein. The amino acid composition of human large intestine kallikrein is very similar to that of human urinary kallikrein.     

Effect of covalent binding of aprotinin with a polysaccharide carrier on its inhibition of kallikrein from human plasma, porcine pancreatic kallikrein and trypsin

The inhibition of trypsin, human blood plasma kallikrein and porcine pancreatic kallikrein by aprotinin (native and immobilized on carboxymethyl ester of dextran) was investigated. The experimental values of Ki of native and immobilized aprotinin--enzyme complexes are equal to 0.037 and 0.045 nM for trypsin, 0.38 and 112.3 nM for pancreatic kallikrein and 34.4 and 454.5 nM for plasma kallikrein with N alpha-benzoyl-L-arginine ethyl ester as substrate, and to 82.6 and 231.7 nM for plasma kallikrein with a natural substrate--kininogen. These data suggest that covalent binding of aprotinin to the water-soluble polysaccharide carrier does not interfere with its interaction with trypsin, whereas the inhibition of kallikreins decreases, especially that of pancreatic kallikrein. The experimental results indicate the marked differences in the structure of the binding site of the active center (or its environment) of plasma and pancreatic kallikreins, on one hand, and trypsin, on the other, as well as the differences between the plasma and pancreatic kallikreins. A high requirement of kallikreins to the maintenance of the native conformation of aprotinin during immobilization is postulated.     

The purification of kallikrein from human whole saliva

• 1.1. A quick and simple procedure is described for purifying kallikrein from human whole saliva. The enzyme has been purified about 2700-fold with a yield of approx. 30%.
• 2.2. The procedure is based on the immediate fractionation of saliva by ion exchange chromatography. This is followed by a combination of affinity and high performance liquid chromatography.
• 3.3. The results indicate that another protein component binds to the enzyme at pH 8.0.
• 4.4. The homogeneity of the enzyme has been demonstrated by gel electrophoresis in the absence as well as in the presence of sodium dodecylsulfate.
• 5.5. A mol. wt of 40,100±1800 has been calculated from gel electrophores is experiments.
• 6.6. Sedimentation equilibrium in an analytical ultracentrifuge gave a mol. wt of 39,700.
• 7.7. The amino acid composition has been determined and it confirms that the enzyme has a low isoelectric point.
• 8.8. The presence of tryptophan has been demonstrated by absorption and fluorescence spectroscopy.

     

Purification and characterization of a kallikrein from human submaxillary glands

A tissue kallikrein was purified over 1500-fold from the postmicrosomal supernatant of human submaxillary glands. The purified enzyme gave a single band, corresponding to an apparent molecular weight of 42,000 on SDS-polyacrylamide gel electrophoresis. This enzyme cross-reacted with the anti-human urinary kallikrein antiserum. The purified enzyme was characterized in comparison with the purest human urinary kallikrein preparation. Both enzymes hydrolyzed the synthetic substrate, Ac-Phe-Arg-OMe, most effectively. Aprotinin, TLCK, and PMSF suppressed the enzyme activities, while SBTI, LBTI, and alpha 1-antitrypsin had no effect at all. The purified enzyme generated kinin from the natural substrate, kininogen. It was concluded therefore that the purified enzyme is a typical tissue kallikrein.     

Plasmin and kallikrein reduce HDL-induced cholesterol efflux from foam cells

Arterial intima contains metabolically active factors such as proteases, which may act on high-density lipoprotein (HDL) and impair its ability to accept cholesterol. In this study we treated human HDL(3) with human plasmin and human plasma kallikrein, two proteases also found in the human arterial intima, in order to study their effect on the ability of HDL(3) to promote cholesterol efflux from human macrophage foam cells. After exposure to plasmin or plasma kallikrein for 15 min, HDL(3) showed a decrease of about 60% in its ability to promote cholesterol efflux from the macrophage foam cells. SDS-PAGE analysis of the degraded HDL(3) particles showed that plasmin had generated cleavage products less than 15 kDa in size and plasma kallikrein had generated a major product of about 19 kDa. However, there was only a slight loss of intact apolipoproteins, suggesting degradation of a small subpopulation of HDL(3) particles. Agarose gel electrophoresis showed that a decrease in cholesterol efflux was accompanied by total loss of the HDL(3) with prebeta-mobility, but no apparent change in those with alpha mobility. These results suggest that the presence of active plasmin or plasma kallikrein in the atherosclerotic arterial intima promotes atherogenesis by blocking cholesterol efflux from macrophage foam cells.     

Characterization and purification of a kallikrein from human pancreatic juice and immunological comparison with other kallikreins.

A prekallikrein has been demonstrated in human pancreatic juice and the active enzyme has been purified from this material. The purification procedure included filtration on Sephadex G-100, chromatography on DEAE-cellulose and affinity chromatography on trypsin-inhibitor Sepharose. The purified kallikrein appeared to be homogeneous by polyacrylamide gel electrophoresis at pH 8.3 and by immunoelectrophoresis. Human pancreatic kallikrein is immunologically different from human plasma kallikrein and from pancreatic kallikreins of other species (hog, cat, rat and dog). Human pancreatic kallikrein has common antigenic determinants with human urinary and submandibular kallikreins but probably not with parotid kallikrein.     

Human tissue kallikrein. II. Isolation and characterization of human salivary kallikrein

Human salivary kallikrein was isolated from saliva using affinity chromatography on aprotinin-Sepharose and anti-human urinary kallikrein IgG-Sepharose followed by ion exchange chromatography on DEAE-Sepharose. The enzyme preparation had a specific activity of 950 U/mg protein towards the synthetic substrate Ac-Phe-Arg-OEt, a specific biological activity of 2000 KE/mg protein (measured in the dog blood pressure assay) and 0.64 HMW-kininogen-U/mg, corresponding to the liberation of 679 micrograms bradykinin equivalents per mg enzyme per min from HMW-kininogen (using the rat uterus test). In sodium dodecyl sulfate gel electrophoresis one protein band corresponding to a molecular mass of 32 kDa was obtained. The amino-acid composition was determined and isoleucin was found as the only N-terminal residue. The bimolecular velocity constant for the inhibition by diisopropyl fluorophosphate was determined as 8 l x mol-1 x min-1. The dissociation constant Ki of the human salivary kallikrein-aprotinin complex was calculated to be 0.7 x 10(-10)M. The Km and Vmax values for the hydrolysis of the synthetic substrates Ac-Phe-Arg-OEt and D Val-Leu-Arg-Nan were determined. In the enzyme immunoassay for human urinary kallikrein parallel binding curves were obtained.     

Immunological identification of rat tissue kallikrein cDNA and characterization of the kallikrein gene family

A tissue kallikrein cDNA was identified by direct immunological screening with affinity-purified anti-rat tissue kallikrein antibody from a rat submandibular cDNA library constructed with the expression vector pUC8. Sequence analysis of the kallikrein cDNA revealed an encoded protein 97% homologous to the partial amino acid sequence of rat submandibular kallikrein. This cDNA was used to hybrid-select kallikrein-specific RNA from submandibular gland. Translation of the hybrid-selected RNA in a cell-free assay system resulted in the production of a 37 kDa peptide representing the preproenzyme. In addition, hybrid-selection of RNA under less stringent conditions showed cross-hybridization with other submandibular gland mRNA species. In correlation with these results, analysis of rat genomic DNA showed extensive hybridization, suggesting a family of closely related kallikrein-like genes. Consequently, a Charon 4A rat genomic library was screened for kallikrein genes by hybridization with rat tissue kallikrein cDNA. Thirty-four clones were isolated and found to be highly homologous by hybridization and restriction enzymes analyses. Fourteen unique clones were identified by restriction enzyme site polymorphisms within DNA segments which hybridized to the kallikrein cDNA probe and it was estimated that at least 17 different kallikrein-like genes are present in the rat. Sequence and structural analysis of one of the genomic clones revealed a gene structure similar to that of other serine proteinases. Comparison of the partially sequenced exon regions of the gene with the sequence of rat tissue kallikrein cDNA reveals 89% identity when aligned for the greatest homology. However, the genomic sequence predicts termination codons in all three translational reading frames, implying that this gene is nonfunctional, i.e., a pseudogene. Comparison of the rat genomic sequence to a kallikrein-like gene from the mouse reveals extensive preservation of exons, less identity within introns and no significant homology between extragenic regions.     

A simple and rapid purification of kallikrein from rat submandibular gland.

Rat submandibular kallikrein was isolated in an 87% yield by a very quick and simple procedure involving hydrophobic interaction chromatography. Furthermore, that purification method was superior to both aprotinin-affinity chromatography and immunoaffinity chromatography for the purification of rat submandibular kallikrein. The kallikrein purified by hydrophobic interaction chromatography consisted of a number of isoenzymes. The major component of Mr 38,000 seen on SDS-gel electrophoresis was found to be the glycosylated kallikrein, whereas the minor component of Mr 26,000 represented the non-glycosylated enzyme.     

A cytocidal tissue kallikrein isolated from mouse submandibular glands

A cytocidal factor against mouse thymocytes was purified from the submandibular glands of female BALB/c mice using Sephadex G-50 gel filtration chromatography and reverse-phase HPLC. SDS-PAGE and amino acid sequence analysis revealed that the cytocidal factor was mouse glandular kallikrein (mGK)-6. mGK-6 showed an optimal enzyme activity at pH 10 and a cytocidal activity against thymocytes in a dose-dependent manner.     

Purification to apparent homogeneity of inactive kallikrein from rat urine

Inactive kallikrein was purified from rat urine by a procedure including ammonium sulfate fractionation, DEAE cellulose chromatography, phenyl-Sepharose CL-4B chromatography, and gel filtration on Sephadex G-100 and Sephadex G-75 columns. The resulting preparation was essentially homogeneous, as assessed by polyacrylamide gel electrophoresis. This preparation migrated as a single protein band on a SDS-polyacrylamide gel and the molecular weight was 41000. The purified material underwent marked activation by trypsin, but not by deoxycholate, Triton X-100, SDS or acidification. These results indicate that the purified inactive kallikrein is the precursor rather than a complex with a substance binding to the active form of kallikrein.