Journal ArticleDOI
The role of the transcriptional regulator Ptf1a in converting intestinal to pancreatic progenitors
Yoshiya Kawaguchi,Bonnie Cooper,Maureen Gannon,Michael Ray,Raymond J. MacDonald,Christopher V.E. Wright +5 more
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TLDR
Rec recombination-based lineage tracing in vivo is used to show that PTF1a is expressed at these early stages in the progenitors of pancreatic ducts, exocrine and endocrine cells, rather than being an exocrine-specific gene as previously described.Abstract:
Pancreas development begins with the formation of buds at specific sites in the embryonic foregut endoderm. We used recombination-based lineage tracing in vivo to show that Ptf1a (also known as PTF1-p48) is expressed at these early stages in the progenitors of pancreatic ducts, exocrine and endocrine cells, rather than being an exocrine-specific gene as previously described. Moreover, inactivation of Ptf1a switches the character of pancreatic progenitors such that their progeny proliferate in and adopt the normal fates of duodenal epithelium, including its stem-cell compartment. Consistent with the proposal that Ptf1a supports the specification of precursors of all three pancreatic cell types, transgene-based expression of Pdx1, a gene essential to pancreas formation, from Ptf1a cis-regulatory sequences restores pancreas tissue to Pdx1-null mice that otherwise lack mature exocrine and endocrine cells because of an early arrest in organogenesis. These experiments provide evidence that Ptf1a expression is specifically connected to the acquisition of pancreatic fate by undifferentiated foregut endoderm.read more
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Journal ArticleDOI
Generation of Insulin-Expressing Cells in Mouse Small Intestine by Pdx1, MafA, and BETA2/NeuroD.
TL;DR: Data indicated that PMB facilitate the differentiation of mouse intestinal cells into insulin-expressing cells, indicating that the small intestine is an accessible and abundant source of surrogate insulin-producing cells.
Journal ArticleDOI
Pathway decision-making strategies for generating pancreatic β-cells: Systems biology or hit and miss?
TL;DR: In this paper, a systematic approach to define morphogen codes in developing endoderm and pancreas appears timely and justified, however, insufficient information regarding morphogen code that operate in endodererm and pancreatic is hindering development of better, directed differentiation schema of uncommitted embryonic stem cells toward endodermal, pancreatic, and subsequent endocrine specific fates.
Journal ArticleDOI
SETD4-expressing cells contribute to pancreatic development and response to cerulein induced pancreatitis injury.
Jin-Ze Tian,Sheng Xing,J. Feng,Shu-Hua Yang,Yan-Fu Ding,Xue-Ting Huang,Jin-Shu Yang,Wei-Jun Yang +7 more
TL;DR: In this article, the authors identify that SET domain-containing protein 4 (SETD4), a histone lysine methyltransferase, is expressed in a small cell population in the adult mouse pancreas, and provide a new cellular narrative for pancreatic development, homeostasis and response to injury via a small SETD4+ cell population.
Journal ArticleDOI
Endocrine Pancreas Development and Dysfunction Through the Lens of Single-Cell RNA-Sequencing.
Wojciech J. Szlachcic,Natalia Ziojla,Dorota K. Kizewska,Marcelina Kempa,Malgorzata Borowiak,Malgorzata Borowiak +5 more
TL;DR: Recently, single-cell RNA sequencing (scRNA-Seq) technologies have brought a new dimension to pancreas development research as discussed by the authors, which can capture the transcriptomes of thousands of individual cells, including rare cell types, subtypes, and transient states.
Book ChapterDOI
Mouse Models of Pancreatic Cancer
Katherine T. Ostapoff,Michael T. Dellinger,Niranjan Awasthi,Rolf A. Brekken,Roderich E. Schwarz +4 more
TL;DR: In this article, the authors describe murine models of experimental PDAC that are currently used to investigate mechanisms of carcinogenesis and metastatic progression, individual risk factors, tumor biology aspects, mechanisms of in vivo chemoresistance, analysis of therapeutic targets and experimental therapies.
References
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Journal ArticleDOI
Insulin-promoter-factor 1 is required for pancreas development in mice
TL;DR: The findings show that IPF1 is needed for the formation of the pancreas and suggest that it acts to determine the fate of common pancreatic precursor cells and/ or to regulate their propagation.
Journal ArticleDOI
Differentiation of Embryonic Stem Cells to Insulin-Secreting Structures Similar to Pancreatic Islets
Nadya Lumelsky,Olivier Blondel,Olivier Blondel,Pascal Laeng,Iván Velasco,Rea Ravin,Ronald D.G. McKay +6 more
TL;DR: This work generated cells expressing insulin and other pancreatic endocrine hormones from mouse ES cells that self-assemble to form three-dimensional clusters similar in topology to normal pancreatic islets where pancreatic cell types are in close association with neurons.
Journal ArticleDOI
PDX-1 is required for pancreatic outgrowth and differentiation of the rostral duodenum
Martin F. Offield,T. L. Jetton,Patricia A. Labosky,Michael Ray,Roland Stein,Mark A. Magnuson,Brigid L.M. Hogan,Christopher V.E. Wright +7 more
TL;DR: The pdx-1/beta-galactosidase fusion allele is expressed in pancreatic and duodenal cells in the absence of functional PDX-1, with expression continuing into perinatal stages with similar boundaries and expression levels, and offers additional insight into the role of p dx-1 in the determination and differentiation of the posterior foregut.
Journal ArticleDOI
Direct evidence for the pancreatic lineage: NGN3+ cells are islet progenitors and are distinct from duct progenitors.
TL;DR: The results provide direct evidence that NGN3+ cells are islet progenitors during embryogenesis and in adult mice, and suggest that lineages for exocrine, endocrine islet and duct progenitor are committed at mid-gestation.