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GREM1 is required to maintain cellular heterogeneity in pancreatic cancer

GREM1 is required to maintain cellular heterogeneity in pancreatic cancer
GREM1 is required to maintain cellular heterogeneity in pancreatic cancer

Pancreatic ductal adenocarcinoma (PDAC) shows pronounced epithelial and mesenchymal cancer cell populations1-4. Cellular heterogeneity in PDAC is an important feature in disease subtype specification3-5, but how distinct PDAC subpopulations interact, and the molecular mechanisms that underlie PDAC cell fate decisions, are incompletely understood. Here we identify the BMP inhibitor GREM16,7 as a key regulator of cellular heterogeneity in pancreatic cancer in human and mouse. Grem1 inactivation in established PDAC in mice resulted in a direct conversion of epithelial into mesenchymal PDAC cells within days, suggesting that persistent GREM1 activity is required to maintain the epithelial PDAC subpopulations. By contrast, Grem1 overexpression caused an almost complete 'epithelialization' of highly mesenchymal PDAC, indicating that high GREM1 activity is sufficient to revert the mesenchymal fate of PDAC cells. Mechanistically, Grem1 was highly expressed in mesenchymal PDAC cells and inhibited the expression of the epithelial-mesenchymal transition transcription factors Snai1 (also known as Snail) and Snai2 (also known as Slug) in the epithelial cell compartment, therefore restricting epithelial-mesenchymal plasticity. Thus, constant suppression of BMP activity is essential to maintain epithelial PDAC cells, indicating that the maintenance of the cellular heterogeneity of pancreatic cancer requires continuous paracrine signalling elicited by a single soluble factor.

Animals, Carcinoma, Pancreatic Ductal/pathology, Cell Line, Tumor, Epithelial Cells/pathology, Epithelial-Mesenchymal Transition/genetics, Humans, Intercellular Signaling Peptides and Proteins/deficiency, Mesoderm/pathology, Mice, Pancreatic Neoplasms/pathology, Snail Family Transcription Factors
0028-0836
163-168
Lan, Linxiang
31cbb6c1-9f59-4402-8af7-75e2d0918f45
Evan, Theodore
e12d08a4-217a-4d23-9350-e5a103322d8e
Li, Huafu
d22c7e8a-e18f-4af6-9991-fed5ae6789e7
Hussain, Aasia
578d0544-780e-4e8f-9081-6fd3262d9168
Ruiz, E. Josue
b3870343-cacc-462d-bb57-9ccfa025a726
Zaw Thin, May
670d3768-2597-48b3-84b4-f360dcd66f57
Ferreira, Rute M.M.
b47c24ad-ab9a-47f1-8639-eff1ca35858b
Ps, Hari
8c5cb628-1f0a-46fa-b08a-becd69d943cf
Riising, Eva M.
3710f904-ae90-43b4-a70d-e0bd12d2598c
Zen, Yoh
b59b5eb7-ab3c-452e-822d-8759e922f23b
Almagro, Jorge
9cba7dad-ab1f-423e-8ab6-d3ca4b3866f9
Ng, Kevin W.
23dbae0f-1f63-4958-b997-1f5fd137c3a0
Soro-Barrio, Pablo
a0cee898-c932-4dbd-b3f0-3402b2149525
Nelson, Jessica
7dc3f0c8-5a67-4467-a332-efd560a0630b
Koifman, Gabriela
2385a740-d61e-46ea-b4fa-e712b89eebab
Carvalho, Joana
2ae29864-0d45-4aea-a245-0c888c2c3059
Nye, Emma L.
39681625-011d-472c-9e6e-eb6e35aa2c21
He, Yulong
c7fdcf12-b926-40d4-8191-ab6ac291ad34
Zhang, Changhua
9dc00612-af90-43f1-9c50-cb8d0333b134
Sadanandam, Anguraj
6b7c8dcb-9f9a-4ebb-aa66-21f48c628b6f
Behrens, Axel
562a632f-5241-42aa-b554-d3c593f9b7ce
Lan, Linxiang
31cbb6c1-9f59-4402-8af7-75e2d0918f45
Evan, Theodore
e12d08a4-217a-4d23-9350-e5a103322d8e
Li, Huafu
d22c7e8a-e18f-4af6-9991-fed5ae6789e7
Hussain, Aasia
578d0544-780e-4e8f-9081-6fd3262d9168
Ruiz, E. Josue
b3870343-cacc-462d-bb57-9ccfa025a726
Zaw Thin, May
670d3768-2597-48b3-84b4-f360dcd66f57
Ferreira, Rute M.M.
b47c24ad-ab9a-47f1-8639-eff1ca35858b
Ps, Hari
8c5cb628-1f0a-46fa-b08a-becd69d943cf
Riising, Eva M.
3710f904-ae90-43b4-a70d-e0bd12d2598c
Zen, Yoh
b59b5eb7-ab3c-452e-822d-8759e922f23b
Almagro, Jorge
9cba7dad-ab1f-423e-8ab6-d3ca4b3866f9
Ng, Kevin W.
23dbae0f-1f63-4958-b997-1f5fd137c3a0
Soro-Barrio, Pablo
a0cee898-c932-4dbd-b3f0-3402b2149525
Nelson, Jessica
7dc3f0c8-5a67-4467-a332-efd560a0630b
Koifman, Gabriela
2385a740-d61e-46ea-b4fa-e712b89eebab
Carvalho, Joana
2ae29864-0d45-4aea-a245-0c888c2c3059
Nye, Emma L.
39681625-011d-472c-9e6e-eb6e35aa2c21
He, Yulong
c7fdcf12-b926-40d4-8191-ab6ac291ad34
Zhang, Changhua
9dc00612-af90-43f1-9c50-cb8d0333b134
Sadanandam, Anguraj
6b7c8dcb-9f9a-4ebb-aa66-21f48c628b6f
Behrens, Axel
562a632f-5241-42aa-b554-d3c593f9b7ce

Lan, Linxiang, Evan, Theodore, Li, Huafu, Hussain, Aasia, Ruiz, E. Josue, Zaw Thin, May, Ferreira, Rute M.M., Ps, Hari, Riising, Eva M., Zen, Yoh, Almagro, Jorge, Ng, Kevin W., Soro-Barrio, Pablo, Nelson, Jessica, Koifman, Gabriela, Carvalho, Joana, Nye, Emma L., He, Yulong, Zhang, Changhua, Sadanandam, Anguraj and Behrens, Axel (2022) GREM1 is required to maintain cellular heterogeneity in pancreatic cancer. Nature, 607 (7917), 163-168. (doi:10.1038/s41586-022-04888-7).

Record type: Article

Abstract

Pancreatic ductal adenocarcinoma (PDAC) shows pronounced epithelial and mesenchymal cancer cell populations1-4. Cellular heterogeneity in PDAC is an important feature in disease subtype specification3-5, but how distinct PDAC subpopulations interact, and the molecular mechanisms that underlie PDAC cell fate decisions, are incompletely understood. Here we identify the BMP inhibitor GREM16,7 as a key regulator of cellular heterogeneity in pancreatic cancer in human and mouse. Grem1 inactivation in established PDAC in mice resulted in a direct conversion of epithelial into mesenchymal PDAC cells within days, suggesting that persistent GREM1 activity is required to maintain the epithelial PDAC subpopulations. By contrast, Grem1 overexpression caused an almost complete 'epithelialization' of highly mesenchymal PDAC, indicating that high GREM1 activity is sufficient to revert the mesenchymal fate of PDAC cells. Mechanistically, Grem1 was highly expressed in mesenchymal PDAC cells and inhibited the expression of the epithelial-mesenchymal transition transcription factors Snai1 (also known as Snail) and Snai2 (also known as Slug) in the epithelial cell compartment, therefore restricting epithelial-mesenchymal plasticity. Thus, constant suppression of BMP activity is essential to maintain epithelial PDAC cells, indicating that the maintenance of the cellular heterogeneity of pancreatic cancer requires continuous paracrine signalling elicited by a single soluble factor.

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More information

e-pub ahead of print date: 29 June 2022
Published date: July 2022
Keywords: Animals, Carcinoma, Pancreatic Ductal/pathology, Cell Line, Tumor, Epithelial Cells/pathology, Epithelial-Mesenchymal Transition/genetics, Humans, Intercellular Signaling Peptides and Proteins/deficiency, Mesoderm/pathology, Mice, Pancreatic Neoplasms/pathology, Snail Family Transcription Factors

Identifiers

Local EPrints ID: 505326
URI: http://eprints.soton.ac.uk/id/eprint/505326
DOI: doi:10.1038/s41586-022-04888-7
ISSN: 0028-0836
PURE UUID: 06257f1a-a63c-4b54-86cc-8036b46bb831
ORCID for Jessica Nelson: ORCID iD orcid.org/0000-0003-2866-5170

Catalogue record

Date deposited: 07 Oct 2025 16:34
Last modified: 08 Oct 2025 02:17

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Contributors

Author: Linxiang Lan
Author: Theodore Evan
Author: Huafu Li
Author: Aasia Hussain
Author: E. Josue Ruiz
Author: May Zaw Thin
Author: Rute M.M. Ferreira
Author: Hari Ps
Author: Eva M. Riising
Author: Yoh Zen
Author: Jorge Almagro
Author: Kevin W. Ng
Author: Pablo Soro-Barrio
Author: Jessica Nelson ORCID iD
Author: Gabriela Koifman
Author: Joana Carvalho
Author: Emma L. Nye
Author: Yulong He
Author: Changhua Zhang
Author: Anguraj Sadanandam
Author: Axel Behrens

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