Joyce W. Jenzano

Comparison of five techniques for the determination of protein content in mixed human saliva

This study was conducted to assess the relative accuracy of five different assay techniques for the determination of protein concentration in human mixed saliva. The protein concentration of paraffin-stimulated saliva from 20 individuals was determined using the biuret reaction, the Lowry assay, a modified Lowry technique using bicinchoninic acid, and two dye-binding assays. Using bovine serum albumin as the standard, mean values ranged from 0.67 to 2.37 mg/ml. The use of bovine serum albumin, trypsinogen, lysozyme, bovine pancreatic ribonuclease, and poly-L-lysine as standards with the five different assay techniques to measure protein concentration of pooled mixed saliva from the above subjects produced results ranging from 0.74 to 65.5 mg/ml. The protein concentration obtained for this saliva sample by amino acid analysis was consistent with the value obtained for the biuret reaction using any of the five different standard proteins. Thus, the protein concentration obtained for human saliva depends upon both the technique used and the protein standard.

Identification of tissue kallikrein messenger RNA in human neutrophils

Expression of tissue kallikrein in human neutrophils has been suggested by previous studies using enzymatic and immunochemical techniques. Secretion of this potent biological factor by neutrophils would be of marked significance in the inflammatory process. The present study utilized the polymerase chain reaction following reverse transcriptase generation of total neutrophils cDNA to demonstrate the presence of tissue kallikrein mRNA in the human neutrophils. In addition, use of sequence-specific primers demonstrated the presence of mRNA for the hGK-1 gene, but not for the hPK gene product or the gene for prostate-specific antigen. These results confirm that tissue kallikrein is present in neutrophils and may be secreted as part of the inflammatory process.

Temporal variations of glandular kallikrein, protein and amylase in mixed human saliva

Variations in the level of glandular kallikrein in human saliva may reflect physiological changes. Diurnal or circadian variations of many salivary components are important in relating changes in such components to oral or systemic conditions especially as most clinical studies are conducted between 0800 and 1700 h. Whole saliva was collected from 14 healthy young subjects at 0800, 1100, 1400 and 1700 h on two Fridays. Samples were centrifuged at 10,000 g for 10 min at 4 degrees C and the supernatant fractions stored at -20 degrees C. The enzymic activity of kallikrein was measured with D-valylleucylarginine-p-nitro-anilide as substrate. The activity of alpha-amylase and the total protein concentration (biuret) were also determined. Results were analysed in a repeated-measures design: there were no significant differences in kallikrein levels either within days or across days. There were significant differences for total protein and alpha-amylase levels within days but, in general, not across days. Minimal individual levels for protein and alpha-amylase were mostly at 0800 h; maxima were generally at 1400 or 1700 h. Kallikrein levels had no marked pattern of maximal or minimal distribution.

Linkage between blood coagulation and inflammation : stimulation of neutrophil tissue kallikrein by thrombin

There has been major interest in the potential interaction between blood coagulation and inflammation. Most of the effort has focused on cellular interactions involving platelets and polymorphonuclear leukocytes (PMNS). The recent discovery of tissue kallikrein(TK) activity in PMNs prompted the study of the possible role of thrombin(IIa) in this process. Human PMNs were isolated by density gradient centrifugation. Human IIa was compared with fMLP with respect to chemotaxis and enzyme release. Results from the challenges by IIa and fMLP were compared to a NaCl control using Students paired t-test. IIa was a potent chemotactic agent for PMNs (p less than or equal to 0.0121) and stimulated the release of TK (p less than or equal to 0.0001) as determined by hydrolysis of S-2266. FMLP significantly stimulated PMN chemotaxis (p less than or equal to 0.0028) but had no effect on TK release. Release of TK was confirmed by Western Blot analysis and 35S-methionine incorporation into a 35 KD protein after IIa challenge. These results demonstrate that IIa is chemotactic for PMNs and can cause release of tissue kallikrein demonstrating a direct role for blood coagulation in the regulation of the inflammatory response.

Levels of Glandular Kallikrein in Whole Saliva Obtained from Patients with Solid Tumors Remote from the Oral Cavity

Glandular kallikrein activity in whole saliva was determined in 16 patients with malignant tumors distant from the oral cavity and in an equal number of healthy control subjects of similar age and sex distribution. The level of glandular kallikrein was significantly greater in saliva obtained from the patients with solid tumors as determined with a tripeptide nitro-anilide substrate, D-Val-Leu-ArgpNA. A basis for the higher levels of glandular kallikrein in saliva obtained from the solid tumor patients has not been established, nor is it possible to establish a role for glandular kallikrein in the pathogenesis of malignant disease. The higher level of glandular kallikrein observed in whole saliva obtained from patients with solid tumors suggests the need for further investigation of the role of kallikrein in malignant disease and the usefulness of salivary measurements of this enzyme as a reflection of systemic changes.

The assay of glandular kallikrein and prekallikrein in human mixed saliva

The measurement of glandular kallikrein in biological fluids most often utilizes a synthetic substrate, H-D-valylleucylarginine-p-nitroanilide (S-2266), which assesses amidase activity. Although this substrate has reasonable specificity for glandular kallikrein, other tryptic-like proteases found in mixed saliva may also cause hydrolysis. The primary purpose of this study was to assess the accuracy of the use of this substrate for the measurement of glandular kallikrein in human mixed saliva. An additional objective was to determine the presence of prekallikrein in mixed saliva. The addition of soybean trypsin inhibitor (SBTI), which inhibits other tryptic-like enzymes but not glandular kallikrein, resulted in an approx. 30 per cent decrease in the hydrolysis of S-2266 by centrifuged mixed human saliva. A correlation of 0.918 was obtained between the biological assays for kinin release and amidase activity in 19 subject samples. Amidase activity increased following treatment of saliva with trypsin, indicating the presence of prekallikrein in human mixed saliva. It is concluded that S-2266 is an accurate substrate for the assay of glandular kallikrein in human mixed saliva; that the inclusion of SBTI in the assay mixture is needed to inhibit non-kallikrein proteases that may also hydrolyse the synthetic substrate; and that prekallikrein is present in mixed saliva. Thus any future studies of changes in the level of kallikrein in saliva may wish to consider the presence of both active and total levels of glandular kallikrein.

Evaluation of kallikrein in human parotid and submandibular saliva

Saliva was collected from 10 subjects using a universal-design parotid collector and individually-adapted submandibular collectors. The enzymic activity of kallikrein was measured using D-leucylvalylarginine-p-nitroanilide as the substrate. Mean kallikrein activity was much higher in parotid saliva than in submandibular saliva; the difference was statistically significant. Protein concentrations were not significantly different, whereas alpha-amylase was, as expected, much higher in parotid saliva.

Expression of tissue kallikrein in normal and SV40-transfected human endometrial stromal cells.

The polymerase chain reaction with specific tissue kallikrein primers was utilized to demonstrate the presence of tissue kallikrein mRNA in human endometrial stromal cells. Enzymatic analysis measured with a specific tripeptide nitroanilide substrate demonstrated the presence of tissue kallikrein in the conditioned medium obtained from both normal stromal cells and stromal cells transfected with an origin-defective temperature-sensitive SV40 large T antigen. The transfected stromal cell supernatant exhibited approximately twice as much tissue kallikrein activity as normal stromal cells at 60-100% of cell confluence. The release of tissue kallikrein from transfected stromal cells was confirmed by Western blot analysis and [35S]-methionine incorporation into a 35-kD protein which retains tissue kallikrein activity. These results demonstrate for the first time the expression and secretion of tissue kallikrein in human endometrial stromal cells and provide evidence of possible involvement of tissue kallikrein in cell transformation.

The influence of age, sex and race on salivary kallikrein levels in human mixed saliva

Variation in the level of salivary kallikrein in human saliva has been reported as a function of systemic conditions such as reduced salt intake and during the menstrual cycle. Higher levels of salivary kallikrein have been observed in subjects with tumors distant from the oral cavity when compared to control subjects. These studies have not evaluated factors, such as age, which might influence the concentration of glandular kallikrein in saliva. The purpose of the preseut study was to determine the variation of salivary kallikrein concentration as a function of age. Differences attributable to sex or race were also evaluated. Mixed saliva was collected from 114 subjects, ages 5–91, by paraffin stimulation. Samples were centrifuged and stored at −20°C for subsequent analysis. Glandular kallikrein activity was assayed usingd-ValylLeucylArginine-p-nitroanilide as the substrate. In a linear regression model which included sex, race, and age, levels only the factor of age had a significant effect on kallikrein levels. Thep-value for the reduced model including only the factor of age was 0.0406 and the R-square was 0.038. Further analysis revealed that females did exhibit significantly higher kallikrein in individuals 40 years or older and that the effect of age appeared to be limited to females. It is concluded that both gender and age must be considered when evaluating salivary kallikrein changes in relationship to systemic disease.

Effect of monovalent cations on bovine α- and β thrombin: Importance of substrate structure

The relative ability of bovine alpha- and beta-thrombin to hydrolyze selected anilide and ester substrates in presence and absence of monovalent cations has been evaluated. The hydrolysis of both TosGlyProArgpNA and H-D-PhePipArgpNA by either alpha-thrombin or beta-thrombin is more effective in the presence of 0.1 M NaCl than in the presence of 0.1 M KC1. The hydrolysis of BzArgpNA by alpha-thrombin was less effective in the presence of sodium ions than in the presence of potassium ions. The hydrolysis of this latter substrate by beta-thrombin was similar in the presence of either sodium ions or potassium ions. These results suggest that the ionic composition of the solvent affects that catalytic efficiency of alpha-thrombin and beta-thrombin in different ways dependent on the nature of the substrate.