Stem cell genetics research may be critical to our understanding of carcinogenesis, as both stem cells and cancer cells possess the ability to self-renew. Recent discoveries have indicated that the piwi family of genes plays an essential role in stem cell selfrenewal in diverse organisms. The hiwi gene, the human homolog of the piwi family, participates in germ cell proliferation and its overexpression may cause the development of germ cell malignancy, but its expression and function in epithelial solid cancers have not been explored. In the present study, we investigated whether there was an association between hiwi expression and human gastric cancer and its potential mechanism. RT-PCR findings demonstrated that hiwi was expressed in different gastric cancer cell lines. To identify the HIWI protein in gastric cancer, we developed a specific monoclonal antibody against HIWI and immunohistochemistry was performed on various gastric tissues. We found that the expression ratio of hiwi in normal gastric tissues, atrophic gastritis, intestinal metaplasia and gastric cancers was 10% (5/50), 36% (18/50), 36% (18/50) and 76% (38/50), respectively, which was consistent with precancerous development. Notably, the expression pattern of hiwi in gastric cancer tissues was similar to that of Ki67, which was used as a marker of proliferation. Moreover, the suppression of hiwi by antisense or RNAi inhibited the growth of gastric cancer cells and induced cell cycle arrest in G 2 /M phase. These results suggest that hiwi may be involved in the development of gastric cancer and is a potential target for cancer therapy. ' 2005 Wiley-Liss, Inc.Key words: hiwi; expression; gastric cancer; proliferation Although there is a high incidence of gastric cancer in Asia and gastric cancer remains one of the leading causes of cancer-related death worldwide, 1 the molecular mechanisms underlying its development are poorly understood. Stem cell research will greatly expand our understanding of the mechanisms of carcinogenesis because the homeostatic mechanisms mediating stem cell proliferation are the same processes that become dysregulated in carcinogenesis.2,3 Therefore, the study of stem cell genes may be critical to furthering our understanding of carcinogenesis and to the development of novel strategies for preventing and managing cancer. 4 Because of this, there is a growing interest in studying the roles of genes, which were initially found to be involved in stem cell selfrenewal, in the development of cancer.
5-7The hiwi gene is a human member of the piwi family, which represents the first class of genes known to be required for stem cell self-renewal in diverse organisms.8 Recent discoveries have shown that hiwi may participate in germ cell proliferation and its overexpression may cause germ cell malignancy development.
9These findings raise the hypothesis that hiwi may be present in other types of stem cells and likewise may be involved in the development of cancers.The hiwi gene, located in 12q24.33, was originally isolated from a h...
