Tina C. Stummann scite author profile

SummaryThe discovery of human-induced pluripotent stem cells (iPSCs) has sparked great interest in the potential treatment of patients with their own in vitro differentiated cells. Recently, knockout of the Tumor Protein 53 (p53) gene was reported to facilitate reprogramming but unfortunately also led to genomic instability. Here, we report that transient suppression of p53 during nonintegrative reprogramming of human fibroblasts leads to a significant increase in expression of pluripotency markers and overall number of iPSC colonies, due to downstream suppression of p21, without affecting apoptosis and DNA damage. Stable iPSC lines generated with or without p53 suppression showed comparable expression of pluripotency markers and methylation patterns, displayed normal karyotypes, contained between 0 and 5 genomic copy number variations and produced functional neurons in vitro. In conclusion, transient p53 suppression increases reprogramming efficiency without affecting genomic stability, rendering the method suitable for in vitro mechanistic studies with the possibility for future clinical translation.

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Hazard assessment of methylmercury toxicity to neuronal induction in embryogenesis using human embryonic stem cells

Stummann¹,

Hareng²,

Bremer³

2009

Toxicology

109

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Patient iPSC-Derived Neurons for Disease Modeling of Frontotemporal Dementia with Mutation in CHMP2B

et al. 2017

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SummaryThe truncated mutant form of the charged multivesicular body protein 2B (CHMP2B) is causative for frontotemporal dementia linked to chromosome 3 (FTD3). CHMP2B is a constituent of the endosomal sorting complex required for transport (ESCRT) and, when mutated, disrupts endosome-to-lysosome trafficking and substrate degradation. To understand the underlying molecular pathology, FTD3 patient induced pluripotent stem cells (iPSCs) were differentiated into forebrain-type cortical neurons. FTD3 neurons exhibited abnormal endosomes, as previously shown in patients. Moreover, mitochondria of FTD3 neurons displayed defective cristae formation, accompanied by deficiencies in mitochondrial respiration and increased levels of reactive oxygen. In addition, we provide evidence for perturbed iron homeostasis, presenting an in vitro patient-specific model to study the effects of iron accumulation in neurodegenerative diseases. All phenotypes observed in FTD3 neurons were rescued in CRISPR/Cas9-edited isogenic controls. These findings illustrate the relevance of our patient-specific in vitro models and open up possibilities for drug target development.

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Embryotoxicity hazard assessment of methylmercury and chromium using embryonic stem cells

2007

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TNF-α and α-synuclein fibrils differently regulate human astrocyte immune reactivity and impair mitochondrial respiration

et al. 2021

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TNF-a and a-synuclein fibrils differently regulate human astrocyte immune reactivity and impair mitochondrial respiration Graphical abstract Highlights d Astrocytes exposed to TNF-a, but not aSYN fibrils, release pro-inflammatory cytokines d Astrocytes exposed to aSYN fibrils become antigen (cross)presenting cells d Antigen (cross) presentation is hampered by large F110 fibrils d Astrocytes exposed to TNF-a or aSYN fibrils have impaired mitochondrial respiration

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Tina C. Stummann

Transient p53 Suppression Increases Reprogramming of Human Fibroblasts without Affecting Apoptosis and DNA Damage

Hazard assessment of methylmercury toxicity to neuronal induction in embryogenesis using human embryonic stem cells

Patient iPSC-Derived Neurons for Disease Modeling of Frontotemporal Dementia with Mutation in CHMP2B

Embryotoxicity hazard assessment of methylmercury and chromium using embryonic stem cells

TNF-α and α-synuclein fibrils differently regulate human astrocyte immune reactivity and impair mitochondrial respiration

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