M Z Zheng1, L M Zheng, Y X Zeng. 1. State Key Laboratory of Oncology in Southern China, Department of Experimental Research, Sun Yat-sen University Cancer Center, 651 Dongfeng Road East, Guangzhou, 510060, People's Republic of China.
Abstract
PURPOSE: SCC-112 is a novel cell cycle-related gene and differentially expressed in cancers. Suggesting the complex role of SCC-112 might be existent in cell proliferation and tumor development. The relative research on SCC-112 has been few so far. This study is attempted to explore the role of SCC-112 in tumorigenesis. EXPERIMENTAL DESIGN: RT-PCR and western blot were performed on seven tumor-normal paired tissues and nine cell lines. Immunohistochemistry was carried out for analyzing the expression of SCC-112 in nasopharyngeal tissues. 293T and three nasopharyngeal cell lines were transfected with expression vector (pCMV-SPORT6-SCC-112) or its siRNA. Cell proliferation was examined by MTT and clone formation experiments. Immunoprecipitation determined the interacted protein of SCC-112, and FACS detected cell cycle parameter on cells treated with synchronized reagent. RESULTS: SCC-112 ( approximately 150 kDa) is up-regulated in tumor tissue as compared to the corresponding normal tissue and was detected in the tested cell lines. Overexpression of SCC-112 ( approximately 150 kDa) in 293T and three nasopharyngeal cell lines promoted cell proliferation and clone formation while downregulation of SCC-112 ( approximately 150 kDa) in these cells resulted in the opposite. Moreover, SCC-112 was found to interact with p63 and overexpression of SCC-112 up-regulated p63 expression. SCC-112 expression level positively correlated with cells in G2/M phase. CONCLUSIONS: These findings suggest that SCC-112 improve cell proliferation and contributes to tumorigenesis by interacting with p63 and promoting cell cycling. SCC-112 might be an alternative target in tumor biomarking and mechanistic investigation.
PURPOSE:SCC-112 is a novel cell cycle-related gene and differentially expressed in cancers. Suggesting the complex role of SCC-112 might be existent in cell proliferation and tumor development. The relative research on SCC-112 has been few so far. This study is attempted to explore the role of SCC-112 in tumorigenesis. EXPERIMENTAL DESIGN: RT-PCR and western blot were performed on seven tumor-normal paired tissues and nine cell lines. Immunohistochemistry was carried out for analyzing the expression of SCC-112 in nasopharyngeal tissues. 293T and three nasopharyngeal cell lines were transfected with expression vector (pCMV-SPORT6-SCC-112) or its siRNA. Cell proliferation was examined by MTT and clone formation experiments. Immunoprecipitation determined the interacted protein of SCC-112, and FACS detected cell cycle parameter on cells treated with synchronized reagent. RESULTS:SCC-112 ( approximately 150 kDa) is up-regulated in tumor tissue as compared to the corresponding normal tissue and was detected in the tested cell lines. Overexpression of SCC-112 ( approximately 150 kDa) in 293T and three nasopharyngeal cell lines promoted cell proliferation and clone formation while downregulation of SCC-112 ( approximately 150 kDa) in these cells resulted in the opposite. Moreover, SCC-112 was found to interact with p63 and overexpression of SCC-112 up-regulated p63 expression. SCC-112 expression level positively correlated with cells in G2/M phase. CONCLUSIONS: These findings suggest that SCC-112 improve cell proliferation and contributes to tumorigenesis by interacting with p63 and promoting cell cycling. SCC-112 might be an alternative target in tumor biomarking and mechanistic investigation.
Authors: Salvador A Benitah; Pilar F Valerón; Linda van Aelst; Christopher J Marshall; Juan Carlos Lacal Journal: Biochim Biophys Acta Date: 2004-12-17