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e small MAF family and acts as a dominant negative form of large MAFs. In previous research we generated transgenic mice that overexpress MAFK in order to suppress the function of large MAF proteins in pancreatic beta-cells. These mice developed hyperglycemia in adulthood due to impairment of glucose-stimulated insulin secretion. The aim of the current study is to examine the effects of beta-cell-specific Mafk overexpression in endocrine cell development. The developing islets of Mafk-transgenic embryos appeared to be disorganized with an inversion of total numbers of insulin+ and glucagon+ cells due to reduced beta-cell proliferation. Gene expression analysis by quantitative RT-PCR revealed decreased levels of beta-cell-related genes whose expressions are known to be controlled by large MAF proteins. Additionally, these changes were accompanied with a significant increase in key beta-cell transcription factors likely due to compensatory mechanisms that might have been activated in response to the beta-cell loss. Finally, microarray comparison of gene expression profiles between wild-type and transgenic pancreata revealed alteration of some uncharacterized genes including Pcbd1, Fam132a, Cryba2, and Npy, which might play important roles during pancreatic endocrine development. Taken together, these results suggest that Mafk overexpression impairs endocrine development through a regulation of numerous beta-cell-related genes. The microarray analysis provided a unique data set of differentially expressed genes that might contribute to a better understanding of the molecular basis that governs the development and function of endocrine pancreas.

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during chemical hepatocarcinogenesis, whereas expression of MOZ (monocytic leukaemia zinc-finger protein; MYST3)--a member of the MYST [MOZ, Ybf2/Sas3, Sas2 and TIP60 (Tat-interacting protein, 60 kDa)] acetyltransferase family--was induced. Although the MOZ gene frequently is rearranged in leukaemia, we were unable to detect MOZ rearrangement in livers with hyperplastic nodules. We examined the effect of MOZ on hepatocarcinogenic-specific gene expression. GSTP (glutathione S-transferase placental form) is a Phase II detoxification enzyme and a well-known tumour marker that is specifically elevated during hepatocarcinogenesis. GSTP gene activation is regulated mainly by the GPE1 (GSTP enhancer 1) enhancer element, which is recognized by the Nrf2 (nuclear factor-erythroid 2 p45 subunit-related factor 2)-MafK heterodimer. We found that MOZ enhances GSTP promoter activity through GPE1 and acts as a co-activator of the Nrf2-MafK heterodimer. Further, exogenous MOZ induced GSTP expression in rat hepatoma H4IIE cells. These results suggest that during early hepatocarcinogenesis, aberrantly expressed MOZ may induce GSTP expression through the Nrf2-mediated pathway.

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tivation was mainly controlled by an enhancer element, GPE1 (GST-P enhancer 1), but the specific activation mechanism of the GST-P gene was not fully understood [Morimura, Suzuki, Hochi, Yuki, Nomura, Kitagawa, Nagatsu, Imagawa and Muramatsu (1993) Proc. Natl. Acad. Sci. U.S.A. 90, 2065-2068; Suzuki, Imagawa, Hirabayashi, Yuki, Hisatake, Nomura, Kitagawa and Muramatsu (1995) Cancer Res. 55, 2651-2655]. In the present study, we investigate the transcription factor Nrf2/MafK heterodimer (where Nrf2 stands for NF-E2 p45-related factor 2) as an activator of the GST-P gene through the action of GPE1 during hepatocarcinogenesis. Electrophoretic mobility-shift assay and footprinting analysis with wild-type GPE1 and GPE1 point mutants showed that the Nrf2/MafK heterodimer specifically bound GPE1. Reporter transfection assays indicated that Nrf2 strongly stimulated GST-P gene expression in mouse F9 embryonal carcinoma cells and H4IIE rat hepatoma cells. Northern-blot analysis indicated that GST-P and Nrf2 mRNA increased in parallel with development of precancerous lesions and hepatocellular carcinoma. Keap1 (Kelch-like ECH-associated protein 1), an inhibitory factor of Nrf2, decreased the activation of GPE1 by Nrf2 and this suppression was restored after treatment with electrophilic compounds. GST-P mRNA expression in H4IIE cells was induced by electrophilic compounds, as was the expression of mRNAs of other phase II detoxifying enzymes. Chromatin immunoprecipitation analyses showed that antibodies both against Nrf2 and against MafK precipitated GPE1 from the chromatin of the pre-neoplastic hepatocytes and rat hepatoma cells (H4IIE and dRLh84), but not from normal hepatocytes. These results indicate that the Nrf2/MafK heterodimer regulates GST-P gene expression during early hepatocarcinogenesis and in hepatoma cells.