Nathalie Knappe scite author profile

Nathalie Knappe

2Publications

94Citation Statements Received

116Citation Statements Given

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110

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University Medical Centre Mannheim, German Cancer Research Center, Heidelberg University

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NF1 loss induces senescence during human melanocyte differentiation in an iPSC‐based model

Larribère

Novak

et al. 2015

Pigment Cell Melanoma Res

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Neurofibromatosis type 1 (NF1) is a frequent genetic disease leading to the development of Schwann cell-derived neurofibromas or melanocytic lesions called café-au-lait macules (CALMs). The molecular mechanisms involved in CALMs formation remain largely unknown. In this report, we show for the first time pathophysiological mechanisms of abnormal melanocyte differentiation in a human NF1(+/-) -induced pluripotent stem cell (iPSC)-based model. We demonstrate that NF1 patient-derived fibroblasts can be successfully reprogrammed in NF1(+/-) iPSCs with active RAS signaling and that NF1 loss induces senescence during melanocyte differentiation as well as in patient's-derived CALMs, revealing a new role for NF1 in the melanocyte lineage.

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Melanoma-Derived iPCCs Show Differential Tumorigenicity and Therapy Response

et al. 2017

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SummaryA point mutation in the BRAF gene, leading to a constitutively active form of the protein, is present in 45%–60% of patients and acts as a key driver in melanoma. Shortly after therapy induction, resistance to MAPK pathway-specific inhibitors develops, indicating that pathway inhibition is circumvented by epigenetic mechanisms. Here, we mimicked epigenetic modifications in melanoma cells by reprogramming them into metastable induced pluripotent cancer cells (iPCCs) with the ability to terminally differentiate into non-tumorigenic lineages. iPCCs and their differentiated progeny were characterized by an increased resistance against targeted therapies, although the cells harbor the same oncogenic mutations and signaling activity as the parental melanoma cells. Furthermore, induction of a pluripotent state allowed the melanoma-derived cells to acquire a non-tumorigenic cell fate, further suggesting that tumorigenicity is influenced by the cell state.

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Nathalie Knappe

NF1 loss induces senescence during human melanocyte differentiation in an iPSC‐based model

Melanoma-Derived iPCCs Show Differential Tumorigenicity and Therapy Response

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