TY - JOUR
T1 - TBX3 is dynamically expressed in pancreatic organogenesis and fine-tunes regeneration
AU - Melzer, Michael Karl
AU - Schirge, Silvia
AU - Gout, Johann
AU - Arnold, Frank
AU - Srinivasan, Dharini
AU - Burtscher, Ingo
AU - Allgöwer, Chantal
AU - Mulaw, Medhanie
AU - Zengerling, Friedemann
AU - Günes, Cagatay
AU - Lickert, Heiko
AU - Christoffels, Vincent M.
AU - Liebau, Stefan
AU - Wagner, Martin
AU - Seufferlein, Thomas
AU - Bolenz, Christian
AU - Moon, Anne M.
AU - Perkhofer, Lukas
AU - Kleger, Alexander
N1 - Funding Information: We are deeply grateful to Warren E. Zimmer from Texas A&M University who gave his permission to use the Nkx3.2tm1(cre)Wezmouse strain for generating the mesenchymally depleted Tbx3 -deficient mice. We further thank Limor Landsman from Sackler Faculty of Medicine for sending the Nkx3.2tm1(cre)Wezmouse strain to our facility. We further profoundly acknowledge Kuhn Elektro-Technik GmbH for supporting our research to fight pancreatic cancer. The authors thank Katrin Köhn, Aref Saed, Ralf Köhntop, Ulrike Mayr-Beyrle, Rashmi Bijegatte, Franziska Ott, Claudia Längle, Meike Hohwieler, Markus Breunig, Elodie Roger, Eleni Zimmer, Vibha Kumaraswamy Bharadwaj, Karolin Walter, Patrick Hermann, André Lechel, and Lisa Appel for excellent technical support and for helpful discussions. We thank the Biomedical Sequencing Facility at CeMM – Research Center for Molecular Medicine of the Austrian Academy of Sciences for supporting our RNA-seq analysis. The CK-19 antibody (TROMA-III) was deposited to the DSHB by Kemler, R. (DSHB Hybridoma Product TROMA-III) and kindly provided by DSHB for our studies [92]. Illustrative figures were partially modified from Servier Medical Art, licensed under a Creative Common Attribution 3.0 Generic License https://smart.servier.com/ , or created in BioRender.com. Funding Information: Open Access funding enabled and organized by Projekt DEAL. The main funding was acquired by AK from the Deutsche Forschungsgemeinschaft (DFG) “Sachbeihilfe” KL2544/7-1 and “Heisenberg-Programm” KL2544/6-1. Further funding was acquired by AK from the German Cancer Aid (AK70114761) and by LP from the DFG (PE 3337/1-1). A.K. is speaker of an Else Kröner Research School for Physicians. M.K.M is a clinician scientist within the “Clinician-Scientist-Programm” of Ulm University and the Else Kröner Research School for Physicians. The work was further supported by funds from the Helmholtz Association (or in specific case of Helmholtz Munich) and the German Center for Diabetes Research (DZD). Publisher Copyright: © 2023, The Author(s).
PY - 2023/12/1
Y1 - 2023/12/1
N2 - Background: The reactivation of genetic programs from early development is a common mechanism for injury-induced organ regeneration. T-box 3 (TBX3) is a member of the T-box family of transcription factors previously shown to regulate pluripotency and subsequent lineage commitment in a number of tissues, including limb and lung. TBX3 is also involved in lung and heart organogenesis. Here, we provide a comprehensive and thorough characterization of TBX3 and its role during pancreatic organogenesis and regeneration. Results: We interrogated the level and cell specificity of TBX3 in the developing and adult pancreas at mRNA and protein levels at multiple developmental stages in mouse and human pancreas. We employed conditional mutagenesis to determine its role in murine pancreatic development and in regeneration after the induction of acute pancreatitis. We found that Tbx3 is dynamically expressed in the pancreatic mesenchyme and epithelium. While Tbx3 is expressed in the developing pancreas, its absence is likely compensated by other factors after ablation from either the mesenchymal or epithelial compartments. In an adult model of acute pancreatitis, we found that a lack of Tbx3 resulted in increased proliferation and fibrosis as well as an enhanced inflammatory gene programs, indicating that Tbx3 has a role in tissue homeostasis and regeneration. Conclusions: TBX3 demonstrates dynamic expression patterns in the pancreas. Although TBX3 is dispensable for proper pancreatic development, its absence leads to altered organ regeneration after induction of acute pancreatitis.
AB - Background: The reactivation of genetic programs from early development is a common mechanism for injury-induced organ regeneration. T-box 3 (TBX3) is a member of the T-box family of transcription factors previously shown to regulate pluripotency and subsequent lineage commitment in a number of tissues, including limb and lung. TBX3 is also involved in lung and heart organogenesis. Here, we provide a comprehensive and thorough characterization of TBX3 and its role during pancreatic organogenesis and regeneration. Results: We interrogated the level and cell specificity of TBX3 in the developing and adult pancreas at mRNA and protein levels at multiple developmental stages in mouse and human pancreas. We employed conditional mutagenesis to determine its role in murine pancreatic development and in regeneration after the induction of acute pancreatitis. We found that Tbx3 is dynamically expressed in the pancreatic mesenchyme and epithelium. While Tbx3 is expressed in the developing pancreas, its absence is likely compensated by other factors after ablation from either the mesenchymal or epithelial compartments. In an adult model of acute pancreatitis, we found that a lack of Tbx3 resulted in increased proliferation and fibrosis as well as an enhanced inflammatory gene programs, indicating that Tbx3 has a role in tissue homeostasis and regeneration. Conclusions: TBX3 demonstrates dynamic expression patterns in the pancreas. Although TBX3 is dispensable for proper pancreatic development, its absence leads to altered organ regeneration after induction of acute pancreatitis.
KW - Acute pancreatitis
KW - Embryonic development
KW - Organ regeneration
KW - Pancreatic development
KW - TBX3
UR - http://www.scopus.com/inward/record.url?scp=85150752228&partnerID=8YFLogxK
U2 - https://doi.org/10.1186/s12915-023-01553-x
DO - https://doi.org/10.1186/s12915-023-01553-x
M3 - Article
C2 - 36941669
SN - 1741-7007
VL - 21
JO - BMC Biology
JF - BMC Biology
IS - 1
M1 - 55
ER -