Hepatocyte growth factor activator inhibitor type-1 (HAI-1) is an integral-membrane proteinase inhibitor. In this study, we examined the effects of HAI-1 on human glioblastoma cells. Two glioblastoma cell lines (YKG-1, U251) were stably transfected with expression plasmid harboring mature membrane-form or truncated secreted-form HAI-1. Culture characteristics were not altered by the expression of HAI-1, whereas in vitro invasiveness of U251 was suppressed. On the other hand, the expression of membrane-form HAI-1 resulted in significantly enhanced tumorigenicity of both cell lines in vivo. In contrast, secreted-form HAI-1 did not promote the tumorigenicity. These results suggest that HAI-1 may play complex roles in progression of glioblastoma cells, and membrane-form HAI-1 may mediate an undefined important signaling in the cells.

Hepatocyte growth factor/scatter factor (HGF/SF) is a multifunctional growth factor that is involved in invasive growth of tumor cells via its receptor MET, a protein product of c-met proto-oncogene. HGF activator (HGFA) is a serine proteinase responsible for the activation of proform of HGF/SF (proHGF/SF). In our study, we examined the effects of engineered expression of HGFA on 2 human glioblastoma cell lines (YKG-1 and U251). Both cells expressed MET, while only YKG-1 expressed endogenous proHGF/SF. Enhanced MET phosphorylation and increased migratory activity were induced by the expression of HGFA in YKG-1 cells in vitro in the presence of thrombin, which is a known activator of proHGFA. In contrast, MET phosphorylation was consistently observed in U251 that lacked endogenous HGF/SF, suggesting ligand-independent activation of MET in this cell line. Consequently, the expression of HGFA in U251 did not enhance the MET phosphorylation and following cellular response even with the thrombin treatment. However, addition of exogenous proHGF/SF resulted in enhanced migratory activity of HGFA-expressing U251 cells in the presence of thrombin in vitro. The engineered HGFA expression resulted in significantly enhanced tumor growth with increased vascular density in vivo when YKG-1 cells were implanted in nude mouse brain. This effect was not observed in U251 lacking endogenous proHGF/SF. These results indicate the possible existence of multiple mechanisms of MET activation in glioblastomas and that the activation system of proHGF/SF is important in progression of glioblastomas that express endogenous proHGF/SF and require ligand-dependent MET activation.

An unusual case of glioblastoma with adenoid structures arising in a 30-year-old Japanese woman with neurofibromatosis type-1 (NF1) is reported. The patient was admitted to University of Miyazaki Hospital, complaining of headache, nausea and vomiting. From the neuroradiological findings the patient was diagnosed as having glioblastoma, and the tumor was surgically resected. Histologically, the tumor consisted mainly of dark basophilic cells showing prominent tubular or glandular structures surrounded by large eosinophilic cells, in addition to the typical glioblastoma features in the periphery of the tumor. Both cells showed strong stainability with glial fibrillary acidic protein (GFAP) and S-100 protein immunohistochemically, so that the tumor was classified as adenoid glioblastoma. Several cases of glioblastoma have been reported to reveal the adenoid or epithelioid differentiation. The patients with NF1 are prone to develop malignant tumors including glioblastoma, but no cases representing adenoid glioblastoma associated with NF1 have been reported. This report is considered to be the first case of adenoid glioblastoma arising in a patient with NF1. The recognition of the existence of epithelial features of glioblastoma would be important in differential diagnosis of epithelioid tumors of the brain including metastatic carcinomas.

We previously reported a novel small gene, designated hepatocyte growth factor activator inhibitor type 2 (HAI-2) related small peptide (H2RSP), in the process of the search for splicing variant forms of HAI-2 by 3(')-rapid amplification of cDNA ends method [Biochem. Biophys. Res. Commun. 288 (2001) 390]. Human H2RSP gene consisted of four exons spanning approximately 1kbp and was located in 11kbp downstream of HAI-2 gene. In this study, we cloned and characterized the mouse counterpart of H2RSP gene, which was located in 6.6kbp downstream of mouse HAI-2 gene, and analyzed the transcripts generated from both genes. Similar to human, mouse H2RSP mRNA (0.5kb) was detected abundantly in various tissues including the gastrointestinal tract, and has nuclear localization signal (NLS) in the lysine-rich region (exon 4), which was well-conserved between human and mouse genes. However, chimeric mRNA transcribed from both HAI-2 (exons 1-7) and H2RSP (exons 2-4) genes, which was found in the kidney, prostate, and placenta of human by Northern blot analysis, was not detected in mouse tissue even by a reverse transcription-polymerase chain reaction (RT-PCR). Instead of the chimeric mRNA, a novel splicing variant lacking putative transmembrane domain of HAI-2 was found in mouse but not in human as a putative secrete form of HAI-2. These results suggest that the organization of H2RSP and HAI-2 gene complex is well-conserved, but the usage of these genes was quite different between human and mouse.

Hepatocyte growth factor activator inhibitor type 1 (HAI-1) is a membrane-associated Kunitz-type serine proteinase inhibitor that was initially identified as a potent inhibitor of hepatocyte growth factor activator. HAI-1 is also a cognate inhibitor of matriptase, a membrane-associated serine proteinase. HAI-1 is expressed predominantly in epithelial cells in the human body. Its mRNA is also abundant in human placenta, with HAI-1 specifically expressed by villous cytotrophoblasts. In order to address the precise roles of HAI-1 in vivo, we generated HAI-1 mutant mice by homozygous recombination. Heterozygous HAI-1+/- mice underwent normal organ development. However, homozygous HAI-1-/- mice experienced embryonic lethality which became evident at embryonic day 10.5 postcoitum (E10.5). As early as E9.5, HAI-1-/- embryos showed growth retardation that did not reflect impaired cell proliferation but resulted instead from failed placental development and function. Histological analysis revealed severely impaired formation of the labyrinth layer, in contrast all other placental layers, such as the spongiotrophoblast layer and giant cell layer, which were formed. Our results indicate that mouse HAI-1 is essential for branching morphogenesis in the chorioallantoic placenta and lack of HAI-1 function may result in placental failure.

BACKGROUND AND AIMS: Hepatocyte growth factor activator (HGFA) is a serum proteinase that specifically converts an inactive single-chain form of hepatocyte growth factor (HGF) into an active 2-chain form. HGFA is produced in its precursor form and then activated in injured tissues. To address the precise role of HGFA and to investigate the mechanisms of HGF activation in injured tissues, we generated mice deficient in HGFA. METHODS: HGFA-deficient mice were generated using targeted gene disruption. The regenerating process of intestinal mucosa damaged by oral administration of dextran sodium sulfate (DSS) or by rectal administration of acetic acid was examined in both HGFA-deficient and control mice. HGF processing activity was analyzed using Western blotting and an HGF activation assay. RESULTS: Homozygous mutant mice were viable and fertile without obvious abnormalities. When mice were treated with 3% DSS in drinking water for 6 days followed by distilled water without DSS, 72% of HGFA-deficient mice died through day 12 while 75% of control mice survived injury. Similar results were also observed in the acetic acid-induced intestinal injury; the survival rate was 36.6% in HGFA-deficient mice and 84.2% in control mice. In HGFA-deficient mice, the injured mucosa was not sufficiently covered by regenerated epithelium and the activation of HGF was impaired in the injured colon. CONCLUSIONS: These results indicate that HGFA is required for repair of injured intestinal mucosa but is not essential for normal development during embryogenesis or after birth.

The activation of hepatocyte growth factor (HGF)/scatter factor (SF) in an extracellular milieu is a critical limiting step in HGF/SF-induced signaling that is believed to have important roles in invasive growth of tumor cells and regeneration of injured tissue. This activation is caused by a proteolytic cleavage at the bond between Arg494-Val495 in the single-chain HGF/SF precursor, generating an active two-chain heterodimeric form. The HGF activator (HGFA) is a coagulation factor XII-like serine proteinase critically involved in this process in injured tissues including tumor tissues. In the past several years, the identification of endogenous HGFA inhibitors (HAIs) has provided detailed knowledge of the regulation of HGFA activity. Currently, two types of HAIs, namely HAI-1 and HAI-2, have been reported. Both are Kunitz-type serine proteinase inhibitors and inhibit not only HGFA but also other serine proteinases, such as membrane-type serine protease 1 (matriptase), plasmin, trypsin and kallikreins. HAIs are of particular interest because they are synthesized as type-I transmembrane proteins. Therefore, HAIs must have important regulatory roles in a cell surface proteolytic reaction, which has emerged as an important mechanism for the generation of biologically active proteins mediating a diverse range of cellular functions. This review is a summary and interpretation of recent data regarding the regulation of pericellular HGF/SF activation mediated by HGFA and HAIs and includes a discussion of the possible role of the type I transmembrane Kunitz-type inhibitor in pericellular proteolysis.

Hepatocyte growth factor activator inhibitor type 2 (HAI-2) is a serine proteinase inhibitor containing two Kunitz-type inhibitor domains, initially identified as a potent inhibitor of hepatocyte growth factor activator (HGFA). In a previous study (Biochem. Biophys. Res. Commun. 255, 740-748, 1999), we reported that a predominant transcript of mouse HAI-2 is a splicing variant lacking the first Kunitz domain (KD-1). Since KD-1 was reported to be responsible for the inhibition of HGFA in human HAI-2 and the second Kunitz domain (KD-2) of human HAI-2 was much less inhibitory against HGFA, it has been suggested that most of mouse HAI-2 may be ineffective in inhibiting HGFA. In this study, we have performed functional characterization of Kunitz domains in mouse HAI-2 by using recombinant proteins synthesized by Chinese hamster ovary cells without or with point mutation in the putative reactive site of each Kunitz domain. The results revealed that, unlike human HAI-2, KD-2 of mouse HAI-2 efficiently inhibits HGFA. Therefore, the major mouse HAI-2 protein that consists only of KD-2 can be a potent inhibitor of HGF activation in vivo.

Hepatocyte growth factor activator inhibitor type 1 (HAI-1)/spint-1 is a membrane-bound protease inhibitor that is thought to regulate the activities of hepatocyte growth factor activator, matriptase, hepsin, and prostasin. In this study, we show that the membrane form of HAI-1 was significantly upregulated immunohistochemically in epithelial cells under adverse conditions including tissue injury, necroinflammatory reactions, and invasion of carcinomas. To analyze the mechanism underlying these in vivo observations, we examined the effects of hypoxia and oxidative stress on HAI-1 expression in vitro, using three human cell lines, HLC-1, WiDr, and HeLa. Hypoxic condition significantly enhanced the expression of HAI-1 in these cells. Oxidative stress also enhanced HAI-1 expression. Promoter analyses of the human HAI-1/spint-1 gene revealed overlapping binding site for Egr-1-3 and Sp1 near the transcription start site as the key domain for HAI-1/spint-1 transcription. This site was also critical in both hypoxic- and oxidative stress-induced HAI-1 upregulation. In fact, in vivo immunohistochemical studies indicated that areas with HAI-1 upregulation tended to express markers associated with hypoxia and oxidative stress. These observations suggest that the tissue microenvironment regulates the cell surface expression of HAI-1, and thereby may regulate proteolysis and processing of bioactive molecules on the cellular surface.

Hepatocyte growth factor activator inhibitor type 1 (HAI-1) is a membrane-bound serine proteinase inhibitor having two extracellular Kunitz-type proteinase inhibitor domains (KD) namely KD-1 and KD-2. It efficiently inhibits hepatocyte growth factor activator, matriptase, hepsin, prostasin and trypsin. We have previously reported that the expression of HAI-1 suppresses the in vitro invasive capability of human glioblastoma cells. In this study we examined the role of each KD in the anti-invasive effect of HAI-1. Engineered over-expression of the mature membrane-form HAI-1 suppressed in vitro fibrin gel invasion of two human glioblastoma cell lines, U251 and YKG-1. The migratory activity on type IV collagen was also suppressed by the HAI-1 expression. These effects were not affected by the deletion of intracytoplasmic domain of HAI-1. A truncated secreted form of HAI-1 also suppressed in vitro invasion of the cells, indicating that the extracellular portion of HAI-1 was responsible for the anti-invasive effect. To determine the roles of each KD in the anti-invasive effect of HAI-1 in vitro, we constructed expression plasmids for HAI-1 with or without mutation at the P1 position of the reactive site of each KD. The results revealed that the proteinase inhibitor activity of N-terminal KD (KD-1) is responsible for the anti-invasion effect of HAI-1.

The purpose of this work is to seek putative markers for multi-targeted therapeutic treatment of human glioblastoma. We previously developed an anti-HGF neutralizing antibody cocktail Amix that inhibits human glioblastoma growth in mouse xenograft models. When these treated tumors were re-injected into nude mice and treatment with the neutralizing antibody cocktail plus heparin was repeated, the growth of the twice-treated tumors became HGF-independent, suggesting a possible switch in dominant signaling pathways. Microarray of the tumor cells revealed a number of genes elevated in the twice-treated tumor cells relative to untreated control tumors, including BAI1, CASP8, IL8, IGF1, TGFB1 and TNF. Our analyses provide a series of putative markers for additional evaluation in treating glioblastoma. Multi-targeted therapeutic approach might be a better solution for treating this disease.

(1) A new human glioblastoma multiforme (GBM) cell line, WJ1, was established from the tissue derived from a 29-year-old patient diagnosed with a grade IV GBM.(2) The WJ1 cell line has been subcultured for more than 80 passages in standard culture media without feeder layer or collagen coatings.(3) GBM cells grow in vitro with distinct morphological appearance. Ultrastructural examination revealed large irregular nuclei and pseudo-inclusion bodies in nuclei. The cytoplasm contained numerous immature organelles and a few glia filaments. Growth kinetic studies demonstrated an approximate population doubling time of 60 h and a colony forming efficiency of 4.04%. The karyotype of the cells was hyperdiploid, with a large subpopulation of polyploid cells. Drug sensitivities of DDP, VP-16, tanshinone IIA of this cell line were assayed. They showed a dose- and time-dependent growth inhibition effect on the cells.(4) Orthotopic transplantation of GBM cells into athymic nude mice induced the formation of solid tumor masses about 6 weeks. The cells obtained from mouse tumor masses when cultivated in vitro had the same morphology and ultrastructure as those of the initial cultures.(5) This cell line may provide a useful model in vitro and in vivo in the cellular and molecular studies as well as in testing novel therapies for human glioblastoma multiforme.

A cell line, designated as RMG-V, was established from a patient with clear cell adenocarcinoma of the ovary. The cell line has grown without interruption and has been propagated continuously by serial passaging (more than 36 times) over 5 years. The cells are spindle-shaped, display neoplastic and pleomorphic features, and grow in a jigsaw puzzle-like arrangement while forming monolayers without contact inhibition. These cells proliferate rapidly, and the population doubling time is about 15.5 hours. The number of chromosomes ranges between 77 and 85, with a modal number of 83.

1. A human glioma cell line, NG97, was established by Grippo et al. in 2001 from tissue obtained from a grade III astrocytoma (WHO, 2000). In this first study, the cell line grew as two morphologically distinct subpopulations: dendritic/spindle cells and small round cells. The injection of NG97 cells into nude mice induced an aggressive tumor characterized by: severe cytological atypia, vascular proliferation and pseudopalisading necrosis (glioblastoma multiforme features). 2. The purpose of the present study was to characterize the immunophenotype and ultrastructural aspects of this cell line, using the parental tumor, cultured cells and the xenotransplant, in order to assess its glial nature and possible divergent differentiation. 3. NG97 cells and xenotransplant expressed the main neuroglial markers (GFAP, S-100 protein, NSE and Leu-7) and showed no aberrant expression of other histogenetic markers. GFAP was similarly expressed in the parental tumor and in the cells in culture, but decreased in the xenotransplant. NSE expression was reduced in NG97 cells, but substantially recovered in the xenotransplant. This variability in expression of GFAP and NSE was interpreted as either a phenomenon of dedifferentiation or to microenvironmental selection of specific subclones. S-100 was equally expressed in the three contexts. The xenotransplant's ultrastructural features were those of a highly undifferentiated tumor. No significant immunophenotypic or ultrastructural differences between the two morphologically distinct populations were found. 4. Thus, our data demonstrate that NG97 cells constitute a pure glial-committed cell line, which may prove useful as a malignant glioma model in studies addressing pathophysiological, diagnostic and therapeutic issues.

A cell line designated "HIBSPP" was established from a human malignant choroids plexus papilloma of 29-year-old Japanese woman. This line grew well without interruption for 3 years and was subcultivated over 70 times. The cells were spindle, oval, and polygonal in shape, and neoplastic and pleomorphic features, a jigsaw puzzle-like arrangement, multilayering and forming papillary structures without contact inhibition. The cells proliferated slowly, and the population doubling time was about 69 hours. The chromosome number showed a wide distribution of aneuploidy. The mode was in the hypotetraploid range, and many marker chromosomes were observed. The culture cells were easily transplanted into the subcutis of nude mice and produced the tumor resembling the original tumor.

We succeeded in primary culture of 3 in 4 cases of glioblastomas. The long-term passage cultures were not done from the primary cultures of original tumor, but glioblastoma cell line (HUBT-n) was established from a xenograft of nude mouse. This line grew well without interruption for 4 years and was subcultivated over 120 times. The cells were spindle like or round in shape and neoplastic and pleomorphic features contained glial fibrillar acid protein (GFAP) and S-100 protein and grew multilayering without contact inhibition. A bough-shaped long projection was noted from a small cell. One of the characteristics of the HUBT-n cells was existence of well developed intermediate filaments in their cytoplasm. The cells proliferated rapidly, and the population doubling time was about 32 hours. The chromosome number showed a narrow distribution of diploid range. Abnormal constitution was observed in all cells by G-band karyotyping. The culture cells were easily transplanted into the subcutis of nude mouse and produced the tumor resembling the original tumor.

A cell line designated HTLS was established from the retroperitoneal liposarcoma. The HTLS line showed stable proliferation without interruption for 2 years and subcultivated over 35 times. The cells were elongated fibrous and spindle in shape, and neoplastic and pleomorphic features. The multinucleated giant cells with fine cytoplasm were seen. The cells proliferated slowly and the population doubling time was about 90 hours. The chromosome number showed a wide distribution of aneuploidy, the mode was hyperdiploid range (51-52), and many marker chromosomes were observed. The cells were transplantable into the submucosa of immunesuppressed hamster's cheek pouch and produced liposarcoma, while were not transplantable into subcutis of nude mice

Hepatocyte growth factor activator inhibitor type-1 (HAI-1) is an integral-membrane proteinase inhibitor. In this study, we examined the effects of HAI-1 on human glioblastoma cells. Two glioblastoma cell lines (YKG-1, U251) were stably transfected with expression plasmid harboring mature membrane-form or truncated secreted-form HAI-1. Culture characteristics were not altered by the expression of HAI-1, whereas in vitro invasiveness of U251 was suppressed. On the other hand, the expression of membrane-form HAI-1 resulted in significantly enhanced tumorigenicity of both cell lines in vivo. In contrast, secreted-form HAI-1 did not promote the tumorigenicity. These results suggest that HAI-1 may play complex roles in progression of glioblastoma cells, and membrane-form HAI-1 may mediate an undefined important signaling in the cells.

We placed on culture the 13 cases of meningiomas, succeeded in making a primary culture of 10 cases and maintained 5 cases in vitro over considerable period of time (over three month), and one cell line derived from a malignant meningioma were established. In the early period of the primary culture, meningioma cells were spindle- or round-shaped cells. In the case of psammomatous type, the cultured cells were characterized as forming psammoma bodies. A cell line designated "HKBMM" was established from a human malignant meningioma occurred from frontal lobe. This line grew well without interruption for 5 years and was subcultivated over 120 times. The cells were spindle and fibrous in shape, and neoplastic and pleomorphic features, and multilayering without contact inhibition. The cells proliferated rapidly, and the population doubling time was about 29 hours. The chromosome number showed a wide distribution of aneuploidy. The mode was in the diploid range. The culture cells were easily transplanted into the subcutis of nude mice and produced the tumor resembling the original tumor.