These findings suggest that hSgo1-downregulated colorectal cancers have a clinicopathological character of CIN, and hSgo1 downregulation leads to CIN in colorectal cancer cells.
Gastric cancer has striking heterogeneity in histological pattern, cellular phenotype, genotype, biomarkers, and biological behavior. We focused on the specific morphological papillary phenotype of gastric adenocarcinoma and attempted to identify its distinct molecular characteristics. In our comparative study, early stage papillary (papillary-dominant) gastric cancer showed a significantly higher and more widespread high-frequency microsatellite instability (MSI-H) than other morphological types. Analysis of mutations in a panel of five putative microsatellite instability (MSI)-associated genes in the MSI-H cases revealed that papillary or papillary-dominant cancer displays a unique profile of mutations compared to profiles previously reported in gastric cancer. Immunohistochemical staining and methylation analysis revealed that silencing of hMLH1 by methylation in its promoter region was responsible for the failure of mismatch repair in papillary-type gastric cancer, whereas aberrant promoter methylation of hMLH1 was not found in any cases without the unique mutator phenotype. Promoter hypermethylation of the hMLH1 genes was found to a lesser degree in the adjacent non-tumor mucosa in four of the 10 cases with tumor having the mutator phenotype. Microsatellite instability itself could not be detected in the adjacent non-tumor mucosa. Inactivation of hMLH1 expression by promoter hypermethylation may be an early event in carcinogenesis of this type of gastric cancer, preceding the development of the clear MSI phenotype of papillary carcinoma.
The effects of treatment in a hydrated autoclave (121 °C, 2 atm for 20 min), microwave oven (in water), and simple heating (60 °C overnight in distilled water or 90 °C for 10 min in ZnSO4) on the stainability of 56 antigens by commercially available antibodies in formalin‐fixed paraffin‐embedded tissue sections were evaluated. The detectability of nuclear antigens, glycoprotein, lymphocytic surface markers, and chromogranin A was significantly and reproducibly improved by these treatments, whereas the detectability of viral antigens and peptide hormones was attenuated or unchanged. This enhancement includes not only the distinctiveness of the positive staining, but also the number of positive cells, as revealed by comparing serial sections. Among these four heating procedures, microwave heating and autoclaving were more effective than the others on p53, c‐erbB‐2, and CA125, whereas simple heating was best for smooth‐muscle actin (HHF35 and CGA7). Generally the effects of the heating procedures for these antigens were consistent among the cases, but the effects on GFAP varied with the case. The alterations we observed could significantly influence the interpretation of immunohistochemical staining of currently popular tumor markers such as p53 in terms of their prevalence (28%vs 64% in gastric cancer; 36%vs 82% in metastatic liver cancer) and other diagnostically important markers.
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