We investigated the role of the kallikrein-kinin system in blood pressure control by developing transgenic mice overexpressing human tissue kallikrein. Two lines of transgenic mice carrying the human tissue kallikrein gene under the control of the mouse metallothionein metal-responsive promoter were established. Human tissue kallikrein was identified in pancreas, salivary gland, kidney, liver, and spleen of the transgenic mice by a specific radioimmunoassay for human tissue kallikrein. The immunoreactive human tissue kallikrein reached high levels in the circulation. The linear displacement curves for the transgenic product were parallel with the human tissue kallikrein standard curve, indicating their immunologic identity. The expression of human tissue kallikrein transcript in the transgenic mice was further confirmed by Northern blot analysis and by reverse transcription-polymerase chain reaction followed by Southern blot. Both lines of transgenic mice had significantly lowered blood pressure (86.4±13.5 mm Hg [mean±SD], n=8 and 78.9±12.4 mm Hg, n=8) compared with control mice (10O.9±5.0 mm Hg, n=8). Induction with zinc did not lower the blood pressure further despite elevated expression of the transgene. Administration of aprotinin, a potent tissue kallikrein inhibitor, restored the blood pressure of the transgenic mice but had no significant effect on control littermates. Our findings raise the possibility of tissue kallikrein being a powerful modulator of blood pressure and provide a new animal model for the study of blood pressure regulation. (Hypertension. 1994^3:236-243.)-
We recently found that transgenic mice expressing human tissue kallikrein develop sustained hypotension. The result suggests that a continuous supply of human tissue kallikrein could have a prolonged effect on blood pressure reduction. In the present study, we investigated the potential of using human tissue kallikrein for gene therapy by injecting a kallikrein gene construct into the skeletal muscle of spontaneously hypertensive rats. Expression of the human tissue kallikrein messenger RNA in spontaneously hypertensive rats was identified by reverse transcription-polymerase chain reaction with Southern blot. Human tissue kallikrein was detected in the injected animals by an enzyme-linked immunosorbent assay. Injection of the human kallikrein gene into spontaneously hypertensive rats caused a significant reduction of systemic blood pressure, ranging from 15 to 26 mm Hg, compared with the control group. The differences were significant 1 week after the injection and continued for more than 2 months. Blood pressure reduction could be reversed after the administration of the bradykinin antagonist Hoe 140. The results indicate that somatic delivery of the human tissue kallikrein gene induces a sustained reduction of systemic blood pressure in spontaneously hypertensive rats. The present study raises the possibility of applying kallikrein gene therapy to the treatment of human hypertensive diseases.
The present studies demonstrate the importance of subsite interactions in determining the cleavage specificities of kallikrein gene family proteinases. The effect of substrate amino acid residues in positions P3-P'3 on the catalytic efficiency of tissue kallikreins (rat, pig, and horse) and T-kininogenase was studied using peptidyl-pNA and intramolecularly quenched fluorogenic peptides as substrates. Kinetic analyses show the different effects of D-amino acid residues at P3, Pro at P'2, and Arg at either P'1 or P'3 on the hydrolysis of substrates by tissue kallikreins from rat and from horse or pig. T-Kininogenase was shown to differ from tissue kallikrein in its interactions at subsites S2, S'1, and S'2. As a result of these differences, Abz-FRSR-EDDnp with Arg at P'2 is a good substrate for tissue kallikreins from horse, pig, and rat but not for T-kininogenase. Abz-FRRP-EDDnp and Abz-FRAPR-EDDnp with Pro at P'2 (rat high molecular weight kininogen sequence) are susceptible to rat tissue kallikrein but not to tissue kallikreins from horse and pig. Arg at P'3 increased the susceptibility of the Arg-Ala bond to rat tissue kallikrein. These data explain the release of bradykinin by rat tissue kallikrein and of kallidin by tissue kallikreins from other animal species. Abz-FRLV-EDDnp and Abz-FRLVR-EDDnp (T-kininogen sequence) are good substrates for T-kininogenase but not for tissue kallikrein. Arg at the leaving group (at either P'1, P'2, or P'3) lowers the Km values of T-kininogenase while Val at P'2 increases its kcat values.(ABSTRACT TRUNCATED AT 250 WORDS)
Tissue kallikrein gene expression in rat kidney was examined by in situ hybridization histochemistry. A rat tissue kallikrein cDNA probe, 534 bases in length and complementary to the 3' end of kallikrein mRNA was first used in Northern blot analysis to demonstrate the existence of tissue kallikrein mRNA in rat kidney. Then, kallikrein mRNA's localization in rat kidney sections was studied in situ hybridization histochemistry using the same probe. Positive signals were concentrated in the renal cortex at the vascular pole of the glomeruli and to a lesser degree, the distal tubular cells. Prehybridization with the unlabeled probe can abolish the positive signal; the same result can also be achieved by pretreatment of the tissue section with ribonuclease. By using the same technique, tissue kallikrein mRNA was also localized in granular convoluted tubule and striated duct cells of rat submandibular gland. The results suggest a new site of renal kallikrein synthesis at the vascular pole of the glomerulus. These findings, coupled with the previous studies that tissue kallikrein can participate in activation and releasing of renin, raise a potential physiological role of kallikrein in renin release or prorenin processing at juxtaglomerular cells.
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