Dynamic changes in intracellular ROS levels regulate airway basal stem cell homeostasis through Nrf2-dependent notch signaling

Manash K. Paul; Bharti Bisht; Daphne O. Darmawan; Richard Chiou; Vi L. Ha; William D. Wallace; Andrew T. Chon; Ahmed E. Hegab; Tristan Grogan; David A. Elashoff; Jackelyn A. Alva-Ornelas; Brigitte N. Gomperts

doi:10.1016/j.stem.2014.05.009

Dynamic changes in intracellular ROS levels regulate airway basal stem cell homeostasis through Nrf2-dependent notch signaling

Manash K. Paul
, Bharti Bisht
, Daphne O. Darmawan
, Richard Chiou
, Vi L. Ha
, William D. Wallace
, Andrew T. Chon
, Ahmed E. Hegab
, Tristan Grogan
, David A. Elashoff
, Jackelyn A. Alva-Ornelas
, Brigitte N. Gomperts^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

249 Citations (Scopus)

Abstract

Airways are exposed to myriad environmental and damaging agents such as reactive oxygen species (ROS), which also have physiological roles as signaling molecules that regulate stem cell function. However, the functional significance of both steady and dynamically changing ROS levels in different stem cell populations, as well as downstream mechanisms that integrate ROS sensing into decisions regarding stem cell homeostasis, are unclear. Here, we show in mouse and human airway basal stem cells (ABSCs) that intracellular flux from low to moderate ROS levels is required for stem cell self-renewal and proliferation. Changing ROS levels activate Nrf2, which activates the Notch pathway to stimulate ABSC self-renewal and an antioxidant program that scavenges intracellular ROS, returning overall ROS levels to a low state to maintain homeostatic balance. This redox-mediated regulation of lung stem cell function has significant implications for stem cell biology, repair of lung injuries, and diseases such as cancer.

Original language	English
Pages (from-to)	199-214
Number of pages	16
Journal	Cell Stem Cell
Volume	15
Issue number	2
DOIs	https://doi.org/10.1016/j.stem.2014.05.009
Publication status	Published - 07-08-2014

All Science Journal Classification (ASJC) codes

Molecular Medicine
Genetics
Cell Biology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.stem.2014.05.009

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Paul, M. K., Bisht, B., Darmawan, D. O., Chiou, R., Ha, V. L., Wallace, W. D., Chon, A. T., Hegab, A. E., Grogan, T., Elashoff, D. A., Alva-Ornelas, J. A., & Gomperts, B. N. (2014). Dynamic changes in intracellular ROS levels regulate airway basal stem cell homeostasis through Nrf2-dependent notch signaling. Cell Stem Cell, 15(2), 199-214. https://doi.org/10.1016/j.stem.2014.05.009

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title = "Dynamic changes in intracellular ROS levels regulate airway basal stem cell homeostasis through Nrf2-dependent notch signaling",

abstract = "Airways are exposed to myriad environmental and damaging agents such as reactive oxygen species (ROS), which also have physiological roles as signaling molecules that regulate stem cell function. However, the functional significance of both steady and dynamically changing ROS levels in different stem cell populations, as well as downstream mechanisms that integrate ROS sensing into decisions regarding stem cell homeostasis, are unclear. Here, we show in mouse and human airway basal stem cells (ABSCs) that intracellular flux from low to moderate ROS levels is required for stem cell self-renewal and proliferation. Changing ROS levels activate Nrf2, which activates the Notch pathway to stimulate ABSC self-renewal and an antioxidant program that scavenges intracellular ROS, returning overall ROS levels to a low state to maintain homeostatic balance. This redox-mediated regulation of lung stem cell function has significant implications for stem cell biology, repair of lung injuries, and diseases such as cancer.",

author = "Paul, \{Manash K.\} and Bharti Bisht and Darmawan, \{Daphne O.\} and Richard Chiou and Ha, \{Vi L.\} and Wallace, \{William D.\} and Chon, \{Andrew T.\} and Hegab, \{Ahmed E.\} and Tristan Grogan and Elashoff, \{David A.\} and Alva-Ornelas, \{Jackelyn A.\} and Gomperts, \{Brigitte N.\}",

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AU - Ha, Vi L.

AU - Wallace, William D.

AU - Chon, Andrew T.

AU - Hegab, Ahmed E.

AU - Grogan, Tristan

AU - Elashoff, David A.

AU - Alva-Ornelas, Jackelyn A.

AU - Gomperts, Brigitte N.

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AB - Airways are exposed to myriad environmental and damaging agents such as reactive oxygen species (ROS), which also have physiological roles as signaling molecules that regulate stem cell function. However, the functional significance of both steady and dynamically changing ROS levels in different stem cell populations, as well as downstream mechanisms that integrate ROS sensing into decisions regarding stem cell homeostasis, are unclear. Here, we show in mouse and human airway basal stem cells (ABSCs) that intracellular flux from low to moderate ROS levels is required for stem cell self-renewal and proliferation. Changing ROS levels activate Nrf2, which activates the Notch pathway to stimulate ABSC self-renewal and an antioxidant program that scavenges intracellular ROS, returning overall ROS levels to a low state to maintain homeostatic balance. This redox-mediated regulation of lung stem cell function has significant implications for stem cell biology, repair of lung injuries, and diseases such as cancer.

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Dynamic changes in intracellular ROS levels regulate airway basal stem cell homeostasis through Nrf2-dependent notch signaling

Abstract

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