Aleksandra R. Knyazeva scite author profile

Resveratrol, a natural polyphenolic compound, shows many beneficial effects in various animal models. It increases efficiency of somatic cell reprograming into iPSCs and contributes to cell differentiation. Here, we studied the effect of resveratrol on proliferation and pluripotency of mouse embryonic stem cells (mESCs). Our results demonstrate that resveratrol induces autophagy in mESCs that is provided by the activation of the AMPK/Ulk1 pathway and the concomitant suppression of the activity of the mTORC1 signaling cascade. These events correlate with the enhanced expression of pluripotency markers Oct3/4, Sox2, Nanog, Klf4, SSEA-1 and alkaline phosphatase. Pluripotency is retained under resveratrol-caused retardation of cell proliferation. Given that the Ulk1 overexpression enhances pluripotency of mESCs, the available data evidence that mTOR/Ulk1/AMPK-autophagy network provides the resveratrol-mediated regulation of mESC pluripotency. The capability of resveratrol to support the mESC pluripotency provides a new approach for developing a defined medium for ESC culturing as well as for better understanding signaling events that govern self-renewal and pluripotency.

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Resveratrol-induced p53 activation is associated with autophagy in mouse embryonic stem cells

Suvorova

Knyazeva

Поспелов

2018

Biochemical and Biophysical Research Communications

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The mTOR Pathway in Pluripotent Stem Cells: Lessons for Understanding Cancer Cell Dormancy

et al. 2021

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Currently, the success of targeted anticancer therapies largely depends on the correct understanding of the dormant state of cancer cells, since it is increasingly regarded to fuel tumor recurrence. The concept of cancer cell dormancy is often considered as an adaptive response of cancer cells to stress, and, therefore, is limited. It is possible that the cancer dormant state is not a privilege of cancer cells but the same reproductive survival strategy as diapause used by embryonic stem cells (ESCs). Recent advances reveal that high autophagy and mTOR pathway reduction are key mechanisms contributing to dormancy and diapause. ESCs, sharing their main features with cancer stem cells, have a delicate balance between the mTOR pathway and autophagy activity permissive for diapause induction. In this review, we discuss the functioning of the mTOR signaling and autophagy in ESCs in detail that allows us to deepen our understanding of the biology of cancer cell dormancy.

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