Role of DNA aneuploidy, overexpression of p53 gene product, and cellular proliferation in the progression of gastric cancer

MicroRNA-21 inhibits Serpini1, a gene with novel tumour suppressive effects in gastric cancer

BACKGROUND

A thorough understanding of gastric cancer at the molecular level is urgently needed. One prominent oncogenic microRNA, miR-21, was previously reported to be upregulated in gastric cancer.

METHODS

We performed an unbiased search for downstream messenger RNA targets of miR-21, based on miR-21 dysregulation, by using human tissue specimens and the MKN28 human gastric carcinoma cell line. Molecular techniques include microRNA microarrays, cDNA microarrays, qRT-PCR for miR and mRNA expression, transfection of MKN28 with miR-21 inhibitor or Serpini1 followed by Western blotting, cell cycle analysis by flow cytometry and luciferase reporter assay.

RESULTS

This search identified Serpini1 as a putative miR-21 target. Luciferase assays demonstrated direct interaction between miR-21 and Serpini1 3'UTR. miR-21 and Serpini1 expression levels were inversely correlated in a subgroup of gastric cancers, suggesting a regulatory mechanism that included both of these molecules. Furthermore, Serpini1 induced growth retardation of MKN28 and induced vigorous G1/S arrest suggesting its potential tumour-suppressive function in the stomach.

CONCLUSION

Taken together, these data suggest that in a subgroup of gastric cancers, miR-21 is upregulated, inducing downregulation of Serpini1, which in turn releases the G1-S transition checkpoint, with the end result being increased tumour growth.

Clinical aspect and molecular mechanism of DNA aneuploidy in gastric cancers

The biological characteristics of cancers depend mostly on genetic alterations in the cancer cells of individuals. Gastric cancers show a high frequency of DNA aneuploidy, a phenotype of chromosomal instability. Compared to diploid tumors, gastric carcinomas with aneuploidy have been shown to have high proliferative activity and high metastatic or invasive potential; these characteristics lead to a poor prognosis. It has been suggested that an abnormal spindle assembly checkpoint is involved in DNA aneuploidy, but the underlying mechanism is still unclear. This review, in order to determine whether gastric carcinomas that display aneuploidy are associated with a poorer prognosis than diploid tumors, and to discuss the biological mechanisms that induce aneuploidy, summarizes the results of studies on DNA ploidy in gastric cancer published in the English literature. Analysis of DNA ploidy in gastric cancer may provide clinically useful information from diagnostic, therapeutic, and prognostic standpoints. Further investigations may be needed to clarify the relationship between chromosome instability and DNA ploidy.

Molecular analysis of gastric differentiated-type intramucosal and submucosal cancers

Identification of the molecular characteristics of intramucosal (IMCs) and submucosal cancers (SMCs) is essential to our understanding of early gastric carcinogenesis. However, little is known regarding the differences between the 2 lesions. One hundred and forty-eight patients with primary early gastric cancer [IMC, 106; SMC, 42] were characterized for expression of cell cycle-related proteins and loss of heterozygosity (LOH). We also examined microsatellite instability (MSI) and methylation status. For LOH and methylation studies, we used a panel of 17 microsatellite markers (3p, 4p, 5q, 9p. 13q, 17p, 18q and 22q) and promoter regions of 9 genes (MLH-1, RUNX3, p16, HPP1, RASSF2A, SFRP1, DKK-1, ZFP64 and SALL4) that are frequently altered or methylated in gastric cancers. Overexpression of p53 and cyclin D1 was observed in SMC. In addition, low expression of p27 was more frequent in SMC than in IMC. Frequencies of 4p, 9p, 13q and 22q were significantly higher in SMC than in IMC. The SALL4 gene was frequently methylated in SMC compared with IMC. However, other gene methylations were common in both IMC and SMC. The frequency of LOH-high status/methylation-low status was significantly higher in SMC than in IMC. However, LOH-low status/methylation-high status in SMC was more frequently found in IMC. Our data confirm that methylation of cancer-related genes plays a major role in the development of IMCs. Importantly, the results also show that gastric submucosal progression is characterized by the accumulation of specific genetic alterations. In addition, changes of cell cycle-related proteins are associated with cancer progression.

Analysis of cell cycle-related proteins in gastric intramucosal differentiated-type cancers based on mucin phenotypes: a novel hypothesis of early gastric carcinogenesis based on mucin phenotype

Background

Abnormalities of cell cycle regulators are common features in human cancers, and several of these factors are associated with the early development of gastric cancers. However, recent studies have shown that gastric cancer tumorigenesis was characterized by mucin expression. Thus, expression patterns of cell cycle-related proteins were investigated in the early phase of differentiated-type gastric cancers to ascertain any mechanistic relationships with mucin phenotypes.

Methods

Immunostaining for Cyclins D1, A, E, and p21, p27, p53 and β-catenin was used to examine impairments of the cell cycle in 190 gastric intramucosal differentiated-type cancers. Mucin phenotypes were determined by the expressions of MUC5AC, MUC6, MUC2 and CD10. A Ki-67 positive rate (PR) was also examined.

Results

Overexpressions of p53, cyclin D1 and cyclin A were significantly more frequent in a gastric phenotype than an intestinal phenotype. Cyclin A was overexpressed in a mixed phenotype compared with an intestinal phenotype, while p27 overexpression was more frequent in an intestinal phenotype than in a mixed phenotype. Reduction of p21 was a common feature of the gastric intramucosal differentiated-type cancers examined.

Conclusions

Our results suggest that the levels of some cell cycle regulators appear to be associated with mucin phenotypes of early gastric differentiated-type cancers.

Aneuploidy in upper gastro-intestinal tract cancers--a potential prognostic marker?

Chromosomal instability manifesting as aneuploidy is the most frequently observed abnormality in solid tumours. However, the role of aneuploidy as a cause or consequence of cancer remains a controversial topic. In this review, we focus on the karyotypic imbalances recorded for cancers of the upper gastro-intestinal (GI) tract, together with their associated pre-malignant lesions and the potential of aneuploidy as a clinical tool for patient management. Numeric chromosomal aberrations are common throughout gastro-oesophageal cancers and their precursor lesions. Additionally, specific chromosomal aneusomies have been identified as early changes in pre-dysplastic tissues suggesting they may be actively involved in driving tumourigenesis. As a progressive increase in the severity of aneuploidy with neoplastic progression has also been observed, it has thus been shown to be a useful prognostic indicator for patient classification as low or high-risk cases for cancer development. However, the biological basis for the aneuploidy in cancers of the upper GI tract needs to be established to understand its consequences and role during carcinogenesis, which is necessary for improving diagnostics and establishing novel targeted therapies.

Analysis of genetic alterations associated with DNA diploidy, aneuploidy and multiploidy in gastric cancers

OBJECTIVE

Recent studies have shown a close association between DNA ploidy status (diploidy, aneuploidy and multiploidy) identified by the crypt isolation technique and specific genetic alterations in colorectal carcinomas. However, such an association has not been elucidated for gastric tumors, even though they share common genetic features with colorectal carcinomas. In the present study, we established an association between DNA ploidy status and genetic alterations in gastric cancer.

METHOD

The DNA ploidy status of gastric tumors was classified as diploid, aneuploid or multiploid using the crypt isolation technique, which allows isolation of pure tumor crypt from tumor tissue. Crypt isolation combined with DNA cytometric sorting, polymerase chain reaction assay using 26 microsatellite markers and direct sequencing of the p53 gene were used to detect allelic imbalances [loss of heterozygosity (LOH) or allelic loss], microsatellite imbalance (MSI) and mutation of p53 in 54 gastric cancers (13 diploid, 12 aneuploid, 29 multiploid).

RESULT

Diploid tumors showed few genetic alterations, including allelic imbalances and p53 mutations. In contrast, aneuploid tumors and multiploid tumors (in particular, aneuploid populations of multiploid tumors) exhibited multiple genetic alterations, including allelic imbalances and p53 mutations. In addition, the frequencies of genetic alterations observed in the corresponding diploid fractions of multiploid tumors were relatively higher than in diploid tumors. MSI was commonly observed in diploid, aneuploid and multiploid carcinomas.

CONCLUSIONS

The present results indicate that in gastric carcinomas, diploid tumors are generally non-LOH and MSI, whereas aneuploid and multiploid tumors are associated with LOH and MSI, suggesting that the genetic profile of these carcinomas is dependent on the tumor's ploidy status.

Analysis of mucin, p53 protein and Ki-67 expressions in gastric differentiated-type intramucosal neoplastic lesions obtained from endoscopic mucosal resection samples: a proposal for a new classification of intramucosal neoplastic lesions based on nuclear atypia

There are differing views between Western and Japanese pathologists on the use of histological criteria to classify gastrointestinal tumors. It is therefore a priority to create a new histological classification of the stomach in order to resolve the confusion. Expression patterns were examined of mucin (MUC2, CD10, MUC5AC, pyloric gland-type mucin), p53 protein, and Ki-67 in tumor cells according to the following new classification system for differentiated-type intramucosal neoplastic lesions of the stomach, based on nuclear atypia: borderline neoplasia (adenoma (including dysplasia), indefinite tumor of adenoma or low-grade cancer, and low-grade cancer) and definite carcinoma (intermediate cancer, and high-grade cancer). The resulting grades were: adenoma, 23; indefinite tumor for adenoma or low-grade cancer, 6; low-grade cancer, 28; intermediate cancer, 48; high-grade cancer, 20. While the frequency of intestinal-type borderline neoplasias was higher than that of definite carcinomas, the mixed-type of definite carcinomas occurred with higher frequency than borderline neoplasias. The p53 protein overexpression and the Ki-67-positive rate increased with an increase in the grade assigned according to the new classification. The correlated expression levels of p53 protein, Ki-67, and various mucins, support the conclusion that this classification of intramucosal neoplastic lesions is useful for obtaining a consensus diagnosis of gastric intramucosal neoplasia between pathologists and gastrointestinal clinicians.

Three independent genetic profiles based on mucin expression in early differentiated-type gastric cancers--a new concept of genetic carcinogenesis of early differentiated-type adenocarcinomas

Recent molecular studies have shown that the genetic profiles of differentiated-type adenocarcinomas of the stomach are associated with distinct cellular mucin phenotypes (gastric- intestinal- and mixed-phenotypes). Therefore, we examined whether these cellular mucin phenotypes reflect specific molecular genetic alterations, and whether the phenotypes can be used to help categorize the intramucosal neoplasias of gastric tumors. We subclassified tumors into four cellular phenotypes using immunohistochemical mucin analysis. In all, 62 early gastric carcinomas (gastric-phenotype, 13; intestinal-phenotype, 17; mixed-phenotype, 31; unclassified-phenotype, 1) were examined using a combination of polymerase chain reaction microsatellite assays and immunohistochemical analysis in order to detect chromosomal allelic losses of multiple cancer-related chromosomal loci (1p, 3p. 4p, 5q, 8p, 9p, 13p, 17p, 18q and 22q), microsatellite instability (MSI), and overexpression of the p53 protein. In addition, we analyzed the relationship between MSI status and hMLH1 promoter hypermethylation, which is thought to be a cause of high MSI status. For gastric phenotype cancers, the frequency of 3p allelic loss was higher than that of other microsatellite markers, whereas 5q allelic loss was frequently found in intestinal phenotype cancers. The genetic profile of mixed phenotype cancers is comprised of two distinct genetic types: LOH and MSI types. In the former, 5q, 3p and 18q allelic losses are seen frequently in intramucosal carcinomas. On the other hand, 17p, 1p and 9p allelic losses are associated with the development of submucosal carcinomas. MSI was observed only in mixed phenotype cancers (six of 31 mixed phenotype cancers). Overexpression of the p53 protein is common in differentiated-type gastric cancers. In addition, the MSI status of the tumor cells was correlated with the extent of hypermethylation of the hMLH1 promoter. We suggest that the cellular mucin phenotypes of the differentiated-type adenocarcinomas result from distinct genetic alterations.

Multiple genetic alterations and behavior of cellular biology in gastric cancer and other gastric mucosal lesions: H. pylori infection, histological types and staging

AIM: To investigate the expression of multiple genes and the behavior of cellular biology in gastric cancer (GC) and other gastric mucosal lesions and their relations to Helicobacter pylori (H. pylori) infection, tumor staging and histological subtypes.

METHODS: Three hundred and twenty-seven specimens of gastric mucosa obtained via endoscopy or surgical resection, and ABC immunohistochemical staining were used to detect the expression of p53, p16, Bcl-2 and COX-2 proteins. H. pylori was determined by rapid urea test combined with pathological staining or ¹⁴C urea breath test. Cellular image analysis was performed in 66 patients with intestinal metaplasia (IM) and/or dysplasia (Dys). In 30 of them, both cancer and the paracancerous tissues were obtained at the time of surgery. Histological pattern, tumor staging, lymph node metastasis, grading of differentiation and other clinical data were studied in the medical records.

RESULTS: p16 expression of IM or Dys was significantly lower in positive H. pylori chronic atrophic gastritis (CAG) than those with negative H. pylori (CAG: 54.8% vs 88.0%, IM:34.4% vs 69.6%, Dys: 23.8% vs 53.6%, all P < 0.05), Bcl-2 or COX-2 expression of IM or Dys in positive H. pylori cases was significantly higher than that without H. pylori (Bcl-2: 68.8% vs 23.9%, 90.5% vs 60.7%; COX-2: 50.0% vs 10.8%, 61.8% vs 17.8%; all P < 0.05). The mean number of most parameters of cellular image analysis in positive H. pylori group was significantly higher than that in negative H. pylori group (Ellipser: 53 ± 14, 40 ± 12 μm, Area 1: 748 ± 572, 302 ± 202 μm², Area-2: 3050 ± 1661, 1681 ± 1990 μm², all P < 0.05; Ellipseb: 79 ± 23, 58 ± 15 μm, Ratio 1: 22% ± 5%, 13% ± 4%, Ratio-2: 79% ± 17%, 53% ± 20%, all P < 0.01). There was significant correlation between Bcl-2 and histologic pattern of gas tric carcinoma, and between COX-2 and tumor staging or lymph node metastasis (Bcl-2: 75.0% vs 16.7%; COX-2: 76.0% vs 20.0%, 79.2% vs 16.7%; all P < 0.05).

CONCLUSION: p16, Bcl-2, and COX-2 but not p53 gene may play a role in the early genesis/progression of gastric carcinoma and are associated with H. pylori infection. p53 gene is relatively late event in gastric tumorigenesis and mainly relates to its progression. There is more cellular-biological behavior of malignant tumor in gastric mucosal lesions with H. pylori infection. Aberrant Bcl-2 protein expression appears to be preferentially associated with the intestinal type cancer. COX-2 seems to be related to tumor staging and lymph node metastasis.