SET-NUP214 and MLL cooperatively regulate the promoter activity of the HoxA10 gene.

SET-Nup214 is a recurrent fusion gene that is mainly observed in T-cell acute lymphoblastic leukemia (T-ALL). Dysregulation of homeobox (Hox) genes is frequently observed in patients with leukemia. Consistent with this, HoxA genes are upregulated in the SET-Nup214 + T-ALL cell line and patients. Although SET-Nup214 has been reported to be recruited to the promoter regions of HoxA genes, the detailed mechanisms of how SET-Nup214 specifically binds to HoxA gene promoters and regulates HoxA gene expression are not known. In this study, we demonstrated that SET-Nup214 interacts with MLL via the SET acidic region of SET-Nup214. SET-Nup214 and MLL cooperatively enhance the promoter activity of the HoxA10 gene. Neither the SET region alone nor the Nup214 region alone sufficiently enhanced the HoxA10 gene promoter. Our results indicated that the SET portion of the SET-Nup214-fusion protein is important for interactions with MLL and transcription enhancement of the HoxA10 gene. Thus, our study will contribute to the understanding of how SET-Nup214 and MLL disturb the expression of HoxA10 gene in leukemia.

Interaction between Angiotensin Receptor and ß-Adrenergic Receptor Regulates the Production of Amyloid ß-Protein.

Alzheimer's disease (AD) is characterized by the formation of extracellular amyloid plaques containing the amyloid ß-protein (Aß) within the parenchyma of the brain. Aß is considered to be the key pathogenic factor of AD. Recently, we showed that Angiotensin II type 1 receptor (AT1R), which regulates blood pressure, is involved in Aß production, and that telmisartan (Telm), which is an angiotensin II receptor blocker (ARB), increased Aß production via AT1R. However, the precise mechanism underlying how AT1R is involved in Aß production is unknown. Interestingly, AT1R, a G protein-coupled receptor, was strongly suggested to be involved in signal transduction by heterodimerization with ß2-adrenergic receptor (ß2-AR), which is also shown to be involved in Aß generation. Therefore, in this study, we aimed to clarify whether the interaction between AT1R and ß2-AR is involved in the regulation of Aß production. To address this, we analyzed whether the increase in Aß production by Telm treatment is affected by ß-AR antagonist using fibroblasts overexpressing amyloid precursor protein (APP). We found that the increase in Aß production by Telm treatment was decreased by the treatment of ß2-AR selective antagonist ICI-118551 more strongly than the treatment of ß1-AR selective antagonists. Furthermore, deficiency of AT1R abolished the effect of ß2-AR antagonist on the stimulation of Aß production caused by Telm. Taken together, the interaction between AT1R and ß2-AR is likely to be involved in Aß production.