Mesenchymal stromal cell aging impairs the self-organizing capacity of lung alveolar epithelial stem cells

Diptiman Chanda; Mohammad Rehan; Samuel R. Smith; Kevin G. Dsouza; Yong Wang; Karen Bernard; Deepali Kurundkar; Vinayak Memula; Kyoko Kojima; James A. Mobley; Gloria A. Benavides; Victor Darley-Usmar; Young Il Kim; Jaroslaw W. Zmijewski; Jessy S. Deshane; Stijn De Langhe; Victor J. Thannickal

doi:10.7554/eLife.68049

Mesenchymal stromal cell aging impairs the self-organizing capacity of lung alveolar epithelial stem cells

Diptiman Chanda, Mohammad Rehan, Samuel R. Smith, Kevin G. Dsouza, Yong Wang, Karen Bernard, Deepali Kurundkar, Vinayak Memula, Kyoko Kojima, James A. Mobley, Gloria A. Benavides, Victor Darley-Usmar, Young Il Kim, Jaroslaw W. Zmijewski, Jessy S. Deshane, Stijn De Langhe, Victor J. Thannickal

Pulmonary and Critical Care Medicine

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

Abstract

Multicellular organisms maintain structure and function of tissues/organs through emer-gent, self-organizing behavior. In this report, we demonstrate a critical role for lung mesenchymal stromal cell (L-MSC) aging in determining the capacity to form three-dimensional organoids or ‘alveolospheres’ with type 2 alveolar epithelial cells (AEC2s). In contrast to L-MSCs from aged mice, young L-MSCs support the efficient formation of alveolospheres when co-cultured with young or aged AEC2s. Aged L-MSCs demonstrated features of cellular senescence, altered bioenergetics, and a senescence-associated secretory profile (SASP). The reactive oxygen species generating enzyme, NADPH oxidase 4 (Nox4), was highly activated in aged L-MSCs and Nox4 downregulation was sufficient to, at least partially, reverse this age-related energy deficit, while restoring the self-organizing capacity of alveolospheres. Together, these data indicate a critical role for cellular bioen-ergetics and redox homeostasis in an organoid model of self-organization and support the concept of thermodynamic entropy in aging biology.

Original language	English (US)
Article number	e68049
Journal	eLife
Volume	10
DOIs	https://doi.org/10.7554/eLife.68049
State	Published - Sep 2021

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.7554/eLife.68049

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Chanda, D., Rehan, M., Smith, S. R., Dsouza, K. G., Wang, Y., Bernard, K., Kurundkar, D., Memula, V., Kojima, K., Mobley, J. A., Benavides, G. A., Darley-Usmar, V., Kim, Y. I., Zmijewski, J. W., Deshane, J. S., De Langhe, S., & Thannickal, V. J. (2021). Mesenchymal stromal cell aging impairs the self-organizing capacity of lung alveolar epithelial stem cells. eLife, 10, Article e68049. https://doi.org/10.7554/eLife.68049

Chanda, D, Rehan, M, Smith, SR, Dsouza, KG, Wang, Y, Bernard, K, Kurundkar, D, Memula, V, Kojima, K, Mobley, JA, Benavides, GA, Darley-Usmar, V, Kim, YI, Zmijewski, JW, Deshane, JS, De Langhe, S & Thannickal, VJ 2021, 'Mesenchymal stromal cell aging impairs the self-organizing capacity of lung alveolar epithelial stem cells', eLife, vol. 10, e68049. https://doi.org/10.7554/eLife.68049

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title = "Mesenchymal stromal cell aging impairs the self-organizing capacity of lung alveolar epithelial stem cells",

abstract = "Multicellular organisms maintain structure and function of tissues/organs through emer-gent, self-organizing behavior. In this report, we demonstrate a critical role for lung mesenchymal stromal cell (L-MSC) aging in determining the capacity to form three-dimensional organoids or {\textquoteleft}alveolospheres{\textquoteright} with type 2 alveolar epithelial cells (AEC2s). In contrast to L-MSCs from aged mice, young L-MSCs support the efficient formation of alveolospheres when co-cultured with young or aged AEC2s. Aged L-MSCs demonstrated features of cellular senescence, altered bioenergetics, and a senescence-associated secretory profile (SASP). The reactive oxygen species generating enzyme, NADPH oxidase 4 (Nox4), was highly activated in aged L-MSCs and Nox4 downregulation was sufficient to, at least partially, reverse this age-related energy deficit, while restoring the self-organizing capacity of alveolospheres. Together, these data indicate a critical role for cellular bioen-ergetics and redox homeostasis in an organoid model of self-organization and support the concept of thermodynamic entropy in aging biology.",

author = "Diptiman Chanda and Mohammad Rehan and Smith, {Samuel R.} and Dsouza, {Kevin G.} and Yong Wang and Karen Bernard and Deepali Kurundkar and Vinayak Memula and Kyoko Kojima and Mobley, {James A.} and Benavides, {Gloria A.} and Victor Darley-Usmar and Kim, {Young Il} and Zmijewski, {Jaroslaw W.} and Deshane, {Jessy S.} and {De Langhe}, Stijn and Thannickal, {Victor J.}",

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year = "2021",

month = sep,

doi = "10.7554/eLife.68049",

language = "English (US)",

volume = "10",

journal = "eLife",

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AU - Chanda, Diptiman

AU - Rehan, Mohammad

AU - Smith, Samuel R.

AU - Dsouza, Kevin G.

AU - Wang, Yong

AU - Bernard, Karen

AU - Kurundkar, Deepali

AU - Memula, Vinayak

AU - Kojima, Kyoko

AU - Mobley, James A.

AU - Benavides, Gloria A.

AU - Darley-Usmar, Victor

AU - Kim, Young Il

AU - Zmijewski, Jaroslaw W.

AU - Deshane, Jessy S.

AU - De Langhe, Stijn

AU - Thannickal, Victor J.

PY - 2021/9

Y1 - 2021/9

N2 - Multicellular organisms maintain structure and function of tissues/organs through emer-gent, self-organizing behavior. In this report, we demonstrate a critical role for lung mesenchymal stromal cell (L-MSC) aging in determining the capacity to form three-dimensional organoids or ‘alveolospheres’ with type 2 alveolar epithelial cells (AEC2s). In contrast to L-MSCs from aged mice, young L-MSCs support the efficient formation of alveolospheres when co-cultured with young or aged AEC2s. Aged L-MSCs demonstrated features of cellular senescence, altered bioenergetics, and a senescence-associated secretory profile (SASP). The reactive oxygen species generating enzyme, NADPH oxidase 4 (Nox4), was highly activated in aged L-MSCs and Nox4 downregulation was sufficient to, at least partially, reverse this age-related energy deficit, while restoring the self-organizing capacity of alveolospheres. Together, these data indicate a critical role for cellular bioen-ergetics and redox homeostasis in an organoid model of self-organization and support the concept of thermodynamic entropy in aging biology.

AB - Multicellular organisms maintain structure and function of tissues/organs through emer-gent, self-organizing behavior. In this report, we demonstrate a critical role for lung mesenchymal stromal cell (L-MSC) aging in determining the capacity to form three-dimensional organoids or ‘alveolospheres’ with type 2 alveolar epithelial cells (AEC2s). In contrast to L-MSCs from aged mice, young L-MSCs support the efficient formation of alveolospheres when co-cultured with young or aged AEC2s. Aged L-MSCs demonstrated features of cellular senescence, altered bioenergetics, and a senescence-associated secretory profile (SASP). The reactive oxygen species generating enzyme, NADPH oxidase 4 (Nox4), was highly activated in aged L-MSCs and Nox4 downregulation was sufficient to, at least partially, reverse this age-related energy deficit, while restoring the self-organizing capacity of alveolospheres. Together, these data indicate a critical role for cellular bioen-ergetics and redox homeostasis in an organoid model of self-organization and support the concept of thermodynamic entropy in aging biology.

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Mesenchymal stromal cell aging impairs the self-organizing capacity of lung alveolar epithelial stem cells

Abstract

ASJC Scopus subject areas

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