Novel approach for pancreas transcriptomics reveals the cellular landscape in homeostasis and acute pancreatitis
Novel approach for pancreas transcriptomics reveals the cellular landscape in homeostasis and acute pancreatitis
Background & Aims: acinar cells produce digestive enzymes that impede transcriptomic characterization of the exocrine pancreas. Thus, single-cell RNA-sequencing studies of the pancreas underrepresent acinar cells relative to histological expectations, and a robust approach to capture pancreatic cell responses in disease states is needed. We sought to innovate a method that overcomes these challenges to accelerate study of the pancreas in health and disease.
Methods: we leverage FixNCut, a single-cell RNA-sequencing approach in which tissue is reversibly fixed with dithiobis(succinimidyl propionate) before dissociation and single-cell preparation. We apply FixNCut to an established mouse model of acute pancreatitis, validate findings using GeoMx whole transcriptome atlas profiling, and integrate our data with prior studies to compare our method in both mouse and human pancreas datasets.
Results: FixNCut achieves unprecedented definition of challenging pancreatic cells, including acinar and immune populations in homeostasis and acute pancreatitis, and identifies changes in all major cell types during injury and recovery. We define the acinar transcriptome during homeostasis and acinar-to-ductal metaplasia and establish a unique gene set to measure deviation from normal acinar identity. We characterize pancreatic immune cells, and analysis of T-cell subsets reveals a polarization of the homeostatic pancreas toward type-2 immunity. We report immune responses during acute pancreatitis and recovery, including early neutrophil infiltration, expansion of dendritic cell subsets, and a substantial shift in the transcriptome of macrophages due to both resident macrophage activation and monocyte infiltration.
Conclusions: FixNCut preserves pancreatic transcriptomes to uncover novel cell states during homeostasis and following pancreatitis, establishing a broadly applicable approach and reference atlas for study of pancreas biology and disease.
Acinar-to-Ductal Metaplasia, Dithiobis(succinimidyl propionate), FixNCut, Pancreas Single-Cell RNA-Sequencing
1100-1113
Aney, Katherine J.
10c8c242-a73c-46f6-9a05-1549362e2887
Jeong, Woo-Jeong
ceaa8cfb-135c-44cf-accd-aa41b4b2fe36
Vallejo, Andres F.
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Burdziak, Cassandra
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Chen, Ethan
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Wang, Austin
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Koak, Pal
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Wise, Kellie
cc400dd4-1e6a-4cf8-9347-4be886a39a35
Jensen, Kirk
fc21202b-fd1c-4583-9622-c155e8feb63f
Pe'er, Dana
5173384f-d0eb-4b81-9119-9fed14377497
Dougan, Stephanie K.
98689edb-8e7d-4783-8f26-79709d431e08
Martelotto, Luciano
704436cf-1ee5-48be-a638-d18045571f3b
Nissim, Sahar
19c7a834-1c61-4500-be62-4fbe5c3362a7
17 May 2024
Aney, Katherine J.
10c8c242-a73c-46f6-9a05-1549362e2887
Jeong, Woo-Jeong
ceaa8cfb-135c-44cf-accd-aa41b4b2fe36
Vallejo, Andres F.
27bc0b94-0c40-4fd1-9533-7e267d588c0a
Burdziak, Cassandra
9fb3cea5-275f-401b-8cd1-27c20545a14f
Chen, Ethan
2aa97b88-993c-4e8a-9031-4982d6a71fc1
Wang, Austin
6b284223-d38d-49af-8888-a4727ecadb8f
Koak, Pal
f4bbf01c-a942-4c7e-bf58-bcf281276e3c
Wise, Kellie
cc400dd4-1e6a-4cf8-9347-4be886a39a35
Jensen, Kirk
fc21202b-fd1c-4583-9622-c155e8feb63f
Pe'er, Dana
5173384f-d0eb-4b81-9119-9fed14377497
Dougan, Stephanie K.
98689edb-8e7d-4783-8f26-79709d431e08
Martelotto, Luciano
704436cf-1ee5-48be-a638-d18045571f3b
Nissim, Sahar
19c7a834-1c61-4500-be62-4fbe5c3362a7
Aney, Katherine J., Jeong, Woo-Jeong, Vallejo, Andres F., Burdziak, Cassandra, Chen, Ethan, Wang, Austin, Koak, Pal, Wise, Kellie, Jensen, Kirk, Pe'er, Dana, Dougan, Stephanie K., Martelotto, Luciano and Nissim, Sahar
(2024)
Novel approach for pancreas transcriptomics reveals the cellular landscape in homeostasis and acute pancreatitis.
Gastroenterology, 166 (6), .
(doi:10.1053/j.gastro.2024.01.043).
Abstract
Background & Aims: acinar cells produce digestive enzymes that impede transcriptomic characterization of the exocrine pancreas. Thus, single-cell RNA-sequencing studies of the pancreas underrepresent acinar cells relative to histological expectations, and a robust approach to capture pancreatic cell responses in disease states is needed. We sought to innovate a method that overcomes these challenges to accelerate study of the pancreas in health and disease.
Methods: we leverage FixNCut, a single-cell RNA-sequencing approach in which tissue is reversibly fixed with dithiobis(succinimidyl propionate) before dissociation and single-cell preparation. We apply FixNCut to an established mouse model of acute pancreatitis, validate findings using GeoMx whole transcriptome atlas profiling, and integrate our data with prior studies to compare our method in both mouse and human pancreas datasets.
Results: FixNCut achieves unprecedented definition of challenging pancreatic cells, including acinar and immune populations in homeostasis and acute pancreatitis, and identifies changes in all major cell types during injury and recovery. We define the acinar transcriptome during homeostasis and acinar-to-ductal metaplasia and establish a unique gene set to measure deviation from normal acinar identity. We characterize pancreatic immune cells, and analysis of T-cell subsets reveals a polarization of the homeostatic pancreas toward type-2 immunity. We report immune responses during acute pancreatitis and recovery, including early neutrophil infiltration, expansion of dendritic cell subsets, and a substantial shift in the transcriptome of macrophages due to both resident macrophage activation and monocyte infiltration.
Conclusions: FixNCut preserves pancreatic transcriptomes to uncover novel cell states during homeostasis and following pancreatitis, establishing a broadly applicable approach and reference atlas for study of pancreas biology and disease.
Text
Aney_Jeong_final_Manuscript_to_AUTHORS_May1_AFV
- Accepted Manuscript
More information
Accepted/In Press date: 30 January 2024
e-pub ahead of print date: 6 February 2024
Published date: 17 May 2024
Additional Information:
Publisher Copyright:
© 2024 AGA Institute
Copyright © 2024 AGA Institute. Published by Elsevier Inc. All rights reserved.
Keywords:
Acinar-to-Ductal Metaplasia, Dithiobis(succinimidyl propionate), FixNCut, Pancreas Single-Cell RNA-Sequencing
Identifiers
Local EPrints ID: 509220
URI: http://eprints.soton.ac.uk/id/eprint/509220
ISSN: 0016-5085
PURE UUID: 8802348c-2a2a-49ab-99ec-56f9d2a720e1
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Date deposited: 13 Feb 2026 17:38
Last modified: 14 Feb 2026 05:01
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Contributors
Author:
Katherine J. Aney
Author:
Woo-Jeong Jeong
Author:
Andres F. Vallejo
Author:
Cassandra Burdziak
Author:
Ethan Chen
Author:
Austin Wang
Author:
Pal Koak
Author:
Kellie Wise
Author:
Kirk Jensen
Author:
Dana Pe'er
Author:
Stephanie K. Dougan
Author:
Luciano Martelotto
Author:
Sahar Nissim
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