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6. Ubiquitous and uniform in vivo fluorescence in ROSA26-EGFP BAC transgenic mice.

Author

Giel-Moloney, Maryann, Krause, Daniela S, Chen, Gang, Van Etten, Richard A, and Leiter, Andrew B

Subjects
Animals, Chromosomes, Artificial, Bacterial: genetics, Fluorescence, Green Fluorescent Proteins: genetics, physiology, Mice, Mice, Transgenic, Proteins: genetics, RNA, Untranslated
Abstract

Transplantation studies and cell lineage analyses require the ability to explicitly distinguish morphologically identical cells that have an identifiable marker indicating their origin in vivo. Several reporter mouse strains have been generated for such studies, but pancellular detection of the marker in all tissues has not been achieved. In this report, we describe the generation of transgenic mice that express enhanced green fluorescent protein (EGFP) under control of a 187 kb bacterial artificial chromosome (BAC) containing the murine ROSA26 locus, and show several advantages over existing EGFP reporter lines. It is demonstrated that EGFP is ubiquitously and reproducibly expressed from the murine BAC transgene in all organs and tissues analyzed, including the hematolymphoid compartment. Using this new reporter strain in hematopoietic cell transplantation studies, it is demonstrated that leukocytes in recipients maintain uniform transgene expression and are easily distinguished by flow cytometric analysis of live cells. The results suggest that the ROSA26 BAC is an efficient strategy for expressing complex transgene cassettes in vivo.

Published
2007

15. Corrigendum to single cell transcriptomic profiling of large intestinal enteroendocrine cells in mice - Identification of selective stimuli for insulin-like peptide-5 and glucagon-like peptide-1 co-expressing cells (Molecular metabolism. 2019 Nov;29:158–169)

Author

Billing, Lawrence J., Larraufie, Pierre, Lewis, Jo, Leiter, Andrew, Li, Joyce, Lam, Brian, Yeo, Giles SH., Goldspink, Deborah A., Kay, Richard G., Gribble, Fiona M., and Reimann, Frank

Published
2022
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17. Corrigendum to single cell transcriptomic profiling of large intestinal enteroendocrine cells in mice - Identification of selective stimuli for insulin-like peptide-5 and glucagon-like peptide-1 co-expressing cells (Molecular metabolism. 2019 Nov;29:158–169)

Author

Billing, Lawrence J., primary, Larraufie, Pierre, additional, Lewis, Jo, additional, Leiter, Andrew, additional, Li, Joyce, additional, Lam, Brian, additional, Yeo, Giles SH., additional, Goldspink, Deborah A., additional, Kay, Richard G., additional, Gribble, Fiona M., additional, and Reimann, Frank, additional

Published
2021
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21. The retinoblastoma protein, RB, is required for gastrointestinal endocrine cells to exit the cell cycle, but not for hormone expression

Author

Wang, Yang, Ray, Subir K., Hinds, Philip W., and Leiter, Andrew B.

Subjects
Proteins, Retinoblastoma, Hormones, Cell cycle, Biological sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ydbio.2007.08.052 Byline: Yang Wang (a), Subir K. Ray (a), Philip W. Hinds (b), Andrew B. Leiter (a) Keywords: Retinoblastoma protein; Enteroendocrine cell; NeuroD; Neurogenin 3 Abstract: Important functions of the RB family proteins include inhibition of cell cycle progression and regulation of terminal differentiation. We have examined the role of RB and the related protein, p107, in regulating cell cycle activity and differentiation of gastrointestinal endocrine cells, a relatively quiescent cell population, by conditionally disrupting the RB gene in neurogenin3 (Ngn3)-expressing cells in both p107.sup.+/+ and p107.sup.-/- mice. Endocrine cells in the small intestine, colon, pancreas, and stomach were present in normal numbers in RB and RB-p107 mutants except for an increase in serotonin cells and decrease in ghrelin cells in the antral stomach. Deletion of RB resulted in a dramatic increase in proliferating serotonin cells in the antral stomach and intestine, whereas other enteroendocrine cell types exhibited much lower cell cycle activity or remained quiescent. The related p107 protein appears dispensable for enteroendocrine differentiation and does not functionally compensate for the loss of RB. Our results suggest that RB is required for enteroendocrine cells, particularly serotonin cells, to undergo cell cycle arrest as they terminally differentiate. RB has relatively subtle effects on enteroendocrine cell differentiation and is not required for the expression of the normal repertoire of hormones in the gastrointestinal tract. Author Affiliation: (a) Division of Gastroenterology, GRASP Digestive Disease Center, Tufts-New England Medical Center, Boston, MA 02111, USA (b) Molecular Oncology Research Institute, Tufts-New England Medical Center, Boston, MA 02111, USA Article History: Received 26 February 2007; Revised 26 July 2007; Accepted 28 August 2007

Published
2007

22. Enteroendocrine precursors differentiate independently of Wnt and form serotonin expressing adenomas in response to active [beta]-catenin

Author

Wang, Yang, Giel-Moloney, Maryann, Rindi, Guido, and Leiter, Andrew B.

Subjects
Neurogenetics -- Research, Stem cell research, Science and technology
Abstract

Wnt signaling is required for the maintenance of intestinal stem cells and self-renewal of the intestinal epithelium. Intestinal cancers are frequently associated with mutations that activate the Wnt pathway. The role of Wnt signaling on differentiation of lineage-specific precursors in the intestine is not well characterized. Here, we show that specification of enteroendocrine but not Paneth cells occurs independently of Wnt signals by conditional deletion of [beta]-catenin in immature cells expressing the transcription factor, neurogenin 3. In addition, we determined whether neurogenin 3-expressing cells respond to abnormal Wnt signaling. Activation of the Wnt pathway by conditionally deleting exon 3 of the [beta]-catenin gene at an early stage of enteroendocrine cell differentiation induced small-intestinal adenomas expressing serotonin, a feature not previously described in other tumors induced by Wnt in mice. In contrast, excision of exon 3 of [beta]-catenin at a later stage of enteroendocrine differentiation did not produce tumors. These results provide direct evidence that some intestinal lineages are specified independently of the Wnt pathway and may lead to a better understanding of the spectrum of neuroendocrine differentiation frequently seen in human gastrointestinal cancer. carcinoid | enteroendocrine cell | neurogenin 3 Paneth cell | Wnt pathway

Published
2007

23. Neurogenin 3-expressing progenitor cells in the gastrointestinal tract differentiate into both endocrine and non-endocrine cell types

Author

Schonhoff, Susan E., Giel-Moloney, Maryann, and Leiter, Andrew B.

Subjects
Developmental biology -- Research, Biological sciences
Abstract

Mice deficient for the transcription factor neurogenin 3 (ngn3) fail to develop endocrine cells in the intestine and pancreas and show partial endocrine differentiation in the stomach. We expressed Cre recombinase under control of a ngn3 BAC to achieve high fidelity cell lineage tracing in vivo to determine whether endocrine cells in these organs differentiate from NGN3+ precursor cells. Our results indicate that all small intestinal entercendocrine cells arise from ngn3-expressing cells and confirm that NGN3+ cells give rise to all pancreatic endocrine cells as noted previously. By examining mice at a developmental stage when all of the cell types in the stomach have differentiated, we have delineated region-associated differences in endocrine differentiation. A much smaller fraction of endocrine cells populating the acid-producing region of the stomach is derived from NGN3+ precursor in contrast to the antral-pyloric region. Unexpectedly, ngn3 is expressed in cells that adopt non-endocrine cell fates including significant fractions of goblet and Paneth cells in the intestine and a small number of duct and acinar cells in the pancreas. Rarely, ngn3 was expressed in pluripotent cells in intestinal crypts with resultant labeling of an entire crypt villus unit. Thus, ngn3 expression occurs in mixed populations of immature cells that are not irreversibly committed to endocrine differentiation. Keywords: Neurogenin 3; Enteroendocrine; Goblet; Paneth; Gastrointestinal tract; Cell fate

Published
2004

25. Lats1/2 Sustain Intestinal Stem Cells and Wnt Activation through TEAD-Dependent and Independent Transcription

Author

Li, Qi, primary, Sun, Yang, additional, Jarugumilli, Gopala K., additional, Liu, Shun, additional, Dang, Kyvan, additional, Cotton, Jennifer L., additional, Xiol, Jordi, additional, Chan, Pui Yee, additional, DeRan, Michael, additional, Ma, Lifang, additional, Li, Rui, additional, Zhu, Lihua J., additional, Li, Joyce H., additional, Leiter, Andrew B., additional, Ip, Y. Tony, additional, Camargo, Fernando D., additional, Luo, Xuelian, additional, Johnson, Randy L., additional, Wu, Xu, additional, and Mao, Junhao, additional

Published
2020
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28. The basic helix-loop-helix protein BETA2 interacts with p300 to coordinate differentiation of secretin-expressing enteroendocrine cells

Author

Mutoh, Hiroyujki, Naya, Francisco J., Tsai, Ming-Jer, and Leiter, Andrew B.

Subjects
Cell differentiation -- Genetic aspects, Genetic transcription -- Regulation, Genetic regulation -- Research, Intestinal mucosa -- Genetic aspects, Endocrinology, Experimental -- Genetic aspects, Molecular genetics -- Research, Biological sciences
Abstract

The basic helix-loop-helix protein BETA2 associates in a functional way with p300, coactivator, in order to activate transcription of the secretin gene and the gene encoding the cyclin-dependent kinase inhibitor p21. Cell cycle arrest and apoptosis are brought on by overexpression of BETA2 in cell lines. Normally quiescent cells go back into the cell cycle in the small intestine of mice without BETA2. It may coordinate transcriptional activation of cell number regulation, secretin genes, and cell cycle conclusion. This is perhaps one of the first examples of a transcription factor that controls ultimate differentiation of cells in intestinal epithelium.

Published
1998

36. Comparison of Human and Murine Enteroendocrine Cells by Transcriptomic and Peptidomic Profiling

Author

Roberts, Geoffrey P., primary, Larraufie, Pierre, additional, Richards, Paul, additional, Kay, Richard G., additional, Galvin, Sam G., additional, Miedzybrodzka, Emily L., additional, Leiter, Andrew, additional, Li, H. Joyce, additional, Glass, Leslie L., additional, Ma, Marcella K.L., additional, Lam, Brian, additional, Yeo, Giles S.H., additional, Scharfmann, Raphaël, additional, Chiarugi, Davide, additional, Hardwick, Richard H., additional, Reimann, Frank, additional, and Gribble, Fiona M., additional

Published
2019
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37. Important Role of the GLP-1 Axis for Glucose Homeostasis after Bariatric Surgery

Author

Larraufie, Pierre, primary, Roberts, Geoffrey P., additional, McGavigan, Anne K., additional, Kay, Richard G., additional, Li, Joyce, additional, Leiter, Andrew, additional, Melvin, Audrey, additional, Biggs, Emma K., additional, Ravn, Peter, additional, Davy, Kathleen, additional, Hornigold, David C., additional, Yeo, Giles S.H., additional, Hardwick, Richard H., additional, Reimann, Frank, additional, and Gribble, Fiona M., additional

Published
2019
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39. Oligomeric form of CtBP coactivates NeuroD1-mediated transcription

Author

Ray, Subir K., Li, H. Joyce, and Leiter, Andrew B.

Subjects
Transcription, Genetic, Nerve Tissue Proteins, Article, Cell Line, DNA-Binding Proteins, Alcohol Oxidoreductases, Gene Expression Regulation, Mutation, Basic Helix-Loop-Helix Transcription Factors, Humans, Mutant Proteins, Protein Multimerization, Promoter Regions, Genetic, Transcription Factors
Abstract

The mechanism underlying transcriptional coactivation by the corepressor C-terminal-binding protein (CtBP) is not established. We previously found that CtBP co-occupies several actively transcribed endocrine genes with the transcription factor NeuroD1 to paradoxically increase transcription by recruiting KDM1A and CoREST. While the importance of the oligomeric form of CtBP for corepression is well established, the role of oligomerization in transcriptional coactivation has received little attention. Here, we examined the importance of the oligomeric state of CtBP for coactivation of NeuroD1-dependent transcription by expressing a CtBP dimerization mutant in cells depleted of endogenous CtBP. Dimerization mutants failed to increase transcription or to associate with KDM1A and CoREST, suggesting that oligomeric, but not monomeric CtBP is required to recruit other proteins needed to activate transcription.

Published
2016

40. Mature enteroendocrine cells contribute to basal and pathological stem cell dynamics in the small intestine

Author

Sei, Yoshitatsu, primary, Feng, Jianying, additional, Samsel, Leigh, additional, White, Ayla, additional, Zhao, Xilin, additional, Yun, Sajung, additional, Citrin, Deborah, additional, McCoy, J. Philip, additional, Sundaresan, Sinju, additional, Hayes, Michael M., additional, Merchant, Juanita L., additional, Leiter, Andrew, additional, and Wank, Stephen A., additional

Published
2018
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42. Comparison of human and murine enteroendocrine cells by transcriptomic and peptidomic profiling

Author

Roberts, Geoffrey P, primary, Larraufie, Pierre, additional, Richards, Paul, additional, Kay, Richard G, additional, Galvin, Sam G, additional, Miedzybrodzka, Emily L, additional, Leiter, Andrew, additional, Joyce Li, H., additional, Glass, Leslie L, additional, Ma, Marcella KL, additional, Lam, Brian, additional, Yeo, Giles SH, additional, Scharfmann, Raphaël, additional, Chiarugi, Davide, additional, Hardwick, Richard H, additional, Reimann, Frank, additional, and Gribble, Fiona M, additional

Published
2018
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46. Important Role of the GLP-1 Axis for Glucose Homeostasis after Bariatric Surgery

Author

Larraufie, Pierre, primary, Roberts, Geoffrey P., additional, McGavigan, Anne, additional, Kay, Richard G., additional, Li, Joyce, additional, Leiter, Andrew, additional, Melvin, Audrey, additional, Biggs, Emma K., additional, Ravn, Peter, additional, Davy, Kathleen, additional, Hornigold, David, additional, Yeo, Giles, additional, Hardwick, Richard H., additional, Reimann, Frank, additional, and Gribble, Fiona, additional

Published
2018
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