Your search keyword '"Chao L"' showing total 12 results

1. Molecular cloning, purification and in situ localization of human colon kallikrein

Author

Chen, L M, primary, Richards, G P, additional, Chao, L, additional, and Chao, J, additional

Published

1995

2. Expression and characterization of rat kallikrein-binding protein in Escherichia coli

Author

Ma, J X, primary, Chao, L, additional, Zhou, G, additional, and Chao, J, additional

Published

1993

3. Purification and characterization of recombinant tissue kallikrein from Escherichia coli and yeast

Author

Wang, J, primary, Chao, J, additional, and Chao, L, additional

Published

1991

4. Differential interactions of human kallikrein-binding protein and α1-antitrypsin with human tissue kallikrein

Author

Chen, L M, primary, Chao, L, additional, Mayfield, R K, additional, and Chao, J, additional

Published

1990

5. Identification and characterization of a tissue kallikrein in rat skeletal muscles

Author

Shimojo, N, Chao, J, Chao, L, Margolius, H S, and Mayfield, R K

Abstract

A tissue kallikrein was purified from rat skeletal muscle. Characterization of the enzyme showed that it has alpha-N-tosyl-L-arginine methylesterase activity and releases kinin from purified bovine low-Mr kininogen substrate. The pH optimum (9.0) of its esterase activity and the profile of inhibition by serine-proteinase inhibitors are identical with those of purified RUK (rat urinary kallikrein). Skeletal-muscle kallikrein also behaved identically with urinary kallikrein in a radioimmunoassay using a polyclonal anti-RUK antiserum. On Western-blot analysis, rat muscle kallikrein was recognized by affinity-purified monoclonal anti-kallikrein antibody at a position similar to that of RUK (Mr 38,000). Immunoreactive-kallikrein levels were measured in skeletal muscles which have different fibre types. The soleus, a slow-contracting muscle with high mitochondrial oxidative-enzyme activity, had higher kallikrein content than did the extensor digitorum longus or gastrocnemius, both fast-contracting muscles with low oxidative-enzyme activity. Streptozotocin-induced diabetes reduced muscle weights, but did not alter the level of kallikrein (pg/mg of protein) in skeletal muscle, suggesting that insulin is not a regulator of kallikrein in this tissue. Although the role of kallikrein in skeletal muscle is unknown, its localization and activity in relation to muscle functions and disease can now be studied.

Published

1987

6. Identification of a new tissue-kallikrein-binding protein

Author

Chao, J, Tillman, D M, Wang, M Y, Margolius, H S, and Chao, L

Abstract

We have identified a tissue-kallikrein-binding protein in human serum and in the serum-free culture media from human lung fibroblasts (WI-38) and rodent neuroblastoma X glioma hybrid cells (NG108-15). Purified and 125I-labelled tissue kallikrein and human serum form an approximately 92,000-Mr SDS-stable complex. The relative quantity of this complex-formation is measured by densitometric scanning of autoradiograms. Complex-formation between tissue kallikrein and the serum binding protein was time-dependent and detectable after 5 min incubation at 37 degrees C, with half-maximal binding at 28 min. Binding of 125I-kallikrein to kallikrein-binding protein is temperature-dependent and can be inhibited by heparin or excess unlabelled tissue kallikrein but not by plasma kallikrein, collagenase, thrombin, urokinase, alpha 1-antitrypsin or kininogens. The kallikrein-binding protein is acid- and heat-labile, as pretreatment of sera at pH 3.0 or at 60 degrees C for 30 min diminishes complex-formation. However, the formed complexes are stable to acid or 1 M-hydroxylamine treatment and can only be partially dissociated with 10 mM-NaOH. When kallikrein was inhibited by the active-site-labelling reagents phenylmethanesulphonyl fluoride or D-Phe-D-Phe-L-Arg-CH2Cl no complex-formation was observed. An endogenous approximately 92,000-Mr kallikrein-kallikrein-binding protein complex was isolated from normal human serum by using a human tissue kallikrein-agarose affinity column. These complexes were recognized by anti-(human tissue kallikrein) antibodies, but not by anti-alpha 1-antitrypsin serum, in Western-blot analyses. The results show that the kallikrein-binding protein is distinct from alpha 1-antitrypsin and is not identifiable with any of the well-characterized plasma proteinase inhibitors such as alpha 2-macroglobulin, inter-alpha-trypsin inhibitor, C1-inactivator or antithrombin III. The functional role of this kallikrein-binding protein and its impact on kallikrein activity or metabolism in vivo remain to be investigated.

Published

1986

7. Age and hormonal dependence of tonin levels in rat submandibular gland as determined by a new direct radioimmunoassay

Author

Shih, H C, Chao, L, and Chao, J

Abstract

A simple and sensitive direct radioimmunoassay for tonin (EC.3.4.99.-) has been developed. This assay incorporates a modified and convenient poly(ethylene glycol) technique for separation of free from bound tonin. A rabbit antiserum in a final dilution of 1:160,000 was used and the purified tonin was labelled with 125I by using a lactoperoxidase method. It detects 20 pg of immunoreactive tonin per tube. Serial dilutions of rat submandibular gland extracts showed complete parallelism with tonin standard curves. No cross-reactivity with rat tissue kallikrein was seen. Intra- and inter-assay errors were 3.2 and 5.6%, respectively. Using this assay, immunoreactive tonin was detected in the rat submandibular gland as early as 3 weeks after birth (body wt. approximately 50-60 g). Tonin levels are shown to be dependent on age and sex with significantly higher levels in male than in female rats. Castration results in decrease of tonin levels and 17 alpha-methyltestosterone replacement reversed the level to higher than the sham-operated control rats. Cortisol treatment increased, but thyroxine or oestradiol had no effect, on tonin levels in the submandibular gland of castrated rats. This newly developed radioimmunoassay can now be used to measure low levels of tonin in various tissues and body fluids to address questions about its regulation and functional significance.

Published

1986

8. Specific identification of tissue kallikrein in exocrine tissues and in cell-free translation products with monoclonal antibodies

Author

Woodley, C M, Chao, J, Margolius, H S, and Chao, L

Abstract

A panel of six mouse monoclonal antibodies (IgG1) has been prepared against purified rat urinary kallikrein (EC 3.4.21.35) and characterized. In radioimmunoassay, the antibody titres of ascitic fluid giving 50% binding to 125I-kallikrein range from 1:2 × 10(3) to 1:1 × 10(6). Antibodies from four of the clones show no cross-reactivity with human urinary kallikrein, rat urinary esterase A or tonin. However, antibodies from a fifth clone cross-react with tonin and, from a sixth, with both urinary esterase A and tonin. Three of the kallikrein affinity-purified monoclonal antibodies inhibited, whereas one of the antibodies stimulated, kallikrein activity. Tissue kallikrein from rat submandibular-gland and pancreatic extracts and urine were labelled with [14C]di-isopropyl phosphofluoridate, immunoprecipitated with each of the six monoclonal antibodies and identified to be 38 kDa proteins, similar in size to purified rat urinary kallikrein. Western-blot analysis shows that 125I-labelled kallikrein monoclonal antibodies (V4D11) bind directly to a 38 kDa protein in submandibular-gland and pancreatic extracts and urine. Cell-free translation products of submandibular-gland polyadenylylated[poly(A)+]mRNA were immunoprecipitated with affinity-purified sheep anti-kallikrein antibodies and three monoclonal antibodies (V4D11, V4G6 and V1C3). Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis of these immunoprecipitates revealed that two kallikrein precursors with Mr values of 37 000 and 35 000 are encoded by submandibular-gland mRNA. The third monoclonal antibody, V1C3, which binds to active kallikrein, did not recognize either precursor form. Collectively, the data show that these monoclonal antibodies comprise a set of powerful and specific reagents for studies of tissue kallikreins.

Published

1985

9. Identification of tonin in brain and exocrine tissues and in the cell-free translation products encoded by the mRNA of these tissues

Author

Woodley-Miller, C, Chao, J, and Chao, L

Abstract

Tissue-specific expression of the esteropeptidase tonin [EC 3.4.99.-] was investigated in rat brain, submandibular gland, pancreas and kidney. Specific polyclonal and monoclonal antibodies to purified rat tonin from the submandibular gland have been developed and characterized and have been purified via a tonin-agarose affinity column. Immunoreactive tonin was measured by a recently developed tonin direct radioimmunoassay using a rabbit tonin antiserum. Resulting tonin levels were found to be 105.27 +/- 2.71 micrograms/mg (of protein) in submandibular gland, 3.18 +/- 0.32 ng/mg in pancreas, 1.35 +/- 0.08 ng/mg in kidney and 0.12 +/- 0.01 ng/mg in brain (means +/- S.E.M.). Western-blot analysis shows that affinity-purified anti-tonin antibody binds to a 32,000-Mr protein from brain and submandibular-gland extracts. The protein, a tonin precursor, was identified from cell-free translation products directly by polyadenylated [Poly(A)+]mRNA species in a wheat-germ system. After the translation products were subjected to immunoprecipitation with affinity-purified tonin antibody, SDS/polyacrylamide-gel electrophoresis of these precipitates revealed two precursors of tonin, with Mr values of 30,000 and 29,000, which are encoded by brain and submandibular-gland mRNA; however, only the 30,000-Mr preprotonin was encoded by pancreas and kidney mRNA. Collectively, the data show that tonin exists in brain, submandibular gland, pancreas and kidney, and can be synthesized by the mRNA of these tissues.

Published

1987

10. Specificity of human tissue kallikrein towards substrates containing Phe-Phe pair of amino acids.

Author

Pimenta DC, Chao J, Chao L, Juliano MA, and Juliano L

Subjects

Amino Acid Sequence, Animals, Humans, Hydrolysis, Kinetics, Molecular Sequence Data, Rats, Spectrometry, Fluorescence, Substrate Specificity, Tissue Kallikreins, Dipeptides metabolism, Kallikreins metabolism, Phenylalanine metabolism

Abstract

We have explored in detail the determinants of specificity for the hydrolysis by human tissue kallikrein (hK1) of substrates containing the Phe-Phe amino acid pair, after which hK1 cleaves kallistatin (human kallikrein-binding protein), a specific serpin for this protease, as well as somatostatin 1-14. Internally quenched fluorogenic peptides were synthesized with the general structure Abz-peptidyl-EDDnp [Abz, o-aminobenzoic acid; EDDnp, N-(2, 4-dinitrophenyl)ethylenediamine], based on the natural reactive-centre loop sequence of kallistatin from P9 to P'13, and the kinetic parameters of their hydrolysis by hK1 were determined. All these peptides were cleaved after the Phe-Phe pair. For comparison, we have also examined peptides containing the reactive-centre loop sequences of human protein-C inhibitor (PCI) and rat kallikrein-binding protein, which were hydrolysed after Phe-Arg and Leu-Lys bonds, respectively. Hybrid peptides containing kallistatin-PCI sequences showed that the efficiency of hK1 activity on the peptides containing kallistatin and PCI sequences depended on both the nature of the P1 amino acid as well as on residues at the P- and P'-sides. Moreover, we have made systematic modifications on the hydrophobic pair Phe-Phe, and on Lys and Ile at the P3 and P4 positions according to the peptide substrate, Abz-AIKFFSRQ-EDDnp. All together, we concluded that tissue kallikrein was very effective on short substrates that are cleaved after the Phe-Arg pair; however, hydrolysis after Phe-Phe or other hydrophobic pairs of amino acids was more restrictive, requiring additional enzyme-substrate interaction and/or particular substrate conformations.

Published

1999

11. Tissue-specific expression and promoter analyses of the human tissue kallikrein gene in transgenic mice.

Author

Xiong W, Wang J, Chao L, and Chao J

Subjects

Animals, Embryo, Mammalian, Humans, Male, Mice, Mice, Transgenic, Mutagenesis, Site-Directed, Organ Specificity, Polymerase Chain Reaction, RNA, Messenger biosynthesis, Sequence Deletion, Tissue Kallikreins, Transcription, Genetic, Gene Expression Regulation, Enzymologic, Kallikreins biosynthesis, Kallikreins genetics, Promoter Regions, Genetic

Abstract

The expression of the tissue kallikrein gene is tissue-specific and exhibits a complex pattern of transcriptional and post-translational regulation. Information concerning the mechanism of its tissue-specific expression has been limited owing to the lack of suitable cell lines for the expression study. We approached this problem by introducing human tissue kallikrein gene constructs into mouse embryos, creating transgenic lines carrying its coding sequence with varying lengths of the promoter region. One construct (PHK) contained 801 bp in the 5'-flanking region and two deletion constructs contained either 302 bp (D300) or 202 bp (D200) of the promoter region. The expression of human tissue kallikrein in these transgenic mice was monitored by Northern blot, reverse transcriptase-PCR followed by Southern blot, and radioimmunoassay. In all three lines, human tissue kallikrein was expressed predominantly in the pancreas and at lower levels in other tissues, including salivary gland, kidney and spleen. This pattern was similar to that of tissue kallikrein expression in human tissues. The D300 line has higher levels of transgene expression than the D200 and PHK lines. The results indicate that the 202 bp segment immediately upstream of the translation starting site is sufficient to direct a tissue-specific expression pattern of the human tissue kallikrein gene, and that regulatory elements might exist between -801 and -202.

Published

1997

12. Differential interactions of human kallikrein-binding protein and alpha 1-antitrypsin with human tissue kallikrein.

Author

Chen LM, Chao L, Mayfield RK, and Chao J

Subjects

Binding, Competitive, Blotting, Western, Heparin pharmacology, Humans, Kinetics, Molecular Weight, Pancreatic Elastase metabolism, Carrier Proteins metabolism, Kallikreins metabolism, Serpins, alpha 1-Antitrypsin metabolism

Abstract

The characteristics of a new kallikrein-binding protein in human serum and its activities were studied. Both the kallikrein-binding protein and alpha 1-antitrypsin form 92 kDa SDS-stable and heat-stable complexes with human tissue kallikrein. In non-SDS/PAGE, the mobility of these complexes differ. Complex-formation between kallikrein and the binding protein is inhibited by heparin, whereas that between kallikrein and alpha 1-antitrypsin is heparin-resistant. In normal or alpha 1-antitrypsin-deficient-serum, the amount of 92 kDa SDS-stable complex formed upon addition of kallikrein is not related to serum alpha 1-antitrypsin levels. The rate of complex-formation between kallikrein and the binding protein is 12 times higher than that between kallikrein and alpha 1-antitrypsin. Purified alpha 1-antitrypsin, which exhibits normal elastase binding, has a kallikrein-binding activity less than 5% of that of serum. Binding of tissue kallikrein in serum is not inhibited by increasing elastase concentrations, and elastase binding in serum is not inhibited by excess tissue kallikrein. A specific monoclonal antibody to human alpha 1-antitrypsin does not bind to either 92 kDa endogenous or exogenous kallikrein complexes isolated from human serum. The studies demonstrate a new tissue kallikrein-binding protein, distinct from alpha 1-antitrypsin, is present in human serum.

Published

1990