Tau pathologically aggregates in Alzheimer’s disease, and evidence suggests that reducing tau expression may be safe and beneficial for the prevention or treatment of this disease. We sought to examine the role of the 3’-untranslated region (3’-UTR) of human tau mRNA in regulating tau expression. Tau expresses two 3’-UTR isoforms, long and short, as a result of alternative polyadenylation. Using luciferase reporter constructs, we found that expression from these isoforms is differentially controlled in human neuroblastoma cell lines M17D and SH-SY5Y. Several microRNAs were computationally identified as candidates that might bind the long, but not short, tau 3’-UTR isoform. A hit from a screen of candidates, miR-34a, was subsequently shown to repress the expression of endogenous tau protein in M17D cells. Conversely, inhibition of endogenously expressed miR-34 family members leads to increased endogenous tau expression. Additionally, through an unbiased screen of fragments of the human tau 3’-UTR using a luciferase reporter assay, we identified several other regions in the long tau 3’-UTR isoform that contain regulatory cis-elements. Improved understanding of the regulation of tau expression by its 3’-UTR may ultimately lead to the development of novel therapeutic strategies for the treatment of Alzheimer’s disease and other tauopathies.
A series of mitoxantrone (MTX) analogues have been designed, synthesized, and evaluated for binding to and stabilizing a stem–loop structure that serves as a splicing regulatory element in the pre-mRNA of tau, which is involved in Alzheimer’s and other neurodegenerative diseases. Several compounds showed significantly improved binding activity relative to the original screening hit mitoxantrone. These findings establish essential structure–activity relationships to further optimize the activity of this promising class of compounds.
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