Basic Research
Copyright ©2008 The WJG Press and Baishideng. All rights reserved.
World J Gastroenterol. Dec 21, 2008; 14(47): 7199-7207
Published online Dec 21, 2008. doi: 10.3748/wjg.14.7199
Tissue array for Tp53, C-myc, CCND1 gene over-expression in different tumors
Guo-Yan Liu, Qi Luo, Bin Xiong, Chao Pan, Ping Yin, Hong-Feng Liao, Wei-Chun Zhuang, Hong-Zhi Gao
Guo-Yan Liu, Zhongnan Hospital, Wuhan University, Wuhan 430071, China; The General Surgery of the Affiliated Zhongshan Hospital of Xiamen University, The Digest Disease Research Institution of Xiamen University, Xiamen 361004, Fujian Province, China
Qi Luo, Chao Pan, Ping Yin, Hong-Feng Liao, Wei-Chun Zhuang, Department of General Surgery, Affiliated Zhongshan Hospital of Xiamen University; Digest Disease Research Institute of Xiamen University, Xiamen 361004, Fujian Province, China
Bin Xiong, Zhongnan Hospital, Wuhan University, Wuhan 430071, Hubei Province, China
Hong-Zhi Gao, The Second Affiliated Hospital of Fujian Medical University, Fujian Province, China
Author contributions: Liu GY designed the study, performed the experiment, analyzed the data, and wrote the paper; Luo Q, Xiong B directed the study; Pan C, Yin P, Liao HF made the pathologic diagnosis; Zhuang WC, Gao HZ assisted in the experiment.
Correspondence to: Dr. Qi Luo, Department of General Surgery, Affiliated Zhongshan Hospital of Xiamen University, Xiamen 361004, Fujian Province, China. 6286740@163.com
Telephone: +86-592-8891861
Received: June 14, 2008
Revised: November 20, 2008
Accepted: November 27, 2008
Published online: December 21, 2008
Abstract

AIM: To rapidly detect molecular alterations in different malignancies and investigate the possible role of Tp53, C-myc, and CCND1 genes in development of tumors in human organs and their adjacent normal tissues, as well as the possible relation between well- and poorly-differentiated tumors.

METHODS: A tissue array consisting of seven different tumors was generated. The tissue array included 120 points of esophagus, 120 points of stomach, 80 points of rectum, 60 points of thyroid gland, 100 points of mammary gland, 80 points of liver, and 80 points of colon. Expressions of Tp53, C-myc, and CCND1 were determined by RNA in situ hybridization. 3’ terminal digoxin-labeled anti-sense single stranded oligonucleotide and locked nucleic acid modifying probe were used.

RESULTS: The expression level of Tp53 gene was higher in six different carcinoma tissue samples than in paracancerous tissue samples with the exception in colon carcinoma tissue samples (P < 0.05). The expression level of CCND1 gene was significantly different in different carcinoma tissue samples with the exception in esophagus and colon carcinoma tissue samples. The expression level of C-myc gene was different in esophagus carcinoma tissue samples (χ2 = 18.495, P = 0.000), stomach carcinoma tissue samples (χ2 = 23.750, P = 0.000), and thyroid gland tissue samples (χ2 = 10.999, P = 0.004). The intensity of signals was also different in different carcinoma tissue samples and paracancerous tissue samples.

CONCLUSION: Over-expression of the Tp53, CCND1, and C-myc genes appears to play a role in development of human cancer by regulating the expression of mRNA. Tp53, CCND1 and C-myc genes are significantly correlated with the development of different carcinomas.

Keywords: Tp53; C-myc; CCND1; Tissue microarray; RNA in situ hybridization