Yoshifumi Fujita

Tumour-amplified kinase BTAK is amplified and overexpressed in gastric cancers with possible involvement in aneuploid formation

Our recent analysis of gastric cancers using comparative genomic hybridization (CGH) revealed a novel high frequent copy number increase in the long arm of chromosome 20. Tumour-amplified kinase BTAK was recently cloned from breast cancers and mapped on 20q13 as a target gene for this amplification in human breast cancers. In the study presented here, we analysed BTAK copy-number and expression, and their relation to the ploidy pattern in 72 primary gastric cancers. Furthermore, wild-type BTAK and its deletion mutants were transfected to gastric cancers to examine changes in cell proliferation and DNA ploidy pattern. Evaluation of 72 unselected primary gastric cancers found BTAK amplification in 5% and overexpression in more than 50%. All four clinical samples with BTAK amplification showed aneuploidy and poor prognosis. Transfection of BTAK in near-diploid gastric cancers induced another aneuploid cell population. In contrast, the c-terminal-deleted mutant of BTAK induced no effect in DNA ploidy pattern and inhibited gastric cancer cell proliferation. These results suggest that BTAK may be involved in gastric cancer cell aneuploid formation, and is a candidate gene for the increase in the number of copies of the 20q, and thus may contribute to an increase in the malignant phenotype of gastric cancer.

Amplification and over-expression of the AIB1 nuclear receptor co-activator gene in primary gastric cancers.

Our analysis of chromosomal aberrations in primary gastric cancers using comparative genomic hybridization has revealed novel, high and frequent copy number increases in the long arm of chromosome 20, indicating that this region contains novel amplified genes involved in gastric cancer progression. AIB1, a member of the steroid receptor co‐activator‐1 family, has been cloned on 20q12 as a candidate target gene for this amplification in human breast cancers. In this study, we examined the numbers of AIB1 copies as well as their expression and relation to clinico‐pathological features in 72 primary gastric cancers. AIB1 amplification was observed in 7% and over‐expression in 40% of the specimens. AIB1 amplification always coincided with its over‐expression, but several cases showed AIB1 over‐expression without amplification, suggesting that expression of AIB1 is regulated not only by gene amplification but also by other mechanisms, such as transcriptional activation, in human gastric cancer. Gastric cancers with AIB1 amplification showed extensive lymph node metastases, liver metastases and poorer prognosis compared to those without amplification. Our results suggest that amplification and over‐expression of AIB1 are likely to increase the number of malignant phenotypes of gastric cancers and that it can be expected to be useful as a marker of poor prognosis. Int. J. Cancer 89:217–223, 2000.

Chromosomal aberrations in colorectal cancers and liver metastases analyzed by comparative genomic hybridization

Comparative genomic hybridization (CGH) was used to screen for changes in the number of DNA sequence copies in 30 primary colorectal cancers and 16 liver metastases, to identify regions that contain genes important for the development and progression of colorectal cancer. In primary colorectal cancer, we found frequent gains at 7p21 (36.7%), 7q31‐36 (30%), 8q23‐24 (43.0%), 12p (30%), 14q24‐32 (33.3%), 16p (40.0%), 20p (33.3%), 20q (63.3%) and 21q (36.3%), while loss was often noted at 18q12‐23 (36.7%). In metastatic tumors, there were significantly more gains and losses of DNA sequences than in primary tumors, with gains at 8q23‐24 (found in 62.5% of recurrences vs. 43.0% of primary tumors), 15q21‐26 (37.5% vs. 20.0%), 19p (43.8% vs. 20.0%) and 20q (81.3% vs. 63.3%) and losses at 18q12‐23 (50.0% vs. 36.7%). The pattern of genetic changes seen in metastatic tumors, with frequent gains at 8q23‐24 and 20q and loss at 18q12‐23, suggests the progression of colorectal cancer. We investigated a clinical follow‐up study for all patients examined by CGH and directed our attention to the genetic changes consisting of gains at 8q and 20q. The incidence of liver metastases was higher in patients with primary colorectal cancer with these genetic changes. Gains at 8q and 20q might be useful to identify patients at high risk for developing liver metastases.

Differential gene expression profiles of gastric cancer cells established from primary tumour and malignant ascites

Advanced gastric cancer is often accompanied by metastasis to the peritoneum, resulting in a high mortality rate. Mechanisms involved in gastric cancer metastasis have not been fully clarified because metastasis involves multiple steps and requires a combination of altered expressions of many different genes. Thus, independent analysis of any single gene would be insufficient to understand all of the aspects of gastric cancer peritoneal dissemination. In this study, we performed a global analysis of the differential gene expression of a gastric cancer cell line established from a primary main tumour (SNU-1) and of other cell lines established from the metastasis to the peritoneal cavity (SNU-5, SNU-16, SNU-620, KATO-III and GT3TKB). The application of a high-density cDNA microarray method made it possible to analyse the expression of approximately 21 168 genes. Our examinations of SNU-5, SNU-16, SNU-620, KATO-III and GT3TKB showed that 24 genes were up-regulated and 17 genes down-regulated besides expression sequence tags. The analysis revealed the following altered expression such as: (a) up-regulation of CD44 (cell adhesion), keratins 7, 8, and 14 (epitherial marker), aldehyde dehydrogenase (drug metabolism), CD9 and IP3 receptor type3 (signal transduction); (b) down-regulation of IL2 receptor γ, IL4-Stat (immune response), p27 (cell cycle) and integrin β4 (adhesion) in gastric cancer cells from malignant ascites. We then analysed eight gastric cancer cell lines with Northern blot and observed preferential up-regulation and down-regulation of these selected genes in cells prone to peritoneal dissemination. Reverse transcriptase–polymerase chain reaction confirmed that several genes selected by DNA microarray were also overexpressed in clinical samples of malignant ascites. It is therefore considered that these genes may be related to the peritoneal dissemination of gastric cancers. The results of this global gene expression analysis of gastric cancer cells with peritoneal dissemination, promise to provide a new insight into the study of human gastric cancer peritoneal dissemination.

Mutations in Exon 11 of the c-kit Gene in a Myogenic Tumor and a Neurogenic Tumor as Well as in Gastrointestinal Stromal Tumors

Background/Aims: Gain-of-function mutations in exons 9, 11 and 13 of the c-kit gene in gastrointestinal stromal tumors (GISTs) have been identified, and it has been reported that the prognosis is worse for patients with mutation-positive GISTs than for those with mutation-negative GISTs. We studied c-kit mutations in gastrointestinal mesenchymal tumors. By chance, the c-kit mutation in exon 11 was found in myogenic and neurogenic tumors as well as in GISTs. Furthermore, we studied the clinical prognostic utility of these mutations. Methods: Ten gastrointestinal mesenchymal tumors were stained with HE and immunohistochemically analyzed with α-smooth muscle actin, S-100 protein, CD34 and c-kit. In these tumors, as well as in 11 cases of leiomyomas, PCR-amplified DNA from the juxtamembrane (JM) domain of exon 11, the extracellular domain of exon 9 and the tyrosine kinase domain 1 of exon 13 showed a high frequency of c-kit mutation and was sequenced. Results: Although c-kit mutations have previously been reported only in GISTs, we found c-kit mutations in the JM domain of exon 11 in one myogenic and one neurogenic tumor as well as in two GISTs. No c-kit mutation was seen in the 11 cases of leiomyomas. In addition, all four cases with c-kit mutation in exon 11 suffered a relapse sooner than the other cases without c-kit mutations. Conclusion: Clinically, the prognosis was worse for the patients with mutation-positive gastrointestinal mesenchymal tumors than for those with mutation-negative tumors. We therefore conclude that the gain-of-function mutation in exon 11 of the c-kit gene is an important prognostic factor for gastrointestinal mesenchymal tumors, including myogenic and neurogenic tumors as well as GISTs.

Polymerase chain reaction for detection of carcinoembryonic antigen-expressing tumor cells on milky spots of the greater omentum in gastric cancer patients: a pilot study.

Our recent studies indicate that omental milky spots are frequently involved in the early stage of peritoneal cancer dissemination. We have used carcinoembryonic antigen (CEA)‐specific RT‐PCR for omental milky spots to predict peritoneal recurrence in gastric cancer patients. CEA mRNA was found to be positive in both 10 peritoneal washes and 16 greater omenta of 30 gastric cancer patients, including all 6 patients who showed positive results for both cytology and RT‐PCR of peritoneal wash and omentum. Three of the 6 cases with positive RT‐PCR in the greater omentum but not in the peritoneal wash showed recurrence of peritoneal carcinomatosa within 2 years after operation. Micrometastasis on omental milky spots was histologically confirmed in 6 of 30 gastric cancer cases. Non‐specific band was detected only in the omentum of 1 case of 15 benign disease (7%), but not in peritoneal washes (0%), probably due to weak expression of CEA in mesothelial cells. Our results show that CEA‐specific RT‐PCR targeting micro‐metastases on omental milky spots is more sensitive than targeting the peritoneal wash or conventional cytology, and suggest that this method is useful for the prediction of peritoneal recurrence in gastric cancer patients.