Hirotoshi Tanimoto

The Stratum Corneum Chymotryptic Enzyme That Mediates Shedding and Desquamation of Skin Cells Is Highly Overexpressed in Ovarian Tumor Cells

Proteases play essential roles in the process of tumor invasion and metastasis. The serine protease stratum corneum chymotryptic enzyme (SCCE) has been purified from human stratum corneum and is known to contribute to the cell shedding process by catalyzing the degradation of intercellular cohesive structures at the skin surface. The presence of SCCE on the surface of tumor cells suggests it also may contribute to the process of tumor cell shedding, resulting in early metastasis of carcinoma.

Ovarian Tumor Cells Express a Transmembrane Serine Protease: A Potential Candidate for Early Diagnosis and Therapeutic Intervention

Proteases have been implicated in the extracellular modulation required for tumor growth and invasion. In an effort to categorize those proteases contributing to ovarian carcinoma progression, we have utilized redundant primers to conserved amino acid (AA) domains surrounding the catalytic triad of His, Asp and Ser to amplify serine proteases that are differentially expressed in carcinomas. Using this method, we have identified and cloned a serine protease named TADG-15 (tumor-associated differentially expressed gene 15) that is overexpressed in ovarian tumors. TADG-15 is a transmembrane multidomain serine protease which includes ligand binding domains and a serine protease in the extracellular space.

Increased Expression of Protease M in Ovarian Tumors

Proteases are known to play important roles in tumor invasion and metastasis. Protease M, which was originally identified by Anisowicz and colleagues in 1996, is a new member of the serine protease family. We also identified the protease M transcript in a differential PCR screen of ovarian tumors and have investigated its expression in 44 ovarian tumors (12 low malignant potential tumors, 32 carcinomas) and 10 normal ovaries using quantitative PCR. The PCR product was labeled with 32P and a phosphoimager was used to determine the relative expression of the protease M gene compared to internal control β-tubulin. mRNA expression levels of protease M were significantly elevated in 9 of 12 low malignant potential tumors and 30 of 32 carcinomas. Northern blot hybridization showed that the 1.7-kb protease M transcript was abundant in carcinoma but not detected in normal ovary. Immunohistochemical staining of normal overy and ovarian tumor tissue sections with antibodies generated to protease M derived peptides corroborated the semi-quantitative PCR and Northern analysis data. Our results suggest that protease M is frequently overexpressed in ovarian tumors and may therefore contribute to the invasive nature or growth capacity of ovarian carcinomas.

More than 15 years of CA 125: what is known about the antigen, its structure and its function.

In 1997 CA 125 celebrated its 15th anniversary. Since the discovery of OC 125, an antibody that recognizes CA 125, by Bob Bast and his colleagues, considerable progress has been made toward the development of more sensitive and more precise assay systems. However, a great deal of mystery still remains about the CA 125 molecule and further enlightenment will probably not come until the gene for CA 125 is cloned and the complete open reading frame for the peptide core identified. In the meantime, we have learned some structural features of the CA 125 molecule as well as a little about its regulation and the requirements for its secretion or release from epithelial derived cells in cultures. The CA 125 molecule is almost certainly a glycoprotein with a predominance of O-linkages. It is heterogeneous with regard to both size and charge, most likely due to continuous deglycosylation of side chains during its life-span in bodily fluids. It exists as a very large complex (perhaps as much as 4 million daltons) under natural conditions. The core CA 125 subunit is in excess of 200,000 daltons and it retains the capacity to bind both OC 125 class antibodies and M 11 class antibodies. As a denatured purified subspecies the CA 125 molecule appears to autoproteolyse presumably due to an endogenous protease activity inherent to the molecule. Release or secretion of CA 125 appears directly linked to the epithelial growth factor receptor signal transduction pathway. Prior to its release from cultured cells, CA 125 is phosphorylated (at either/both serine and threonine) and dephosphorylated when released. To stimulate discussion on the regulation of CA 125 synthesis, its secretion and its structural configuration, we have presented a model of a theoretical CA 125 molecule. Perhaps it will provide a focus of attention until the CA 125 gene is cloned and the real molecule is described.

Expression of basic fibroblast growth factor in human gastric carcinomas

SummaryThe expression of mRNA for the basic fibroblast growth factor (FGF) gene was examined in seven human gastric carcinoma cell lines and in tissue from 29 gastric carcinomas together with the adjacent normal mucosa. Among the seven gastric carcinoma cell lines, the MKN45 cell line expressed mRNA for the basic FGF gene. Basic FGF protein production was confirmed by flow cytometric analysis and immunohistochemistry. Among the surgical specimens, 16 (55%) of 29 gastric carcinomas showed higher levels of basic FGF mRNA than the normal mucosa. Interestingly, in scirr-hous gastric carcinomas characterized by their fibrous stroma and rapid growth, 9 (69%) of 13, samples examined revealed higher levels of basic FGF mRNA than normal mucosa, whereas only 3 (33%) of the 9 well differentiated adenocarcinomas studied produced similar results. Immunohistochemically, basic FGF protein was localized in tumor cells. These results suggest that basic FGF produced by tumor cells may play an important role in producing fibrosis and angiogenesis in gastric carcinomas.

Transmembrane serine protease TADG-15 (ST14/Matriptase/MT-SP1): expression and prognostic value in ovarian cancer

Tumour-associated differentially expressed gene-15 (TADG-15/ST14/matriptase/MT-SP1) is a novel member of the transmembrane serine proteases. Previous studies indicated that TADG-15 is overexpressed in ovarian tumours; however, relationships between expression of TADG-15 and clinical characteristics of ovarian cancer remain unclear. The purpose of this study was to examine TADG-15 expression in ovarian cancers and determine any associations with clinicopathological characteristics or patient survival. Immunohistochemical study revealed that TADG-15 was expressed in 50 (56.2%) of 89 ovarian carcinomas, whereas it was not detected in normal ovaries. TADG-15 expression was significantly more common in patients with early stage disease compared with patients with advanced stage diseases (namely, stage I, 24 out of 33: 72.7%; stage II/III/IV, 26 out of 56: 46.4%; P=0.0157). Kaplan–Meier survival curves demonstrated that patients with TADG-15-positive tumours have had substantially longer survival (P=0.0480). The mean value of relative TADG-15 mRNA expression ratio was significantly higher in stage I tumours than in stage II/III/IV tumours (P=0.0053). Increased expression of TADG-15 is frequently detected in early stage cancers, with expression level downregulated during progression of disease. TADG-15 is associated with early stage ovarian cancer and longer patient survival; therefore, it may be a favourable prognostic marker for this malignancy.

The matrix metalloprotease pump-1 (MMP-7, matrilysin) : A candidate marker/target for ovarian cancer detection and treatment

Matrix metalloproteases are known to play an important role in tumor invasion by mediating degradation of extracellular matrix. In this study, we have investigated the expression of the matrix metalloprotease pump-1 gene (also referred to as MMP-7, Matrilysin) in 44 ovarian tumors (12 low malignant potential tumors, 32 carcinomas) and 10 normal ovaries using quantitative PCR. The PCR product was labelled with 32P and a phosphoimager was used to determine the relative expression of pump-1 compared to an internal control β-tubulin. mRNA expression levels of pump-1 were significantly elevated in 9 of 12 low malignant potential tumors and 26 of 32 carcinomas. Northern blot hybridization showed that the 1.1-kb pump-1 transcript was abundant in carcinoma but seldom expressed in normal adult tissues including normal ovary. Immunohistochemical localization of the pump-1 protein confirms its expression by ovarian tumor cells. Our results suggest that pump-1 is frequently overexpressed in ovarian tumors and may contribute to its invasive nature or growth capacity, therefore pump-1 may serve as a useful marker for early detection of disease and/or a target for therapeutic intervention in downregulation of tumor progression.

Ovarian tumor cells express a novel multi-domain cell surface serine protease

Serine proteases serve many functions in normal biological processes. These functions are often usurped by cancer cells to allow progression of tumors by increasing the growth and metastatic potential of the neoplasia. Here, we have used a polymerase chain reaction (PCR)-based strategy to clone Tumor Associated Differentially-expressed Gene-12 (TADG-12), a new serine protease from ovarian carcinoma. This technique also revealed a variant splicing form of TADG-12 that could lead to a truncated protein product. Semi-quantitative PCR showed that TADG-12 is overexpressed in 41 of 55 ovarian cancer specimens relative to normal expression, and the variant form, TADG-12V is found at increased levels in 8 of 22 carcinomas examined. Northern blot revealed three transcripts, the largest of which is approximately 2.4 kb. An ovarian tumor cDNA library was screened, and the entire cDNA of TADG-12 has been identified. This sequence encodes a putative protein of 454 amino acids which includes a potential transmembrane domain, an LDL receptor-like domain, a scavenger receptor cysteine-rich domain, and a serine protease domain. These features imply that TADG-12 will be at the cell surface, and it may be useful as a molecular target for therapy or a diagnostic marker.

Overexpression of testisin, a serine protease expressed by testicular germ cells, in epithelial ovarian tumor cells.

Objective: In a continued effort to identify and characterized secreted proteases that are overexpressed in ovarian carcinomas, we discovered the testisin protease as such a candidate. When this discovery was originally made, no data existed in the literature or in the GenBank database that identified such a gene. Our main objective was to determine whether this gene was overexpressed exclusively in ovarian tumor tissues compared with normal ovary and whether it was expressed in any other normal tissues. Methods: mRNA was isolated and cDNA was prepared from 34 ovarian tumors (four adenomas, three low malignant potential tumors, and 37 carcinomas) and seven normal ovaries. The testisin mRNA expression level relative to internal control, β-tubulin, was determined by Northern blot analysis and semiquantitative polymerase chain reaction (PCR). Results: Northern blot hybridization showed that the testisin transcript was abundant in ovarian carcinoma but was not detected in normal ovary. On examination of Northern blots from normal fetal and adult tissues, only adult testis showed abundant transcripts of testisin. Semiquantitative PCR examination showed that the testisin mRNA levels in ovarian tumors of low malignant potential and in ovarian carcinomas were significantly higher than in normal ovaries (P < .01). Testisin mRNA level in ovarian carcinomas was also significantly higher than in ovarian adenomas (P < .05). Testisin overexpression rates in advanced stage (stage 2 or 3) diseases were significantly higher than that in early stage disease (stage 1) in ovarian carcinoma samples (P < .05). Conclusions: The induction of the testisin transcript might contribute to the development, progression, and invasive or metastatic capacity of ovarian carcinomas.

Human Kallikrein Gene 11 (KLK11) mRNA Overexpression Is Associated with Poor Prognosis in Patients with Epithelial Ovarian Cancer

Purpose: The purpose of this study was to examine expression levels of the human tissue kallikrein 11 gene (KLK11) in epithelial ovarian tumors and to identify the relationship between KLK11 expression and patient survival. Experimental Design: KLK11 mRNA expression was examined by semiquantitative PCR in 64 epithelial ovarian tumors (7 adenomas, 6 low malignant potential tumors, and 51 adenocarcinomas) and in 10 normal ovaries. Semiquantitative PCR results were correlated with clinicopathologic variables and overall survival. cDNA from human normal tissues and tumor tissues was also analyzed. Results: KLK11 mRNA expression was detected in various human cancer tissues including breast, lung, colon, prostate, pancreas, and ovarian carcinoma. The mean value of relative KLK11 expression ratio was significantly higher in ovarian tumor samples than in normal ovary samples (compared with normal samples: adenoma, P = 0.0006; low malignant potential tumor, P = 0.0049; and carcinoma, P < 0.0001). No statistically significant associations between KLK11 mRNA expression level and clinical stage, histological type, or histological grade were observed. The log-rank test showed that high KLK11 mRNA expression and advanced clinical stage significantly correlated with poor patient survival (P = 0.0185 and P = 0.0043, respectively). High KLK11 mRNA expression and clinical stage remained significantly associated with overall survival (P = 0.0225 and P = 0.0202, respectively) after multivariate analysis. Conclusions: KLK11 expression may play an important role in ovarian cancer development and act as an independent prognostic marker in ovarian cancer patients.