Takeru Iijima

Higher frequency of smad4 gene mutation in human colorectal cancer with distant metastasis

We have previously detected an increased frequency of loss of heterozygosity (LOH) on chromosome 18q during progression of colorectal carcinomas. To clarify the target of 18qLOH, mutation of Smad4 and Smad2 genes was analysed in 176 colorectal tumors with different stages, including liver metastasis, from 111 sporadic, 52 familial adenomatous polyposis (FAP) and nine hereditary nonpolyposis colorectal cancer (HNPCC) patients. Mutation of other Smad gene families in the TGF-β signaling pathway was also examined. Twenty-one Smad4 mutations and one Smad2 mutation were detected, whereas mutation of Smad3, 6 and 7 genes was not detected. Smad4 mutations included seven frameshift, one inframe deletion, four nonsense and nine missense mutations, 95% of which resulted in alteration of Smad4 protein regions included in homo-oligomer and hetero-oligomer formation. Frequencies of tumors with Smad4 mutation were 0/40 (0%) in adenoma, 4/39 (10%) in intramucosal carcinoma, 3/44 (7%) in primary invasive carcinoma without distant metastasis, 6/17 (35%) in primary invasive carcinoma with distant metastasis, and 11/36 (31%) in distant metastasis (metastatic/non-metastatic: P=0.006 ∼0.01). Loss of the other allele was observed in 19 of 20 (95%) invasive and metastasized carcinomas with Smad4 mutations. In four cases both primary and metastasized carcinomas in the same patients showed the same mutations. The present results suggest that Smad4 gene is one of true targets of 18qLOH, and that its inactivation is involved in advanced stages, such as distant metastasis, in human colorectal carcinogenesis.

Molecular evidence for multicentric development of thyroid carcinomas in patients with familial adenomatous polyposis.

Familial adenomatous polyposis is characterized by multiple colorectal adenomas and an increased incidence of colorectal carcinomas. Patients also develop various extracolonic tumors, of which, thyroid carcinoma is common in young females. The occurrence of multiple carcinomas in one thyroid is frequently observed, although some carcinomas are solitary. To clarify whether each carcinoma develops independently or metastatically spreads from the first one formed, we analyzed the adenomatous polyposis coli (APC) gene mutation in each carcinoma. We found that each carcinoma had a different somatic mutation of the APC gene. This is molecular confirmation for the multicentric development of thyroid carcinomas in familial adenomatous polyposis through biallelic inactivation of the APC gene.

Mutations of the PIK3CA gene in hereditary colorectal cancers

Somatic mutations of the PIK3CA gene have recently been detected in various human cancers, including sporadic colorectal cancer. However, mutations of the PIK3CA gene in hereditary colorectal cancers have not been clarified. To elucidate the mutation status in familial adenomatous polyposis (FAP) and hereditary nonpolyposis colorectal cancer (HNPCC), which are the most common hereditary colorectal cancers, we investigated PIK3CA mutations in 163 colorectal tumors, including adenomas, intramucosal carcinomas and invasive carcinomas. For comparison, we also analyzed mutations of the same gene in 160 sporadic colorectal tumors at various histopathological stages. Analysis at exons 1, 7, 9 and 20 of the PIK3CA gene revealed somatic mutations in 21% (8 of 39) of FAP invasive carcinomas, 21% (7 of 34) of HNPCC invasive carcinomas, 15% (8 of 52) of sporadic invasive carcinomas, and 14% (7 of 50) of sporadic colorectal metastases in the liver. Mutations in FAP and HNPCC carcinomas predominantly occurred in the kinase domain (exon 20), while the majority of mutations in sporadic cases occurred in the helical domain (exon 9). Adenomas and intramucosal carcinomas from all patients exhibited no mutations (0 of 148). Our data suggest that PIK3CA mutations contribute to the invasion step from intramucosal carcinoma to invasive carcinoma in colorectal carcinogenesis in FAP and HNPCC patients at a similar extent to that seen in sporadic patients.

Accumulation profile of frameshift mutations during development and progression of colorectal cancer from patients with hereditary nonpolyposis colorectal cancer

PurposeRole and timing of frameshift mutations during carcinogenesis in hereditary nonpolyposis colorectal cancer have not been examined. This study was designed to clarify the relationship between frameshift mutations and clinicopathologic features in colorectal cancer from patients with hereditary nonpolyposis colorectal cancer.MethodsThirty-one colorectal cancers from patients with hereditary nonpolyposis colorectal cancer at different clinicopathologic stages were analyzed for frameshift mutation in 18 genes.ResultsThe frameshift mutations of the ACVR2 and PTHLH genes were found to have an extremely high frequency (94–100 percent) in all pathologic stages, and mutation of the MARCKS gene also was high (94 percent) in Dukes B and C cancers. These frequencies were higher than the frequency of TGFβRII gene inactivation (64–88 percent). Mutations of the hMSH3, TCF4, CASP5, RIZ, RAD50, and MBD4 genes were comparatively frequent (>35 percent) in all stages. Frequencies of inactivation of the MARCKS, BAX, IGFIIR, and PTEN genes were significantly higher in Dukes B and C cancers than in Dukes A cancer (P < 0.05). The number of accumulated frameshift mutations was larger in Dukes B and C cancers (9.4) than in Dukes A cancer (6.8) (P = 0.003).ConclusionsThe present data suggest that the disruption of the transforming growth factor-β super-family signaling pathway by the alteration of the ACVR2 and/or TGFβRII genes and the disruption of antiproliferative function by the PTHLH gene alteration contribute to the development of early colorectal cancer. Moreover, the further accumulation of alterations in the MARCKS, BAX, IGFIIR, and PTEN genes seem to be associated with progression from early to advanced colorectal cancer from patients with hereditary nonpolyposis colorectal cancer.

Difference in characteristics of APC mutations between colonic and extracolonic tumors of FAP patients: Variations with phenotype

To clarify the differences in characteristics of adenomatous polyposis coli (APC) mutations between colorectal tumors from various phenotypes of familial adenomatous polyposis (FAP) and between colorectal and extracolonic tumors, we analyzed APC mutations in 86 colorectal tumors from FAP patients including profuse, sparse and attenuated types, 23 sporadic colorectal tumors and 40 FAP extracolonic tumors including duodenal, gastric and desmoid tumors. In all tumors, 1 allele of the truncated APC gene retained armadillo repeats, 15‐amino‐acid (aa) repeats and various numbers of 20‐aa repeats, but lacked SAMP repeats, as a result of germline and somatic mutations. Regarding 20‐aa repeats, the truncated APC gene retained 1 repeat due to allele loss in 96% (27/28) of colorectal tumors from profuse‐type FAP, 69% (36/52) of sparse‐type retained 2 repeats due to somatic mutation, and 100% (6/6) of attenuated‐type retained 2 or 3 repeats due to the third or second hit. In sporadic colorectal tumors 74% (17/23) retained 1 or 2 repeats. The truncated APC gene retained 3 repeats in 88% (7/8) of FAP duodenal tumors, 100% (26/26) of gastric tumors retained 2 or 3 repeats and 83% (5/6) of desmoid tumors retained 2 repeats. These data suggest that the number of β‐catenin downregulating 20‐aa repeats in truncated APC gene associated with colorectal tumorigenesis is different in profuse, sparse and attenuated types of FAP, and that the association with tumorigenesis is also different between colorectal and extracolonic tumors.

Somatic Mutations of the CDC4 (FBXW7) Gene in Hereditary Colorectal Tumors

Objectives: Cdc4 (Fbxw7) is a potential tumor suppressor that regulates ubiquitination and proteolysis of multiple targets such as cyclin E, c-Myc, c-Jun and Notch. CDC4 mutations were investigated in 194 colorectal carcinomas and adenomas for comparison between sporadic and hereditary cancers. Methods: Mutations of the CDC4 gene were analyzed by PCR-SSCP and sequencing, and loss of heterozygosity (LOH) was analyzed by microsatellite marker analysis. Results: Somatic CDC4 mutations were detected in 9% (3 of 33) of hereditary nonpolyposis colorectal cancer (HNPCC), 9% (3 of 33) of familial adenomatous polyposis (FAP) carcinomas, and 10% (7 of 73) of sporadic carcinomas. CDC4 mutations were also detected in adenomas at frequencies of 6% (2 of 31) and 4% (1 of 24) in FAP and sporadic cases, respectively. Frameshift mutations were observed in HNPCC tumors, while single-base substitutions predominantly occurred in FAP and sporadic tumors. LOH at the chromosome 4q region was rarely detected in tumors with CDC4 mutations. Conclusions: The results indicate that the frequency of CDC4 mutations in colorectal tumors is similar in patients with HNPCC and FAP compared to patients with sporadic carcinomas. Moreover, infrequent LOH suggests that the CDC4 gene does not follow the general 2-hit model.

Difference in the role of loss of heterozygosity at 10p15 (KLF6 locus) in colorectal carcinogenesis between sporadic and familial adenomatous polyposis and hereditary nonpolyposis colorectal cancer patients.

Objectives: To clarify the role of the KLF6 (Kruppel-like factor 6) locus in multistep colorectal carcinogenesis, we analyzed loss of heterozygosity (LOH) at 10p15 (KLF6 locus) and mutations of the KLF6gene in 298 colorectal tumors at various pathological stages of sporadic and familial adenomatous polyposis (FAP) and hereditary nonpolyposis colorectal cancer (HNPCC) patients. Methods: 10p15 LOH was analyzed using KLF6M1 and KLF6M2, and KLF6 gene mutation was analyzed using PCR-SSCP and sequencing. Results: It was found that the frequencies of LOH (sum of M1 and M2) were 4% in adenomas, 0% in intramucosal carcinomas, 35% in invasive carcinomas, and 33% in liver metastases in sporadic cases. Invasive carcinomas from FAP patients showed only 6% LOH, and invasive carcinomas from HNPCC patients exhibited 0% LOH. Mutation analysis of the KLF6 gene in 298 colorectal tumors detected no somatic mutations. Conclusions: The present data suggest that LOH of the KLF6 locus at chromosome 10p15 contributes to the invasion step from an intramucosal carcinoma to an invasive carcinoma specifically in sporadic colorectal carcinogenesis, but is rarely involved in the carcinogenesis of FAP and HNPCC cases. Moreover, the absence of somatic mutations suggests the uncertainty of the KLF6 gene as a classical tumor suppressor gene at the lost 10p15 region in colorectal carcinogenesis.

Alterations of repeated sequences in 5′ upstream and coding regions in colorectal tumors from patients with hereditary nonpolyposis colorectal cancer and Turcot syndrome

One of the characteristics of tumors from patients with germline mutations of DNA mismatch repair genes is instability at microsatellite regions (MSI). We analysed alterations at repeated sequences of coding regions, as well as those of 5′ upstream regions, in 29 MSI-High colorectal tumors from patients with hereditary nonpolyposis colorectal cancer (HNPCC) and Turcot syndrome. We found that repeated sequences in 5′ upstream regions were altered in these tumors, at considerable frequencies. The (A)10 repeat in the promoter region (position −178∼−169) of the GAPDH gene was altered in 17% of the tumors. The (A)10(TA)9 in the 5′ upstream region (position −318∼−291) of the mitochondrial isoleucyl tRNA synthetase gene (IleRS-A), coded in nuclear DNA, was altered in 59% of the tumors, whereas (A)9 in the 5′ upstream region (position −859∼−851) of cytoplasmic isoleucyl tRNA synthetase gene (IleRS-B) was not altered. Alteration at repeated sequences in the coding regions were 72% at TGFβRII(A)10, 24% at IGFIIR(G)8, 45% at BAX(G)8, 55% at E2F4(CAG)13, 66% at caspase-5 (A)10, 31% at MBD4(A)10, 55% at hMSH3(A)8 and 34% at hMSH6(C)8. The number of altered genes increased with the advancement of carcinoma according to Dukes categories: mean numbers of altered genes within these 10 genes were 2.6 for Dukes A, 4.7 for Dukes B and 7.8 for Dukes C. The mean number for adenomas was 2.0. These results suggest that the MSI phenotype also causes alteration of 5′ upstream regions which may affect apoptosis and some mitochondrial functions in HNPCC and Turcot tumors, and that accumulation of altered genes with repeated sequences is associated with the progression of HNPCC and Turcot colorectal tumors.

Somatic Mutation of the APC Gene in Thyroid Carcinoma Associated with Familial Adenomatous Polyposis

We report the existence of both germline and somatic mutations of the APC gene in thyroid carcinomas from familial adenomatous polyposis (FAP) patients. One papillary thyroid carcinoma from a 20‐year‐old woman, with germline mutation of the APC gene (TCA to TGA at codon 1110), showed a somatic mutation of AAAAC deletion between codons 1060 and 1063. Another somatic mutation of CAG to TAG at codon 886 was also found in one of multiple thyroid carcinomas from a 26‐year‐old woman with attenuated FAP and germline mutation at codon 175 (C deletion). This is the first evidence that total absence of the normal function of the APC gene is involved in development of thyroid carcinomas in FAP.

Underexpression of miR-126 and miR-20b in Hereditary and Nonhereditary Colorectal Tumors

Objectives: The aim of the study was to determine the significance of miR-126 and miR-20b in colorectal carcinogenesis. Methods: We analyzed the expressions of miR-126 and miR-20b in 136 colorectal tumors from 39 microsatellite stable (MSS) tumors, 23 high microsatellite instability (MSI-H) tumors, 16 Lynch syndrome, and 58 familial adenomatous polyposis (FAP) tumors including adenoma, intramucosal carcinoma, and invasive carcinoma. Results: All four kinds of tumors showed underexpression of both miR-126 and miR-20b. The frequency of miR-126 downregulation was 100.0% in FAP adenomas, 85.7% in FAP intramucosal carcinomas, 78.9% in invasive carcinomas, 81.3% in Lynch syndrome tumors, 68.4% in MSS tumors, and 65.4% in MSI-H tumors. The frequency of miR-20b downregulation was 64.0% in FAP adenomas, 50.0% in FAP intramucosal carcinomas, 73.3% in invasive carcinomas, 62.5% in Lynch syndrome tumors, 79.5% in MSS tumors, and 91.3% in MSI-H tumors. The current study demonstrated underexpression of miR-126 and miR-20b in various types of colorectal cancer. These findings support the hypothesis that angiogenesis results from underexpressions of miR-126 and miR-20b and occurs as an early event in colorectal carcinogenesis. Conclusions: Underexpression of miR-126 and miR-20b was observed in various types of colorectal cancer, and occurs as an early event of colorectal carcinogenesis in FAP tumors.