Hiroki Nagayasu

Enhancing Effects of Epidermal Growth Factor on Human Squamous Cell Carcinoma Motility and Matrix Degradation But Not Growth

In order to ascertain the effects of epidermal growth factor (EGF) on human cancer invasion abilities, three cell lines of human oral squamous cell carcinoma were studied using a phagokinetic track assay and zymography. EGF (1-100 ng/ml) was found to inhibit the growth but enhance the random motility of all three cell lines in a concentration-dependent fashion. Exposure to EGF, dose-dependently, led to an increased production of urokinase-type plasminogen activator and M(r) 92 kD matrix metalloproteinase by the same cells. These results strongly suggest that EGF may promote human squamous cell carcinoma invasion and metastasis.

High frequency of hypermethylation of p14, p15 and p16 in oral pre-cancerous lesions associated with betel-quid chewing in Sri Lanka.

BACKGROUND Oral squamous cell carcinoma and the most common oral pre-malignancies appear to be related to the habit of betel-quid chewing in Sri Lanka. Although hypermethylation of the tumour suppressor genes in oral cancer have been well documented, little information has been available concerning hypermethylation in oral pre-cancerous lesions. In the present study, we investigated the hypermethylation of p14, p15 and p16 in pre-cancerous lesions including epithelial dysplasia and submucous fibrosis. METHODS All samples were obtained from patients with a betel-quid chewing habit in Sri Lanka. Sixty-four patients were clinically diagnosed with leukoplakia, and histopathologically diagnosed with mild or severe dysplasia. Ten patients were diagnosed with submucous fibrosis without epithelial dysplasia. CpG island hypermethylation was assessed by a methylation-specific PCR method. Immunohistochemical staining was performed using anti-p53 antibodies. RESULTS A high frequency of hypermethylation of p14, p15 and p16 was detected in the pre-cancerous lesions, although no hypermethylation was found in normal epithelium. The frequency of hypermethylation was higher than that of positive staining for p53 mutation except in the case of p16 in mild dysplasia. No significant correlation was observed between p53-positive reactions and hypermethylation in any lesions. The hypermethylation was highly detectable even in p53-negative lesions, suggesting that hypermethylation of p14, p15 and p16 occur regardless of whether the lesions have p53 mutations or not. CONCLUSIONS The present study indicates that hypermethylation may be involved in the pathogenesis of oral pre-cancerous lesions associated with betel-quid chewing in Sri Lanka.

Enhancement of Tumorigenicity and Invasion Capacity of Rat Mammary Adenocarcinoma Cells by Epidermal Growth Factor and Transforming Growth Factor‐β

We have studied the effects of growth factors and cytokines on the tumorigenicity and invasion capacity of tumor cells by using regressor and progressor tumor cell lines (ER‐1 and ERpP, respectively) derived from an SHR rat mammary adenocarcinoma. ER‐1 cells regress spontaneously whereas ERpP cells show invasive growth and high metastasis to lung and other organs in syngeneic SHR rats. When ER‐1 cells were pretreated with either epidermal growth factor (EGF) or transforming growth factor‐β (TGF‐β) for 24 h in vitro, and intraperitoneally transplanted into SHR rats, they grew and killed the host, whereas ER‐1 cells pretreated with tumor necrosis factor‐α did not. Tumorigenicity and invasion capacity of ERpP cells were also enhanced by treatment with EGF and TGF‐β. The ER‐1 cells pretreated with EGF, once grown in vivo, had acquired irreversible tumorigenicity and invasion capacity without requiring further EGF treatment, and the enhanced malignancy was irreversible. These findings suggest that growth factors play an important role in acquisition of malignancy of tumor cells.

Enhanced effect of epidermal growth factor on pulmonary metastasis and in vitro invasion of rat mammary carcinoma cells.

We examined the effects of epidermal growth factor (EGF) on metastatic and in vitro invasive capacity of weakly malignant ER-1 cells derived from a rat mammary carcinoma cell line, c-SST-2. EGF enhanced the metastatic capacity and in vitro invasiveness to reconstituted basement membrane, Matrigel, of ER-1 cells in a dose-dependent fashion. EGF-stimulated invasiveness was inhibited by anti-EGF antibody, which is able to neutralize the binding of EGF to EGF receptor, in the invasion assay system. EGF stimulated chemotactic migration toward fibronectin, laminin or newborn rat fibroblast-conditioned medium which was used as a chemoattractant in the in vitro invasion assay, but showed neither adhesion to Matrigel nor production of gelatinase and plasminogen activators. These results suggested that the increased metastatic and invasive capacity of ER-1 cells by EGF might be due to the increase in cell motility.

Expression pattern of p63 in oral epithelial lesions and submucous fibrosis associated with betel-quid chewing in Sri Lanka

Betel-quid chewing, which is closely related to the high incidence of oral cancer, is prevalent in Sri Lanka. p63 has a remarkable structural similarity to p53, suggesting an aberrant expression in oral cancer. Using anti-p63 antibody and immunohistochemistry, the present study investigated the expression pattern of p63 in oral epithelial lesions, including different types of squamous cell carcinoma (SCC), different grades of epithelial dysplasia, and submucosal fibrosis associated with betel-quid chewing. Nuclear immunoreactivity for p63 was detected in all the cases, including normal oral epithelium and epithelial lesions. In normal oral epithelium, nuclear positivity for p63 was observed in some of the basal cell layers and focally in the parabasal layer. Nuclear positivity increased in the epithelial lesions. The percentage of positive nuclei in the epithelial lesions was significantly higher than in normal epithelium (P < 0.01) and was also significantly higher in oral submucosal fibrosis than in epithelial dysplasia (P < 0.05). The results indicate that the overexpression of p63 in oral precancerous lesions and SCC in betel-quid chewers in Sri Lanka may be a useful marker for oral precancerous lesions.

Inhibitory effects of malotilate on invasion and metastasis of rat mammary carcinoma cells by modifying the functions of vascular endothelial cells.

Malotilate (diisopropyl,1,3-dithiol-2-ylidenemalonate, MT) is clinically used as a hepatoprotective agent. Because we noticed that MT induced the differentiation of cultured vascular endothelial cells, we have examined its effects on lung metastasis of the highly metastatic rat mammary carcinoma c-SST-2. MT was orally administered to syngeneic SHR rats from 7 days before or after s.c. inoculation of c-SST-2 cells to the end of the experiments. In the MT-treated rats, pulmonary metastasis was markedly suppressed compared with the non-treated rats. In the rats treated with MT for 19 days after i.v. inoculation of c-SST-2 cells, lung metastasis was also significantly suppressed. An in vitro invasion assay using a rat lung endothelial (RLE) cell monolayer revealed that pretreatment of the RLE cells with MT, but not c-SST-2 cells, significantly reduced the invasion of the RLE monolayer by c-SST-2 cells. An in vitro vascular permeability assay demonstrated that MT prevented the increase in permeability of the RLE monolayer by serum starvation. On the other hand, in vivo and in vitro growth, gelatinase production and adhesion to the RLE cell monolayer of c-SST-2 cells were not affected by MT treatment. These findings suggest that MT suppressed tumour metastasis by intensifying the cell-to-cell contact of endothelial cells, thus preventing tumour cells from invading vascular endothelium.

Inhibitory Effects of Malotilate on in vitro Invasion of Lung Endothelial Cell Monolayer by Human Oral Squamous Cell Carcinoma Cells

We have previously reported that malotilate (MT) inhibited the invasion and metastasis of rat mammary carcinoma cells through the modification of host endothelial cells. In this study, we examined the inhibitory effects of MT on invasion of human cancer, using five oral squamous cell carcinoma cells (SAS, Ca9-22 and HSC-2, -3 and -4). MT did not affect the growth of these tumor cells and the invasion of reconstituted basement membrane, Matrigel. In an in vitro invasion assay using rat lung endothelial (RLE) cells, invasion of tumor cells which had been treated with MT (10 ng/ml, 24 h) was not affected; however, when RLE cells had been treated with MT, invasion was significantly inhibited in three cell lines (SAS, Ca9-22 and HSC-4) and a tendency to inhibition was also observed in other cell lines. Electron-microscopical examination of the RLE monolayer treated with MT (MT-RLE) showed the development of gap and tight junction-like structures. Subsequently, junction-associated proteins, connexin 43, zonula occludin and desmoglein, were examined by Western blotting. Protein levels of connexin 43 and zonula occludin were elevated dose dependently, and connexin 43 was chronologically enhanced by MT whereas desmoglein was not. The enhanced gap junctional communication of MT-RLE cells was observed in the scrape-loading assay using lucifer yellow CH. These results suggest that MT promotes the development of cell-to-cell adhesion, e.g. gap junction and tight junction in endothelial cells, resulting in the inhibition of invasion by the tumor cells.

Characterization of the progressive sublines derived from a weakly malignant cloned cell line, ER-1, co-inoculated subcutaneously with a foreign body.

We previously established an experimental model of tumor progression using a weakly malignant rat mammary carcinoma cell line, ER-1. Using this model, we demonstrated that ER-1 cells converted into highly tumorigenic and metastatic cells, ERpP, by s.c. co-inoculation with plastic plates. We here compared in vitro biological properties associated with malignancy of ER-1 cells with those of ERpP cells which were highly malignant when inoculated into syngeneic rats. In vitro growth rate of ERpP cells was higher than that of ER-1 cells under a low nutrient condition. Invasion capacity of ERpP cells to rat lung endothelial cell monolayer or reconstituted basement membrane, Matrigel, was higher than that of ER-1 cells. Migration of ERpP cells toward fibronectin or laminin was also significantly higher than that of ER-1 cells.There was no difference in gelatinolytic or plasminogen activator activity detected in conditioned media between ER-1 and ERpP cells. Furthermore, we found that ER-1 cells communicated better among themselves and with normal fibroblasts through gap junctions compared to ERpP cells. These results suggest that growth advan-tage in a poor nutrient condition, enhancement of cell motility, and loss or decrease of junctional communication may be associated with tumor progression of ER-1 cells.

Immunohistochemical evaluation of Klotho and DNA methyltransferase 3a in oral squamous cell carcinomas

Carcinoma follows a course of multiple changes that are affected by several important factors, with epigenetic silencing of the promoter gene being one of them. A series of studies have suggested that epigenetic changes in the anti-aging gene Klotho may be one of the emerging areas of concern in the study of carcinogenesis. We hypothesized that epigenetic silencing of Klotho due to hypermethylation of DNMT3a may be one of the causes of carcinoma in the oral and maxillofacial region. In this study, we analyzed the immunohistochemical expressions of Klotho and DNMT3a in tissues obtained from oral dysplasia and oral squamous cell carcinoma. Our results showed increased immune expression of DNMT3a, and decreased expression of Klotho in cells of the cancer tissues when compared with those in the dysplasia and healthy control samples. Chi-square tests complemented by adjusted residual analysis revealed significantly higher number of Klotho-positive and DNMT3a-negative cases in healthy controls, Klotho-negative and DNMT3a-negative cases in ODL, and Klotho-negative and DNMT3a-positive cases in OSCC when compared with the other types among the three groups (X2 = 46.66, p < 0.001). Thus, downregulation of Klotho may be associated with the overexpression of DNMT3a in cancer tissues.

hBD-2 is downregulated in oral carcinoma cells by DNA hypermethylation, and increased expression of hBD-2 by DNA demethylation and gene transfection inhibits cell proliferation and invasion

Human β-defensin-2 (hBD-2) is a type of epithelial antimicrobial peptide. The expression level of hBD-2 mRNA is lower in oral carcinoma cells (OCCs) than in healthy oral epithelium. Yet, it is still unknown how hBD-2 expression is downregulated in OCCs. The present study investigated DNA hypermethylation of hBD-2 in OCCs and the effect of the demethylation and increased expression of hBD-2 on cell proliferation and invasion. Six different types of oral carcinoma cell lines (OSC-19, BSC-OF, SAS, HSC-2, HSC-4 and HSY) and normal oral keratinocytes (NOKs) were used. The expression levels of hBD-2 in all OCCs were significantly lower than that in the NOKs. Treatment with DNA methyltransferase inhibitor, 5-aza-dC, at the concentration of 50 μM significantly induced upregulation of expression of hBD-2 in the OCCs. Using methylation-specific PCR, DNA hypermethylation was observed in all OCCs. These results suggest that DNA hypermethylation is, at least in part, involved in the decreased expression of hBD-2 in OCCs. We examined the effect of 5-aza-dC on the cell proliferation and invasive ability of OCCs. The cell invasion assays showed that the number of OCCs treated with 5-aza-dC on the filters was significantly lower than that of the controls. We examined whether increased expression of hBD-2 generated by gene transfection inhibited the proliferation and invasion of SAS cells. The number of SAS cells exhibiting increased expression of hBD-2 on the filters in the invasion assay were significantly lower on day 7 when compared with the control. hBD-2 may function as a tumor suppressor. Increased expression of hBD-2 induced by demethylation or increased expression generated by gene transfection may be useful therapeutic methods for oral carcinoma.