Ultrastructural localization of glutathione S-transferase-pi inhuman colorectalcancer

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Ultrastructural localization of glutathione S-transferase-pi in human colorectal cancer cells
Wen Jun Guo1, Guang De Zhou1, Hong Juan Wu1, Yu Qing Liu1, Rui Guang Wu2 and Wei Dong Zhang1





Wen Jun Guo1, Guang De Zhou1, Hong Juan Wu1, Yu Qing Liu1, Rui Guang Wu2 and Wei Dong Zhang1
1Department of Pathology, Weifang Medical College, Weifang 261042, Shandong Province, China
2Weifang People＇s Hospital, Weifang 261041, Shandong Province, China
Dr. Wen Jun Guo, graduated from Weifang Medical College in 1979, now associate professor of pathology, majoring gastrointestinal tumor immunopathology and having more than 30 papers published.
Correspondence to: Dr. Wen Jun Guo, Department of Pathology, Weifang Medical College, Weifang 261042, Shandong Province, China
Telephone: 0086-536-8213047
Received: 2000-01-18 Accepted: 2000-02-28
Subject headings: colorectal neoplasms; GST-pi; immunoelectron microscope; colloid gold

Guo WJ, Zhou GD, Wu HJ, Liu YQ, Wu RG, Zhang WD. Glutathione S-transferase-pi in colorectal cancer cells. World J Gastroentero, 2000;6(3):454-455

INTRODUCTION
Placental form glutathione S-transferase (GST-pi) is a group of isoenzymes with protein combining ability. Since the reports showing that GST-pi was significantly increased in proliferative hepatic nodule induced by chemical carcinogen and in well differentiated carcinoma［1］, more studies have shown［2-4］that GST-pi expressed highly in neoplasm, and could be rega rded as a tumor marker. GST-pi has the antimutagenesis and antitumor ability, and is related closely with the resistance of tumor to anticancer drugs. As the description about the immunoelectron microscopical localization of GST-pi in hu man colorectal cancer cells was not available, we have observed the ultrastruct ural localization of GST-pi in colorectal cancer cells, and explored the distri bution of GST-pi in these cells and its relationship with colorectal carcinogen esis.

MATERIALS AND METHODS
Fresh colorectal cancer tissues (n=6) were obtained from surgical specimens, and the colorectal mucosal tissues (n=3) more than 10cm away from the cancer served as controls.

Reagents Monoclonal mouse anti-GST-pi antibody (Dako Company ); 10nm colloid gold labeled goat anti-mouse IgG (Institute of Basic Medicine, Academy of Military Medical Science).

Tissue processing All fresh blocks of tissue were fixed with 2.5mL/L glutaraldehyde and 40mL/L paraformaldehyde, routinely dehydrated and embedded in Epon 812. Ultrathin sections were placed on nickel grids, treated with 30mL/L H2O2 (15min), washed thoroughly with 0.05M, pH 7.4 TBS, blocked with 1% bovine serum (30min), dropped mouse anti-GST-pi monoclonal antibody (1∶20), and placed in refrigerator (4℃) overni ght. Washed with 0.05M, pH 7.4 TBS, then with 0.02M, pH 8.2 TBS , dropped 10nm colloid gold labeled goat anti mouse IgG (1∶10), stand in room temperature for 1h, washed with TBS, and restained with uranyl acetate followed by lead citrate. The first antibody was replaced by TBS as control. These specimens were observed under electron microscope.

RESULTS
The most significant ultrastructural change of colorectal cancer cell occurred in the nucleus. It was large and irregular in shape, with peripheral aggregatio n of heterochromatin and plenty of ribosomes and large nucleoli. There were co lloid gold labeled GST-pi positive particles in all of the six cancer specimens . The positive particles were round in shape, high and clear electron density, distributed as clusters or spots in cancer cells. The majority of positive particles were in mitochondria, lysosomes and some plasma, and some also presented in nuclei (Figure 1) or in the periphery of nuclei (Figure 2). The positive particles accumulated in lumps. Visible positive particles were never found in normal control cells.

Figure 1 GST-pi positive particles present i n nuclei. EM×40000
Figure 2 GST-pi positive particles present in the periphery of nuclei. EM×25000

DISCUSSION
Biological characters of GST-pi
Placental form of glutathione included rat and human forms named GST-p and GST-π respectively. Because they presented generally in placenta according to the new category, they were nominated as GST-placental isoenzyme (GST-pi) as a whole. GST-pi could detox ify chemical mutagenesis, cancer promoter, lipid and DNA hyperoxidase, and protect normal cells from the influence of cance rigenic materials, so that GST-pi played an important role in the anti-mutation and anti-cancer process.As an important enzyme of detoxification, GST-pi was controlled by the gene. T he high expression of GST-pi gene occurred while the carcinogen acted on the cells to induce their mutation［5］. The high expression of GST-pi in many neoplasms was related to the resistance of anticancer drugs. Katagiri et al reported that the expression of GST-pi negatively correlated to the sens etivity of anticancer drug in testicular tumor［6］. Dong J suggested that the expression of GST-pi closely related to resistance of anticancer drug in ovariogenic neoplasm［7］. GST-pi could be regarded as a marker in evaluating the effect of tumorectomy, or in predicting the drug resistance of tumor cells. High expression of GST-pi in precancer and cancer of liver, and the protein synthesis ability could be blocked by cyclohexamide, which showed that GST-pi was controlled in transcription level. This may be the molecular base of the cancer cells in getting cytotoxic drug resistance. We found that GST-pi expressed only in cancer cells, but not in normal cells, suggesting that this might be related to the action of carcinogen. GST-pi specific expression in colorectal cancer cells may be used as a marker for diagnosis of colorectal carcinoma.

Ultrastructural localization of GST-pi
We found that GST-pi was located in cytoplasm, mitochondria, lysosomes and nucl eus adjacent to nuclear membrane of colorectal cancer cells. These agreed with immunohistochemical studies［8］. But normal mucosa occasionally showe d slight positivity in immunohistochemical studies. This is different from o ur findings. It might be related to the weak expression in normal mucosa. There were few studies about the GST-pi ultrastractural localization. In our study, GST-pi positive particles were found not only in cytoplasm, but also in nucleus. Chen M reported the same result in bladder carcinoma［9］. Why was GST-pi positive particles present in nucleus? We think this can be an atavism, and if so it could not be used as a marker indicating colorectal cancer. Whether it is a right concept or not needs further studies.

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