Original Articles
Copyright ©The Author(s) 1999. Published by Baishideng Publishing Group Inc. All rights reserved.
World J Gastroenterol. Oct 15, 1999; 5(5): 408-416
Published online Oct 15, 1999. doi: 10.3748/wjg.v5.i5.408
Regulatory effect and mechanism of gastrin and its antagonists on colorectal carcinoma
Shuang-Wu He, Kang-Qiang Shen, Yu-Jun He, Bin Xie, Yan-Ming Zhao
Shuang-Wu He, Kang-Qiang Shen, Yu-Jun He, Bin Xie, Yan-Ming Zhao, Department of General Surgery, Daping Hospital and Research Institute of Surgery, the Third Military Medicine University, Chongqing 400042, China
Shuang-Wu He, female, born on 1936-10-11 in Chenzhou City, Hunan Province, graduated from Department of Medicine in Hunan Medical University in 1960, now professor, chief physician, tutor of postgraduate, engaged in the diagnosis and treatment of gastrointestinal carcinoma, focusing on the relation between sex hormone, gastrointestinal hormone and gastrointestinal carcinoma, having 54 papers published.
Correspondence to: Dr. Shuang-Wu He, Department of General Surgery, Daping Hospital and Research Institute of Surgery, the Third Military Medicine University, Chongqing 400042, China
Telephone: +86·23·68757268
Received: April 8, 1999
Revised: August 10, 1999
Accepted: September 20, 1999
Published online: October 15, 1999
Abstract

AIM: To explore the effect and mechanism of gastrin and its an tagonists proglumide and somatostatin on colorectal carcinoma and their clinical significance.

METHODS: A model of transplanted human colonic carcinoma was established from SW480 cell line in gymnomouse body. The volume and weight of transplanted carcinoma was observed under the effect of pentagatrin (PG), proglumide (PGL) and octapeptide somotostatin (SMS201-995, SMS). The cAMP content of carcinoma cell was determined by radioimmunoassay and the DNA, protein content and cell cycle were determined by flow-cytometry. The amount of viable cells was determined by MTT colorimetric analysis, IP3 content was determined by radioimmuno assay, Ca2+ concentration in cell by fluorometry and PKC activity by isotopic enzymolysis. The expression of gastrin, c-myc, c-fos and rasP21 in 48 case s of colorectal carcinoma tissue was detected by the immuno-cytochemistry SP method. Argyrophilia nucleolar organizer regions was determined with argyrophilia stain.

RESULTS: The volume, weight, cAMP, DNA and protein content in carcinoma cell, cell amount and proliferation index of S and G2M phase in PG group were all significantly higher than those of control group. When PG was at the concentration of 25 mg/L, the amount of viable cells, IP3 content and Ca2+ concentration in cell and membrane PKC activity in PG group were significantly higher than those in control group; when PGL was at a concentration of 32 mg/L, they dropped to the lowest level in PG (25 mg/L) + PGL group, but without significant difference from the control group. The positive expression rate of gastrin, c-myc, c-fos and rasP21 in carcinoma tissue was 39.6%, 54.2%, 47.9% and 54.2% respectively and significantly higher than that in mucosa 3 cm and 6 cm adjacent to carcinoma tissue and normal colorectal mucosa. The positive expression rate of gastrin of highly-differentiated adenocarcinoma group was significantly higher than that of poorly-differentiated and mucinous adenoc arcinoma groups. The AgNORs count of carcinoma tissue was significantly higher than that in mucosa 3 cm and 6 cm adjacent to carcinoma tissue and norm al colorectal mucosa; and the positive expression of c-myc and c-fos and the A gNORs count in gastrin-positive group was significantly higher than those in gastrin-negative group.

CONCLUSION: Pentagastrin has a promoting effect on the growth of transplanted human colonic carcinoma from SW480 cell line. PGL has no obvious effect on the growth of human colonic carcinoma SW480 cell line, but could inhibit the growth promoting effect of PG on transplanted carcinoma. Somatostatin can not only inhibit the growth of transplanted human colonic carcinoma from SW480 cell line directly but also depress the growth-promoting effect of gastrin on the transplanted carcinoma. Some colorectal carcinoma cells can produce and secrete gastrin through autocrine, highly-differentiated adenocarcinoma express the highest level gastrin. Endogenous gastrin can stimulate the cell division and proliferation of carcinoma cell and promote the growth of colorectal carcinoma regulating the expression of oncogene c-myc, c-fos. Our study has provided experimental basis for the adjuvant treatment using gastrin antagonist such as PGL, so matostatin of patients with colorectal carcinoma.

Keywords: colorectal neoplasms; gastrin; proglumide; somatostatin; IP3, Ca2+; protein kinase C; oncogene; AgNORs