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Bae SC  Lee YH 《Gene》2006,366(1):58-66
The RUNX family members play pivotal roles in normal development and neoplasia. RUNX1 and RUNX2 are essential for hematopoiesis and osteogenesis, respectively, while RUNX3 is involved in neurogenesis, thymopoiesis and functions as a tumor suppressor. Inappropriate levels of RUNX activity are associated with leukemia, autoimmune disease, cleidocranial dysplasia, craniosynostosis and various solid tumors. Therefore, RUNX activity must be tightly regulated to prevent tumorigenesis and maintain normal cell differentiation. Recent work indicates that RUNX activity is controlled by various extracellular signaling pathways, and that phosphorylation, acetylation and ubiquitination are important post-translational modifications of RUNX that affect its stability and activity. Defining the precise roles, these modifications that play in the regulation of RUNX function may reveal not only how the RUNX proteins are regulated but also how they are assembled into other regulatory machineries.  相似文献   

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Upstream and downstream targets of RUNX proteins   总被引:23,自引:0,他引:23  
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Are there three different RUNX genes in the human genome just to allow differential expression in different cell types or are the RUNX proteins functionally different? Much previous evidence has suggested that the RUNX proteins were functionally redundant but, in human B cells, RUNX1 and RUNX3 have clearly been shown to have different functions at a key developmental stage. RUNX1 is expressed in mature resting B cells but proliferating B cell lines express RUNX3. Repression of RUNX1 by RUNX3 is required to allow the cell proliferation and this provides an experimental system to investigate the mechanism of the different activities of RUNX1 and RUNX3 in these cells. J. Cell. Physiol. 221: 283–287, 2009. © 2009 Wiley-Liss, Inc.  相似文献   

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RUNX1 plays opposing roles in breast cancer: a tumor suppressor in estrogen receptor-positive (ER+) disease and an oncogenic role in ER-negative (ER?) tumors. Potentially mediating the former, we have recently reported that RUNX1 prevents estrogen-driven suppression of the mRNA encoding the tumor suppressor AXIN1. Accordingly, AXIN1 protein expression was diminished upon RUNX1 silencing in ER+ breast cancer cells and was positively correlated with AXIN1 protein expression across tumors with high levels of ER. Here we report the surprising observation that RUNX1 and AXIN1 proteins are strongly correlated in ER? tumors as well. However, this correlation is not attributable to regulation of AXIN1 by RUNX1 or vice versa. The unexpected correlation between RUNX1, playing an oncogenic role in ER? breast cancer, and AXIN1, a well-established tumor suppressor hub, may be related to a high ratio between the expression of variant 2 and variant 1 (v2/v1) of AXIN1 in ER? compared with ER+ breast cancer. Although both isoforms are similarly regulated by RUNX1 in estrogen-stimulated ER+ breast cancer cells, the higher v2/v1 ratio in ER? disease is expected to weaken the tumor suppressor activity of AXIN1 in these tumors.  相似文献   

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RUNX family proteins are critical regulators of lineage differentiation during development. The high prevalence of RUNX mutation/epigenetic inactivation in human cancer indicates a causative role for dysfunctional RUNX in carcinogenesis. This is supported by well-documented evidence of functional interaction of RUNX with components of major oncogenic or tumor suppressive signaling pathways such as TGFβ and Wnt. Here, we explore the binding partners of RUNX3 proteins to further define the scope of RUNX3 function. Using a mass spectrometry-based approach, we found that RUNX3 binds to centrosomal protein rootletin. This led us to uncover the presence of RUNX proteins at the centrosome. Our findings suggest a potential function for RUNX3 during mitosis.  相似文献   

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