Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium

Nicolette M. Johnson; Louis R. Parham; Jeeyoon Na; Keara E. Monaghan; Hannah M. Kolev; Alena Klochkova; Melissa S. Kim; Charles H. Danan; Zvi Cramer; Lauren A. Simon; Kaitlyn E. Naughton; Stephanie Adams-Tzivelekidis; Yuhua Tian; Patrick A. Williams; N. Adrian Leu; Simone Sidoli; Kelly A. Whelan; Ning Li; Christopher J. Lengner; Kathryn E. Hamilton

doi:10.15252/embr.202255209

Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium

Nicolette M. Johnson, Louis R. Parham, Jeeyoon Na, Keara E. Monaghan, Hannah M. Kolev, Alena Klochkova, Melissa S. Kim, Charles H. Danan, Zvi Cramer, Lauren A. Simon, Kaitlyn E. Naughton, Stephanie Adams-Tzivelekidis, Yuhua Tian, Patrick A. Williams, N. Adrian Leu, Simone Sidoli, Kelly A. Whelan, Ning Li, Christopher J. Lengner, Kathryn E. Hamilton

Cancer Signaling and Microenvironment (CSM)

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

8 Scopus citations

Abstract

The intestinal epithelium exhibits a rapid and efficient regenerative response to injury. Emerging evidence supports a model where plasticity of differentiated cells, particularly those in the secretory lineages, contributes to epithelial regeneration upon ablation of injury-sensitive stem cells. However, such facultative stem cell activity is rare within secretory populations. Here, we ask whether specific functional properties predict facultative stem cell activity. We utilize in vivo labeling combined with ex vivo organoid formation assays to evaluate how cell age and autophagic state contribute to facultative stem cell activity within secretory lineages. Strikingly, we find that cell age (time elapsed since cell cycle exit) does not correlate with secretory cell plasticity. Instead, high autophagic vesicle content predicts plasticity and resistance to DNA damaging injury independently of cell lineage. Our findings indicate that autophagic status prior to injury serves as a lineage-agnostic marker for the prospective identification of facultative stem cells.

Original language	English
Article number	e55209
Pages (from-to)	e55209
Journal	EMBO Reports
Volume	23
Issue number	11
DOIs	https://doi.org/10.15252/embr.202255209
State	Published - Nov 7 2022

Keywords

Cell Differentiation/genetics
Cell Lineage
Intestinal Mucosa
Prospective Studies
Stem Cells/metabolism

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10.15252/embr.202255209

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Johnson, N. M., Parham, L. R., Na, J., Monaghan, K. E., Kolev, H. M., Klochkova, A., Kim, M. S., Danan, C. H., Cramer, Z., Simon, L. A., Naughton, K. E., Adams-Tzivelekidis, S., Tian, Y., Williams, P. A., Leu, N. A., Sidoli, S., Whelan, K. A., Li, N., Lengner, C. J., & Hamilton, K. E. (2022). Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium. EMBO Reports, 23(11), e55209. Article e55209. https://doi.org/10.15252/embr.202255209

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title = "Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium",

abstract = "The intestinal epithelium exhibits a rapid and efficient regenerative response to injury. Emerging evidence supports a model where plasticity of differentiated cells, particularly those in the secretory lineages, contributes to epithelial regeneration upon ablation of injury-sensitive stem cells. However, such facultative stem cell activity is rare within secretory populations. Here, we ask whether specific functional properties predict facultative stem cell activity. We utilize in vivo labeling combined with ex vivo organoid formation assays to evaluate how cell age and autophagic state contribute to facultative stem cell activity within secretory lineages. Strikingly, we find that cell age (time elapsed since cell cycle exit) does not correlate with secretory cell plasticity. Instead, high autophagic vesicle content predicts plasticity and resistance to DNA damaging injury independently of cell lineage. Our findings indicate that autophagic status prior to injury serves as a lineage-agnostic marker for the prospective identification of facultative stem cells.",

keywords = "Cell Differentiation/genetics, Cell Lineage, Intestinal Mucosa, Prospective Studies, Stem Cells/metabolism",

author = "Johnson, {Nicolette M.} and Parham, {Louis R.} and Jeeyoon Na and Monaghan, {Keara E.} and Kolev, {Hannah M.} and Alena Klochkova and Kim, {Melissa S.} and Danan, {Charles H.} and Zvi Cramer and Simon, {Lauren A.} and Naughton, {Kaitlyn E.} and Stephanie Adams-Tzivelekidis and Yuhua Tian and Williams, {Patrick A.} and Leu, {N. Adrian} and Simone Sidoli and Whelan, {Kelly A.} and Ning Li and Lengner, {Christopher J.} and Hamilton, {Kathryn E.}",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors.",

year = "2022",

month = nov,

day = "7",

doi = "10.15252/embr.202255209",

language = "English",

volume = "23",

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journal = "EMBO Reports",

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Johnson, NM, Parham, LR, Na, J, Monaghan, KE, Kolev, HM, Klochkova, A, Kim, MS, Danan, CH, Cramer, Z, Simon, LA, Naughton, KE, Adams-Tzivelekidis, S, Tian, Y, Williams, PA, Leu, NA, Sidoli, S, Whelan, KA, Li, N, Lengner, CJ & Hamilton, KE 2022, 'Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium', EMBO Reports, vol. 23, no. 11, e55209, pp. e55209. https://doi.org/10.15252/embr.202255209

TY - JOUR

T1 - Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium

AU - Johnson, Nicolette M.

AU - Parham, Louis R.

AU - Na, Jeeyoon

AU - Monaghan, Keara E.

AU - Kolev, Hannah M.

AU - Klochkova, Alena

AU - Kim, Melissa S.

AU - Danan, Charles H.

AU - Cramer, Zvi

AU - Simon, Lauren A.

AU - Naughton, Kaitlyn E.

AU - Adams-Tzivelekidis, Stephanie

AU - Tian, Yuhua

AU - Williams, Patrick A.

AU - Leu, N. Adrian

AU - Sidoli, Simone

AU - Whelan, Kelly A.

AU - Li, Ning

AU - Lengner, Christopher J.

AU - Hamilton, Kathryn E.

PY - 2022/11/7

Y1 - 2022/11/7

N2 - The intestinal epithelium exhibits a rapid and efficient regenerative response to injury. Emerging evidence supports a model where plasticity of differentiated cells, particularly those in the secretory lineages, contributes to epithelial regeneration upon ablation of injury-sensitive stem cells. However, such facultative stem cell activity is rare within secretory populations. Here, we ask whether specific functional properties predict facultative stem cell activity. We utilize in vivo labeling combined with ex vivo organoid formation assays to evaluate how cell age and autophagic state contribute to facultative stem cell activity within secretory lineages. Strikingly, we find that cell age (time elapsed since cell cycle exit) does not correlate with secretory cell plasticity. Instead, high autophagic vesicle content predicts plasticity and resistance to DNA damaging injury independently of cell lineage. Our findings indicate that autophagic status prior to injury serves as a lineage-agnostic marker for the prospective identification of facultative stem cells.

AB - The intestinal epithelium exhibits a rapid and efficient regenerative response to injury. Emerging evidence supports a model where plasticity of differentiated cells, particularly those in the secretory lineages, contributes to epithelial regeneration upon ablation of injury-sensitive stem cells. However, such facultative stem cell activity is rare within secretory populations. Here, we ask whether specific functional properties predict facultative stem cell activity. We utilize in vivo labeling combined with ex vivo organoid formation assays to evaluate how cell age and autophagic state contribute to facultative stem cell activity within secretory lineages. Strikingly, we find that cell age (time elapsed since cell cycle exit) does not correlate with secretory cell plasticity. Instead, high autophagic vesicle content predicts plasticity and resistance to DNA damaging injury independently of cell lineage. Our findings indicate that autophagic status prior to injury serves as a lineage-agnostic marker for the prospective identification of facultative stem cells.

KW - Cell Differentiation/genetics

KW - Cell Lineage

KW - Intestinal Mucosa

KW - Prospective Studies

KW - Stem Cells/metabolism

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U2 - 10.15252/embr.202255209

DO - 10.15252/embr.202255209

M3 - Article

C2 - 36120829

SN - 1469-221X

VL - 23

SP - e55209

JO - EMBO Reports

JF - EMBO Reports

IS - 11

M1 - e55209

ER -

Autophagic state prospectively identifies facultative stem cells in the intestinal epithelium

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Keywords

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