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Milton, Anna V. und Konrad, David B. (2022): Epithelial-mesenchymal transition and H2O2 signaling - a driver of disease progression and a vulnerability in cancers. In: Biological Chemistry, Bd. 403, Nr. 4: S. 377-390

Volltext auf 'Open Access LMU' nicht verfügbar.

Abstract

Mutation-selective drugs constitute a great advancement in personalized anticancer treatment with increased quality of life and overall survival in cancers. However, the high adaptability and evasiveness of cancers can lead to disease progression and the development of drug resistance, which cause recurrence and metastasis. A common characteristic in advanced neoplastic cancers is the epithelial-mesenchymal transition (EMT) which is strongly interconnected with H2O2 signaling, increased motility and invasiveness. H2O2 relays its signal through the installation of oxidative posttranslational modifications on cysteines. The increased H2O2 levels that are associated with an EMT confer a heightened sensitivity towards the induction of ferroptosis as a recently discovered vulnerability.

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