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Kinetic modeling of stem cell transcriptome dynamics to identify regulatory modules of normal and disturbed neuroectodermal differentiation

Meisig, Johannes ; Dreser, Nadine ; Kapitza, Marion ; [et al.]

Oxford University Press (OUP) ; 2020

In: Nucleic Acids Research Vol. 48, No. 22 ( 2020-12-16), p. 12577-12592

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In: Nucleic Acids Research, Oxford University Press (OUP), Vol. 48, No. 22 ( 2020-12-16), p. 12577-12592

Abstract: Thousands of transcriptome data sets are available, but approaches for their use in dynamic cell response modelling are few, especially for processes affected simultaneously by two orthogonal influencing variables. We approached this problem for neuroepithelial development of human pluripotent stem cells (differentiation variable), in the presence or absence of valproic acid (signaling variable). Using few basic assumptions (sequential differentiation states of cells; discrete on/off states for individual genes in these states), and time-resolved transcriptome data, a comprehensive model of spontaneous and perturbed gene expression dynamics was developed. The model made reliable predictions (average correlation of 0.85 between predicted and subsequently tested expression values). Even regulations predicted to be non-monotonic were successfully validated by PCR in new sets of experiments. Transient patterns of gene regulation were identified from model predictions. They pointed towards activation of Wnt signaling as a candidate pathway leading to a redirection of differentiation away from neuroepithelial cells towards neural crest. Intervention experiments, using a Wnt/beta-catenin antagonist, led to a phenotypic rescue of this disturbed differentiation. Thus, our broadly applicable model allows the analysis of transcriptome changes in complex time/perturbation matrices.

Type of Medium: Online Resource

ISSN: 0305-1048 , 1362-4962

URL: Article

DOI: 10.1093/nar/gkaa1089

RVK:

WA 15000

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2020

detail.hit.zdb_id: 1472175-2

SSG: 12

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Stem Cell-Derived Immature Human Dorsal Root Ganglia Neurons to Identify Peripheral Neurotoxicants

Hoelting, Lisa ; Klima, Stefanie ; Karreman, Christiaan ; [et al.]

Oxford University Press (OUP) ; 2016

In: Stem Cells Translational Medicine Vol. 5, No. 4 ( 2016-04-01), p. 476-487

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In: Stem Cells Translational Medicine, Oxford University Press (OUP), Vol. 5, No. 4 ( 2016-04-01), p. 476-487

Abstract: Safety sciences and the identification of chemical hazards have been seen as one of the most immediate practical applications of human pluripotent stem cell technology. Protocols for the generation of many desirable human cell types have been developed, but optimization of neuronal models for toxicological use has been astonishingly slow, and the wide, clinically important field of peripheral neurotoxicity is still largely unexplored. A two-step protocol to generate large lots of identical peripheral human neuronal precursors was characterized and adapted to the measurement of peripheral neurotoxicity. High content imaging allowed an unbiased assessment of cell morphology and viability. The computational quantification of neurite growth as a functional parameter highly sensitive to disturbances by toxicants was used as an endpoint reflecting specific neurotoxicity. The differentiation of cells toward dorsal root ganglia neurons was tracked in relation to a large background data set based on gene expression microarrays. On this basis, a peripheral neurotoxicity (PeriTox) test was developed as a first toxicological assay that harnesses the potential of human pluripotent stem cells to generate cell types/tissues that are not otherwise available for the prediction of human systemic organ toxicity. Testing of more than 30 chemicals showed that human neurotoxicants and neurite growth enhancers were correctly identified. Various classes of chemotherapeutic agents causing human peripheral neuropathies were identified, and they were missed when tested on human central neurons. The PeriTox test we established shows the potential of human stem cells for clinically relevant safety testing of drugs in use and of new emerging candidates. Significance The generation of human cells from pluripotent stem cells has aroused great hopes in biomedical research and safety sciences. Neurotoxicity testing is a particularly important application for stem cell-derived somatic cells, as human neurons are hardly available otherwise. Also, peripheral neurotoxicity has become of major concern in drug development for chemotherapy. The first neurotoxicity test method was established based on human pluripotent stem cell-derived peripheral neurons. The strategies exemplified in the present study of reproducible cell generation, cell function-based test system establishment, and assay validation provide the basis for a drug safety assessment on cells not available otherwise.

Type of Medium: Online Resource

ISSN: 2157-6564 , 2157-6580

URL: Article

DOI: 10.5966/sctm.2015-0108

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2016

detail.hit.zdb_id: 2642270-0

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