Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree

Audrey M. Hendley; Arjun A. Rao; Laura Leonhardt; Sudipta Ashe; Jennifer A. Smith; Simone Giacometti; Xianlu L. Peng; Honglin Jiang; David I. Berrios; Mathias Pawlak; Lucia Y. Li; Jonghyun Lee; Eric A. Collisson; Mark S. Anderson; Gabriela K. Fragiadakis; Jen Jen Yeh; Chun Jimmie1 Ye; Grace E. Kim; Valerie M. Weaver; Matthias Hebrok

doi:10.7554/eLife.67776

Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree

Audrey M. Hendley, Arjun A. Rao, Laura Leonhardt, Sudipta Ashe, Jennifer A. Smith, Simone Giacometti, Xianlu L. Peng, Honglin Jiang, David I. Berrios, Mathias Pawlak, Lucia Y. Li, Jonghyun Lee, Eric A. Collisson, Mark S. Anderson, Gabriela K. Fragiadakis, Jen Jen Yeh, Chun Jimmie1 Ye, Grace E. Kim, Valerie M. Weaver, Matthias Hebrok

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

27 Scopus citations

Abstract

To study disease development, an inventory of an organ’s cell types and understanding of physiologic function is paramount. Here, we performed single-cell RNA- sequencing to examine heterogeneity of murine pancreatic duct cells, pancreatobiliary cells, and intrapancreatic bile duct cells. We describe an epithelial-mesenchymal transitory axis in our three pancreatic duct subpopulations and identify osteopontin as a regulator of this fate decision as well as human duct cell dedifferentiation. Our results further identify functional heterogeneity within pancreatic duct subpopulations by elucidating a role for geminin in accumulation of DNA damage in the setting of chronic pancreatitis. Our findings implicate diverse functional roles for subpopulations of pancreatic duct cells in maintenance of duct cell identity and disease progression and establish a comprehensive road map of murine pancreatic duct cell, pancreatobiliary cell, and intrapancreatic bile duct cell homeostasis.

Original language	English
Article number	e67776
Journal	eLife
Volume	10
DOIs	https://doi.org/10.7554/eLife.67776
State	Published - May 2021
Externally published	Yes

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Hendley, A. M., Rao, A. A., Leonhardt, L., Ashe, S., Smith, J. A., Giacometti, S., Peng, X. L., Jiang, H., Berrios, D. I., Pawlak, M., Li, L. Y., Lee, J., Collisson, E. A., Anderson, M. S., Fragiadakis, G. K., Yeh, J. J., Ye, C. J., Kim, G. E., Weaver, V. M., & Hebrok, M. (2021). Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree. eLife, 10, Article e67776. https://doi.org/10.7554/eLife.67776

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title = "Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree",

abstract = "To study disease development, an inventory of an organ{\textquoteright}s cell types and understanding of physiologic function is paramount. Here, we performed single-cell RNA- sequencing to examine heterogeneity of murine pancreatic duct cells, pancreatobiliary cells, and intrapancreatic bile duct cells. We describe an epithelial-mesenchymal transitory axis in our three pancreatic duct subpopulations and identify osteopontin as a regulator of this fate decision as well as human duct cell dedifferentiation. Our results further identify functional heterogeneity within pancreatic duct subpopulations by elucidating a role for geminin in accumulation of DNA damage in the setting of chronic pancreatitis. Our findings implicate diverse functional roles for subpopulations of pancreatic duct cells in maintenance of duct cell identity and disease progression and establish a comprehensive road map of murine pancreatic duct cell, pancreatobiliary cell, and intrapancreatic bile duct cell homeostasis.",

author = "Hendley, {Audrey M.} and Rao, {Arjun A.} and Laura Leonhardt and Sudipta Ashe and Smith, {Jennifer A.} and Simone Giacometti and Peng, {Xianlu L.} and Honglin Jiang and Berrios, {David I.} and Mathias Pawlak and Li, {Lucia Y.} and Jonghyun Lee and Collisson, {Eric A.} and Anderson, {Mark S.} and Fragiadakis, {Gabriela K.} and Yeh, {Jen Jen} and Ye, {Chun Jimmie1} and Kim, {Grace E.} and Weaver, {Valerie M.} and Matthias Hebrok",

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year = "2021",

month = may,

doi = "10.7554/eLife.67776",

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Hendley, AM, Rao, AA, Leonhardt, L, Ashe, S, Smith, JA, Giacometti, S, Peng, XL, Jiang, H, Berrios, DI, Pawlak, M, Li, LY, Lee, J, Collisson, EA, Anderson, MS, Fragiadakis, GK, Yeh, JJ, Ye, CJ, Kim, GE, Weaver, VM & Hebrok, M 2021, 'Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree', eLife, vol. 10, e67776. https://doi.org/10.7554/eLife.67776

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T1 - Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree

AU - Hendley, Audrey M.

AU - Rao, Arjun A.

AU - Leonhardt, Laura

AU - Ashe, Sudipta

AU - Smith, Jennifer A.

AU - Giacometti, Simone

AU - Peng, Xianlu L.

AU - Jiang, Honglin

AU - Berrios, David I.

AU - Pawlak, Mathias

AU - Li, Lucia Y.

AU - Lee, Jonghyun

AU - Collisson, Eric A.

AU - Anderson, Mark S.

AU - Fragiadakis, Gabriela K.

AU - Yeh, Jen Jen

AU - Ye, Chun Jimmie1

AU - Kim, Grace E.

AU - Weaver, Valerie M.

AU - Hebrok, Matthias

PY - 2021/5

Y1 - 2021/5

N2 - To study disease development, an inventory of an organ’s cell types and understanding of physiologic function is paramount. Here, we performed single-cell RNA- sequencing to examine heterogeneity of murine pancreatic duct cells, pancreatobiliary cells, and intrapancreatic bile duct cells. We describe an epithelial-mesenchymal transitory axis in our three pancreatic duct subpopulations and identify osteopontin as a regulator of this fate decision as well as human duct cell dedifferentiation. Our results further identify functional heterogeneity within pancreatic duct subpopulations by elucidating a role for geminin in accumulation of DNA damage in the setting of chronic pancreatitis. Our findings implicate diverse functional roles for subpopulations of pancreatic duct cells in maintenance of duct cell identity and disease progression and establish a comprehensive road map of murine pancreatic duct cell, pancreatobiliary cell, and intrapancreatic bile duct cell homeostasis.

AB - To study disease development, an inventory of an organ’s cell types and understanding of physiologic function is paramount. Here, we performed single-cell RNA- sequencing to examine heterogeneity of murine pancreatic duct cells, pancreatobiliary cells, and intrapancreatic bile duct cells. We describe an epithelial-mesenchymal transitory axis in our three pancreatic duct subpopulations and identify osteopontin as a regulator of this fate decision as well as human duct cell dedifferentiation. Our results further identify functional heterogeneity within pancreatic duct subpopulations by elucidating a role for geminin in accumulation of DNA damage in the setting of chronic pancreatitis. Our findings implicate diverse functional roles for subpopulations of pancreatic duct cells in maintenance of duct cell identity and disease progression and establish a comprehensive road map of murine pancreatic duct cell, pancreatobiliary cell, and intrapancreatic bile duct cell homeostasis.

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VL - 10

JO - eLife

JF - eLife

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Single-cell transcriptome analysis defines heterogeneity of the murine pancreatic ductal tree

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