Chen-Wen Yao

Increasing expression of extracellular matrix metalloprotease inducer in ovary tumors : Tissue microarray analysis of immunostaining score with clinicopathological parameters

Summary: Ovary cancer invasion is responsible for both local tissue destruction and distant metastasis. Invasion is largely mediated by matrix metalloproteases that are thought to be induced by tumor cell-derived extracellular matrix metalloprotease inducer (EMMPRIN) in surrounding fibroblasts. We hypothesized that EMMPRIN isoverexpressed in ovary tumors. Immunohistochemical analysis of EMMPRIN was performed in tissue microarrays of ovary neoplasms including 84 cases of serous adenocarcinoma, 23 cases of mucinous adenocarcinoma, 10 cases of endometrioid adenocarcinoma, 12 cases of yolk sac tumor, 12 cases of clear cell carcinoma, 8 cases of dysgerminoma, 8 cases of granulosa cell tumor, 6 cases of transitional cell carcinoma, and 6 cases of Brenner tumor. All malignant ovary tumors showed significant immunohistochemical expression of EMMPRIN. The EMMPRIN scores in malignant ovary tumors were significantly higher than their nontumor counterparts (313 ± 28 for serous adenocarcinoma; 308 ± 25 for mucinous adenocarcinoma; 187 ± 19 for endometrioid adenocarcinoma; 265 ± 23 for yolk sac tumors; 87 ± 13 for clear cellcarcinoma; 126 ± 15 for dysgerminoma; 243 ± 26 for granulosa cell tumor; 87 ± 16 for transitional cell carcinoma). The EMMPRIN score was significantly higher in serous adenocarcinomas than in serous adenomas and serous borderline tumors and was correlated with nodal stage. Our findings show for the first time that EMMPRIN is overexpressed in all malignant ovary tumors.

Increasing expression of serine protease matriptase in ovarian tumors: tissue microarray analysis of immunostaining score with clinicopathological parameters

Matriptase is a type II transmembrane serine protease expressed by cells of surface epithelial origin, including epithelial ovarian tumor cells. Matriptase cleaves and activates proteins implicated in the progression of cancer and represents a potential prognostic and therapeutic target. The aim of this study was to examine the expression of matriptase in ovarian tumors and to assign clinicopathological correlations. Immunohistochemical analysis of matriptase was performed in tissue microarrays of 164 ovarian neoplasms including 84 serous adenocarcinomas, 23 mucinous adenocarcinomas, 10 endometrioid adenocarcinomas, six yolk sac tumors, 12 clear cell carcinomas, six dysgerminomas, eight granulosa cell tumors, four transitional cell carcinomas, five fibromas, and six Brenner tumors. All ovarian tumors except the fibromas and Brenner tumors showed significant expression of matriptase. The matriptase scores were significantly higher in the tumors than in their nontumor counterparts (304±26 for serous adenocarcinoma; 361±28 for mucinous adenocarcinoma; 254±17 for endometrioid adenocarcinoma; 205±19 for yolk sac tumor; 162±16 for clear cell carcinoma; 109±11 for dysgerminoma; 105±9 for granulosa cell tumor; and 226±18 for transitional cell carcinoma). Matriptase scores in serous adenocarcinoma were correlated with TNM stage and FIGO stage. Our findings demonstrate for the first time that matriptase is overexpressed in many malignant ovarian tumors. It may be a novel biomarker for diagnosis and treatment of malignant ovarian tumors.

Expression of Serine Protease Matriptase in Renal Cell Carcinoma: Correlation of Tissue Microarray Immunohistochemical Expression Analysis Results with Clinicopathological Parameters

Serine protease matriptase (matriptase) cleaves and activates proteins implicated in the progression of cancer and represents a potential therapeutic target. Immunohistochemical analysis of matriptase was performed in tissue microarrays of 168 renal cell carcinomas (RCCs). All subtypes of RCC showed significant immunohistochemical expression of matriptase. In contrast, no expression occurred in areas of RCC with sarcomatous differentiation (SRCC) and in normal collecting tubules. The matriptase scores were significantly higher in papillary RCC (341) and clear cell RCC with granular cell differentiation (GRCC; 324) than in other histologic subtypes of RCC. In GRCC, matriptase scores were correlated with TNM staging and nuclear grading. Matriptase was overexpressed in all subtypes of RCC, and matriptase scores could distinguish between conventional clear cell RCC, GRCC, and SRCC.