Min Sun Shin

Nuclear localization of β-catenin is an important prognostic factor in hepatoblastoma

In this study, mutational and immunohistochemical analyses of β‐catenin were performed in 30 hepatoblastomas, to assess the prevalence of alterations of the Wnt pathway with respect to clinicopathological parameters and survival. Four missense mutations of β‐catenin (13.3%) were detected and there was strong immunoreactivity for β‐catenin in the cytoplasm and/or the nucleus in 97% of hepatoblastomas. Nuclear and cytoplasmic staining was demonstrated in 19 of 30 tumours (63%), while ten revealed only cytoplasmic staining. Statistically, this nuclear β‐catenin staining was significantly higher in the embryonal (Fisher exact test; p=0.00393) or undifferentiated type (p=0.00156) of hepatoblastoma than in the fetal type, but there was no difference between clinical stages I and II and clinical stages III and IV (p=0.175). Cumulative survival curves showed that nuclear β‐catenin staining (generalized Wilcoxon test; p=0.0088), undifferentiated histological type (p=0.0305), and clinical stages III and IV (p=0.0107) were significantly correlated with shorter survival time in these patients. Moreover, Cox multivariate analysis provides evidence that nuclear β‐catenin staining is the most important prognostic factor for survival (p=0.0090). It is therefore concluded that immunohistochemical analysis of β‐catenin might be a useful clinical tool for estimating the prognosis for patients with hepatoblastoma. Copyright

Inactivating mutations of the caspase-10 gene in gastric cancer.

We have analysed the genetic alteration of the entire coding region and all splice sites of caspase-8 and -10 genes in 99 gastric cancers by polymerase chain reaction (PCR)-single strand conformation polymorphism (SSCP) and sequencing. We found LOH of the caspase-8 and -10 in nine (28%) of 32 and in four (15%) of 26 informative cases, respectively. Overall, three of 99 gastric cancers (3%) were found to have the caspase-10 mutations, which were identified in the coding regions of the death effector domain (codon 147) and the p17 large protease domain (codons 257 and 410), whereas no mutation was detected in caspase-8. In vitro expression studies, the M147T and Q257stop mutants severely impaired caspase-10-mediated apoptosis, whereas the V410I which was the same mutation detected in ALPS patient had a significant, albeit less severe, effect on apoptosis. The data presented here suggest that somatic alterations of the caspase-10 gene might contribute to the pathogenesis in a subset of gastric cancers through the loss of their apoptotic function.

Somatic mutations in the death domain of the Fas (Apo-1/CD95) gene in gastric cancer.

It is now believed that genes regulating apoptosis are also important variables in cancer development. Fas, a transmembrane protein of the tumour necrosis factor receptor family, is a key molecule for cell death signalling. The mutation of the primary structure of the Fas gene might also be one of the possible mechanisms that disrupt Fas‐mediated apoptosis in tumour cells. The purpose of this study was to determine whether somatic mutation of the Fas gene could be involved in the tumourigenesis of gastric cancer. Polymerase chain reaction (PCR)‐based loss of heterozygosity (LOH) analysis with two intragenic polymorphic markers, and mutation analysis for the entire coding regions of the Fas gene were performed in 43 cases of gastric cancer, using PCR–single‐strand conformational polymorphism sequencing. Five (11.6%) missense mutations were detected, only in the death domain of the Fas gene. Although these mutations were observed only in intestinal‐type gastric cancers, there was no statistically significant difference in the frequency of Fas mutation between intestinal‐ and diffuse‐type gastric cancer (p=0.068). Nine LOH out of 22 informative cases were also detected with one or both markers (41%). Three of them demonstrated a somatic mutation in the remaining allele, indicating the inactivation of both alleles. These results suggest that genetic alterations of the Fas gene may not only be limited to gastric cancer cell protection through Fas resistance, but may also play an important role in tumour promotion and/or progression in a subset of gastric cancer. Copyright

Alterations of Fas-pathway genes associated with nodal metastasis in non-small cell lung cancer.

Many types of cancer cells are resistant to Fas-mediated apoptosis by several mechanisms, including the mutations of the genes involved in Fas-mediated apoptosis. In this study, to explore the possibility that the mutations of the genes involved in the proximal pathway of Fas-mediated apoptosis (Fas, FADD, caspase 8 and caspase 10) are involved in cancer metastasis, we have analysed somatic mutation and deletion of these genes in 80 non-small cell lung cancers (NSCLCs) with (n=43) and without (n=37) metastasis to the regional lymph nodes. We found 12 mutations (four Fas, four FADD, and four caspase 10 mutations) in 11 of 80 NSCLCs (13.8%). Interestingly, of these mutations, most mutations (10 out of 12) were detected in the NSCLCs with metastasis, and the frequency in the metastasis lesions (23%) was higher than that in the primary lesions of the NSCLCs without metastasis (5.4%). Furthermore, transfection study revealed that the tumor-derived mutants have decreased apoptosis inductions compared to the wild types. These data suggest that the inactivating mutations of the genes in the proximal pathway of Fas-mediated apoptosis may lead to a decreased cancer cell death and play a role in the metastasis of NSCLC.

Absence of mutations in the kinase domain of the Met gene and frequent expression of Met and HGF/SF protein in primary gastric carcinomas.

Hepatocyte growth factor/scatter factor (HGF/SF) and its receptor, Met, are known to play important roles in tumor cell migration, invasion, and metastasis. We analyzed the expression of these genes and the mutations in the kinase domain of the Met gene in 43 gastric carcinomas. Of the 43 cases, the Met and HGF/SF protein were expressed in 29 (67%) and 22 (51%), respectively. All of the cases with HGF/SF immunopositivity also expressed Met. Of 22 cases with HGF/SF immunopositivity, 13 (59%) expressed HGF/SF in tumor cells as well as fibroblasts. We detected no aberrant single‐strand conformational polymorphism patterns, suggesting that there are no genetic alterations in the kinase domain of the Met gene. These results indicate that HGF/SF‐mediated autocrine and/or paracrine stimulation and overexpression rather than structural alteration of its receptor may contribute to the development and progression of gastric carcinoma, and that expression of Met and HGF/SF may confer a growth advantage to neoplastic cells.

Mapping of a new target region of allelic loss at 21q22 in primary gastric cancers

To determine the minimal region of deletion on 21q22 in gastric cancer, we performed a high-density loss of heterozygosity (LOH) study with eight polymorphic microsatellite markers. Among the 43 tumors examined, 20 (50%) of 40 informative carcinomas showed LOH at one or more loci. The peak LOH frequency was identified at D21S1820 (34.2%) in 21q22.3. This data suggests that this locus might harbor a new tumor suppressor gene in an area <0.332 Mb in physical map distance defined by D21S1820 and D21S49. Thus, we speculate that trefoil factor family 1 (TFF1), located in this narrow region, might be the most probable candidate gene involved in gastric cancer carcinogenesis.

Immunohistochemical analysis of Fas ligand expression in normal human tissues

Cross‐linking of Fas and Fas ligand (FasL) induces apoptosis in Fas‐bearing cells and regulates apoptosis. Fas is widely expressed in normal human tissues, but FasL expression has been considered to be restricted to lymphoid tissues. Recent studies have demonstrated that FasL is also expressed in some nonlymphoid tissues. To screen the in situ expression of FasL in normal human tissues, immunohistochemistry was performed using paraffin‐embedded human tissues. FasL immunostaining was easily detected in testis, neurons, trophoblasts, tonsil, lymph node, Paneth cells, hepatocytes, renal tubular epithelium and bronchial epithelium, consistent with previous reports. Surprisingly, FasL was also expressed in many other cell types, including thymic medulla, skeletal muscle, cardiac muscle, pituitary gland, parathyroid gland, prostate glands, oocytes, epithelium of fallopian tube, endometrial glands, and gastric parietal cells. These findings demonstrate that FasL is widely expressed in human tissues and suggest that wide but cell‐type specific expression of FasL may not only be implicated in the regulation of immune homeostasis but also in the regulation of cell death and life in many cell types in vivo.

Expression of HGF/SF and Met protein is associated with genetic alterations of VHL gene in primary renal cell carcinomas

We analyzed the genetic alterations of VHL, HGF/SF, and Met genes and the expression pattern of HGF/SF and Met protein in 26 renal cell carcinomas (RCCs). We found five mutations of the VHL gene and frequent LOH (50%) only in non‐papillary clear cell RCC. We found six cases in which the CpG island of VHL was methylated. In addition, one missense mutation of the HGF/SF gene was detected in clear cell RCC. HGF/SF and Met protein were expressed in 84.6% and 80.7% of RCCs, respectively. All of the cases with the genetic alterations of VHL or HGF/SF demonstrated strong expression of HGF/SF and Met protein in RCC cells. Statistically, genetic alterations of VHL and HGF/SF were significantly correlated with HGF/SF and Met expression (Fishers exact test, p=0.022 and p=0.0070). Thus, these results strongly suggest that the expression of HGF/SF and Met protein is closely associated with the genetic alterations of VHL and HGF/SF in primary RCCs.

Genetic analysis of the liver putative tumor suppressor (LPTS) gene in hepatocellular carcinomas

Recently, a novel liver-related putative tumor suppressor (LPTS), which has a growth inhibitory function in the hepatocellular carcinoma (HCC) cell line, has been identified at chromosome 8p23. To determine the relationship of the LPTS with the development or progression of HCC, we analyzed the genetic alterations and the expression pattern of the LPTS gene in a series of 80 HCCs, six dysplastic nodules, and eight large regenerating nodules, determining the genomic structures. We identified a total of seven exons, of which two were alternative, and three LPTS isoforms, short (LPTS-S), medium (LPTS-M), and long-sizes (LPTS-L). In the genetic alteration study of the LPTS gene, no mutation was detected in the large regenerating nodules, dysplastic nodules, and HCC, whereas ten (34.5%) of 29 informative cases at one or more intragenic polymorphic sites showed loss of heterozygosity (LOH). Interestingly, LOH was identified only in HCC samples with hepatitis B virus (HBV) infection and the frequency of LOH was not statistically related with histologic grade and clinical stage, suggesting that allelic loss of the LPTS gene may occur as an early event in the development of HCC, especially in the cases with HBV infection.