Anika Neureiter scite author profile

Genomic imprinting is an epigenetic phenomenon resulting in parent-of-origin-specific gene expression that is regulated by a differentially methylated region. Gene mutations or failures in the imprinting process lead to the development of imprinting disorders, such as Angelman syndrome. The symptoms of Angelman syndrome are caused by the absence of functional UBE3A protein in neurons of the brain. To create a human neuronal model for Angelman syndrome, we reprogrammed dermal fibroblasts of a patient carrying a defined three-base pair deletion in UBE3A into induced pluripotent stem cells (iPSCs). In these iPSCs, both parental alleles are present, distinguishable by the mutation, and express UBE3A. Detailed characterization of these iPSCs demonstrated their pluripotency and exceptional stability of the differentially methylated region regulating imprinted UBE3A expression. We observed strong induction of SNHG14 and silencing of paternal UBE3A expression only late during neuronal differentiation, in vitro. This new Angelman syndrome iPSC line allows to study imprinted gene regulation on both parental alleles and to dissect molecular pathways affected by the absence of UBE3A protein.

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Direct conversion of human fibroblasts into therapeutically active vascular wall-typical mesenchymal stem cells

Steens

Unger

Klar

et al. 2019

Cell. Mol. Life Sci.

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Cell-based therapies using adult stem cells are promising options for the treatment of a number of diseases including autoimmune and cardiovascular disorders. Among these, vascular wall-derived mesenchymal stem cells (VW-MSCs) might be particularly well suited for the protection and curative treatment of vascular damage because of their tissue-specific action. Here we report a novel method for the direct conversion of human skin fibroblasts towards MSCs using a VW-MSC-specific gene code (HOXB7, HOXC6 and HOXC8) that directs cell fate conversion bypassing pluripotency. This direct programming approach using either a self-inactivating (SIN) lentiviral vector expressing the VW-MSC-specific HOX-code or a tetracyclinecontrolled Tet-On system for doxycycline-inducible gene expressions of HOXB7, HOXC6 and HOXC8 successfully mediated the generation of VW-typical MSCs with classical MSC characteristics in vitro and in vivo. The induced VW-MSCs (iVW-MSCs) fulfilled all criteria of MSCs as defined by the International Society for Cellular Therapy (ISCT). In terms of multipotency and clonogenicity, which are important specific properties to discriminate MSCs from fibroblasts, iVW-MSCs behaved like primary ex vivo isolated VW-MSCs and shared similar molecular and DNA methylation signatures. With respect to their therapeutic potential, these cells suppressed lymphocyte proliferation in vitro, and protected mice against vascular damage in a mouse model of radiation-induced pneumopathy in vivo, as well as ex vivo cultured human lung tissue. The feasibility to obtain patient-specific VW-MSCs from fibroblasts in large amounts by a direct conversion into induced VW-MSCs could potentially open avenues towards novel, MSC-based therapies.

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Human sensory neurons derived from pluripotent stem cells for disease modelling and personalized medicine

Lampert

Bennett

McDermott

et al. 2020

Neurobiology of Pain

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Generation of an iPSC line of a patient with Angelman syndrome due to an imprinting defect

Neureiter

Brändl²,

Hiber

et al. 2018

Stem Cell Research

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Correction: Corrigendum: Angelman syndrome-derived neurons display late onset of paternal UBE3A silencing

Staňurová¹,

Neureiter²,

Hiber³

et al. 2018

Sci Rep

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Anika Neureiter

Angelman syndrome-derived neurons display late onset of paternal UBE3A silencing

Direct conversion of human fibroblasts into therapeutically active vascular wall-typical mesenchymal stem cells

Human sensory neurons derived from pluripotent stem cells for disease modelling and personalized medicine

Generation of an iPSC line of a patient with Angelman syndrome due to an imprinting defect

Correction: Corrigendum: Angelman syndrome-derived neurons display late onset of paternal UBE3A silencing

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