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MicroRNA alterations in induced Pluripotent Stem Cell-derived neurons from bipolar disorder patients: pathways involved in neuronal differentiation, axon guidance and plasticity.

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Bipolar disorder (BP) is a complex psychiatric condition characterized by severe fluctuations in mood for which underlying pathological mechanisms remain unclear. Family and twin studies have identified a hereditary component… Click to show full abstract

Bipolar disorder (BP) is a complex psychiatric condition characterized by severe fluctuations in mood for which underlying pathological mechanisms remain unclear. Family and twin studies have identified a hereditary component to the disorder, but a single causative gene (or set of genes) has not been identified. MicroRNAs (miRNAs) are small, non-coding RNAs approximately 20 nucleotides in length, that are responsible for the post-translational regulation of multiple genes. They have been shown to play important roles in neural development as well as in the adult brain, and several miRNAs have been reported to be dysregulated in postmortem brain tissue isolated from bipolar patients. Because there are no viable cellular models to study BP, we have taken advantage of the recent discovery that somatic cells can be reprogrammed to pluripotency then directed to form the full complement of neural cells. Analysis of RNAs extracted from Control and BP patient - derived neurons identified 58 miRNAs that were differentially expressed between the two groups. Using qPCR we validated six miRNAs that were elevated and two miRNAs that were expressed at lower levels in BP derived neurons. Analysis of the targets of the miRNAs indicate that they may regulate a number of cellular pathways, including axon guidance, Mapk, Ras, Hippo, Neurotrophin and Wnt signaling. Many are involved in processes previously implicated in bipolar disorder, such as cell migration, axon guidance, dendrite and synapse development and function. We have validated targets of several different miRNAs, including AXIN2, BDNF, RELN and ANK3 as direct targets of differentially expressed miRNAs using luciferase assays. Identification of pathways altered in patient-derived neurons suggests that disruption of these regulatory networks that may contribute to the complex phenotypes in BP.

Keywords: disorder; derived neurons; axon guidance; bipolar disorder; cell

Journal Title: Stem cells and development
Year Published: 2020

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