Dear Colleagues,

In pluripotent stem cells (PSCs) as embryonic and induced pluripotent stem cells (iPSCs), characteristics such as epigenetic state, gene expression profiles, and the cellular localization of proteins are quite different from those of differentiated and somatic cells. Due to these differences, the response to external stimuli and stresses such as hypoxic, heat, and oxidative stress and chemicals, as well as ligands of channels and receptors, etc., is also different between PSCs and differentiated cells. For example, PSCs are highly sensitive to proteotoxic stress by MG132, and the levels of stress-responsive transcription factors change during differentiation. Further, the differences in stress response between cancer stem cells and cancer cells is also an attractive research field for the chemotherapies of cancers.

In this Special Issue, we would like to focus on such differences and the mechanism determining how those cells respond differentially to external stimuli. By clarifying them, we can identify the characteristics of stress response of PSCs and set up a differentiation protocol for somatic tissues by considering their properties. Furthermore, this information could be useful for research on the toxicology of chemicals in embryos and on iPSC-derived stress-related disease models, such as neurodegenerative diseases.

In this Special Issue, we invite original research articles and reviews on the following subjects: (1) the molecular mechanism of response to any stresses in stem cells, including pluripotent, multipotent, and cancer stem cells; (2) the implication of stress response in their stemness and differentiation; (3) iPSC-derived stress-related disease models and their disorders of stress response; (4) chemical or environmental toxicology in embryos and embryonic stem cells.

Dr. Taku Kaitsuka
Dr. Farzana Hakim
Dr. Mohd. Raeed Jamiruddin
Guest Editors

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• stem cells
• stress response
• differentiation
• heat stress
• hypoxic stress
• oxidative stress
• proteotoxic stress

Title: An Unique Roles of Ion Channels in Pluripotent Stem Cells in Response to Environmental Stimuli
Authors: Taku Kaitsuka
Affiliation: School of Pharmacy at Fukuoka, International University of Health and Welfare, Enokizu 137-1, Okawa, Fukuoka 831-8501, Japan
Abstract: Ion channels are essential for mineral ion homeostasis in mammalian cells and these are activated or inhibited by environmental stimuli such as heat, cold, mechanical, acidic or basic stresses. These expressions and functions are quite diverse between cell types. The function and importance of ion channels is well studied in neurons and cardiac cells, while those functions in pluripotent stem cells (PSCs) were not fully understood. Some of sodium, potassium, chloride, calcium and transient receptor potential channels are found to be expressed and implicated in pluripotency and self-renewal capacity in PSCs. This review summarize present and previous reports about ion channels and their response to environmental stimuli in PSCs. Furthermore, we compare their expressions and roles between PSCs and somatic cells and discuss those contributions to pluripotency and differentiation.