Takao Matsuba

Expression of cathepsin E in pancreas: A possible tumor marker for pancreas, a preliminary report

Ductal cancers of the pancreas frequently express markers of gastrointestinal epithelial cells. Cathepsin E (CTSE) is a non‐secretory, intracellular, but non‐lysosomal proteinase found in the highest concentration in the superficial epithelial cells of the stomach. The aims of our study were to examine the expression of CTSE in the pancreas, to establish an assay system of CTSE and to evaluate the diagnostic usefulness of CTSE in the pancreatic juice. Eleven patients with pancreatic ductal adenocarcinoma, 10 with mucin‐producing adenoma, 3 with intraductal papillary hyperplasia and 43 with chronic pancreatitis were examined. Surgically resected pancreatic tissues were subjected to immunohistochemistry for CTSE. Pancreatic juice was collected from the patients and subjected to sandwich ELISA and Western analysis for detecting CTSE. Positive staining for CTSE was observed in pancreatic ductal adenocarcinoma by immunohistochemistry. CTSE was also expressed in mucin‐producing adenoma, intraductal papillary hyperplasia and mucinous hyperplasia. CTSE in the pancreatic juice was present in 8 of 11 patients with pancreatic ductal adenocarcinoma, 5 of 10 patients with mucin‐producing tumor, 1 of 3 patients with intraductal papillary hyperplasia and 4 of 43 patients with chronic pancreatitis. The detection frequency of CTSE in the pancreatic juice was significantly higher in the patients with pancreatic ductal adenocarcinoma than in the patients with chronic pancreatitis. Our findings suggest that the expression of CTSE is associated with the pathogenesis of pancreatic ductal adenocarcinoma, that CTSE in the pancreatic juice seems to be a useful marker for a definitive diagnosis and that CTSE may be expressed at a relatively early stage of multistep carcinogenesis in pancreatic lesions.

Yeast expression of the cytokine receptor domain of the soluble interleukin-6 receptor.

The complex of the soluble interleukin-6 receptor (sIL-6R) and IL-6 (IL-6) is a potent agonist on cells expressing the signal transducing protein gp 130. In contrast, IL-6 alone only stimulates cells which express a membrane bound form of the IL-6R and gp 130. The natural occurring sIL-6R is generated by shedding of the membrane receptor and to a lesser extend by alternative splicing. We have inserted the coding sequence of the 323 amino acid residues of the human sIL-6R into an expression/secretion vector suitable for the methylotrophic yeast Pichia pastoris. We obtained, however, no detectable expression and secretion of the recombinant protein. When we used only the coding sequence of the cytokine receptor domain of the sIL-6R for the construction of an expression plasmid, this truncated version of the sIL-6R accumulated in the supernatant to 1-5 mg/l. The protein was purified by a single affinity chromatography step using a monoclonal antibody directed against the human IL-6R. Following the same approach, we expressed a truncated splice variant of the sIL-6R. Both, the secreted truncated sIL-6R and the splice variant showed full agonistic biological activity on human hepatoma cells. The described expression strategy will be useful for large scale production of biologically active sIL-6R and might be adapted for the expression of other members of the hematopoietic cytokine receptor family.

Secretion of human intracellular aspartic proteinase cathepsin E expressed in the methylotrophic yeast, Pichia pastoris and characterization of produced recombinant cathepsin E.

The human gastric cathepsin E (CTSE), a dimeric aspartic proteinase, was expressed in the methylotrophic yeast Pichia pastoris by placing the CTSE cDNA under the control of the methanol inducible alcohol oxidase promoter. The human CTSE expressed in P. pastoris was secreted into the culture medium as an active enzyme directed by its native signal sequence despite its intracellular localization in mammalian cells. The time course analysis of the culture supernatant of the P. pastoris transformant expressing human CTSE revealed that the recombinant human CTSE was secreted as a 90 kDa molecule and then converted via an 84 kDa intermediate to an 82 kDa mature molecule. A large-scale culture of the transformant was performed in a high cell density fermentor and the recombinant human CTSE was highly purified from the culture supernatant. The purified recombinant cathepsin E had the molecular mass of 82 kDa with the amino-terminal sequence starting with Ile37 of the sequence deduced from its cDNA sequence, suggesting that the human cathepsin E was accumulated in the culture supernatant as mature dimeric enzyme. The result of endoglycosidase-H digestion followed by Western blot analysis of the purified recombinant cathepsin E suggested that the human cathepsin E expressed in P. pastoris received N-linked high-mannose type glycosylation. The enzymatic properties of the recombinant enzyme were comparable to those of natural human CTSE.

Identification by the Phage-display Technique of Peptides That Bind to H7 Flagellin of Escherichia coli

The four peptides interacting with H7 flagellin of Escherichia coli were selected from a phage display library. The library was selected four times, and the interacting phage peptides were competitively eluted with H7 flagellin. An enzyme-linked immunosorbent assay (ELISA) showed that these peptides were reactive with the H7 flagellin in a dose-dependent manner. Among them, a D1 phage clone showed the highest binding affinity to the H7 flagellin. We synthesized the D1 peptide (LHIHRPTLSIQG) corresponding to the peptide-encoding region of the D1 phage clone. The synthetic peptide showed micro-molar affinity (EC50 value=1.9 μM) for the H7 flagellin. Furthermore, this D1 peptide interacted more specifically with the H7 flagellin than with the other flagellins (H1, H5, H12, or H23) of E. coli. In situ hybridization clearly showed that the peptide only detected those cells harboring the H7 flagellin gene (fliC). The peptide may specifically bind to the H7 flagellin on the cell surface. These results suggest that the phage-display technique could be used as a tool for identifying peptides as an alternative to using a ligand as a diagnostic reagent in food products or in clinical testing.

Purification and Characterization of Recombinant Human Cathepsin E

The human cathepsin E was purified from the culture supernatant of Pichia pastoris strain transformed with a human cathepsin E expression plasmid. Purification was performed by a three-step procedure, TSKgel Phenyl-5PW, Toyopearl HW55S and TSKgel DEAE-5PW column chromatographies. The purified recombinant cathepsin E had the molecular mass of around 82-kDa with the amino-terminal sequence started with Ile37 of the predicted amino acid sequence, suggesting the human cathepsin E was accumulated in the culture suparnatant as the mature dimer enzyme. The result of endoglycosidase-H digestion followed by Western blot analysis of the purified recombinant cathepsin E suggested that the human cathepsin E expressed in Pichia pastoris received N-linked high-mannose type glycosylation.

Use of a surface plasmon resonance biosensor for the determination of binding constants of transiently expressed recombinant antibody to its antigen

By using a commercially available surface plasmon resonance (SPR) biosensor, the values of the association rate constant (kass), dissociation rate constant (kdiss), and association constant (KA = kass / kdiss) for binding to the antigens were determined. They were almost the same for the recombinant antibody expressed in COS cells, CHO cells, and mouse hybridoma cells. The system of transient expression of the recombinant antibody (Ab) in COS cells and SPR analysis of the supernatant should be useful for rapid expression and evaluation of the binding ability of large numbers of engineered Abs.

Expression of Human Cathepsin E in Methylotrophic Yeast, Pichia Pastoris

The human gastric cathepsin E (CTSE) was expressed in the methylotrophic yeast Pichia pastoris by placing the CTSE cDNA under the control of the methanol-inducible alcohol oxidase promoter. The human CTSE expressed in P. pastoris was efficiently secreted into the culture medium as an active enzyme directed by its native signal sequence, whereas CTSE has been shown to be retained in mammalian tissue cells. The recombinant human CTSE was secreted as a 90-kDa molecule and then converted via an 84-kDa intermediate to an 82-kDa molecule. The 90-kDa molecule and the 82-kDa molecule were considered to be the proenzyme and the mature enzyme as dimeric forms, respectively.