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244 results on '"Wright, Christopher V. E."'

2. Retraction Note: Transient cytokine treatment induces acinar cell reprogramming and regenerates functional beta cell mass in diabetic mice

Author

Baeyens, Luc, Lemper, Marie, Leuckx, Gunter, De Groef, Sofie, Bonfanti, Paola, Stangé, Geert, Shemer, Ruth, Nord, Christoffer, Scheel, David W., Pan, Fong C., Ahlgren, Ulf, Gu, Guoqiang, Stoffers, Doris A., Dor, Yuval, Ferrer, Jorge, Gradwohl, Gerard, Wright, Christopher V. E., Van de Casteele, Mark, German, Michael S., Bouwens, Luc, and Heimberg, Harry

Published
2020
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8. Transient cytokine treatment induces acinar cell reprogramming and regenerates functional beta cell mass in diabetic mice

Author

Baeyens, Luc, Lemper, Marie, Leuckx, Gunter, De Groef, Sofie, Bonfanti, Paola, Stangé, Geert, Shemer, Ruth, Nord, Christoffer, Scheel, David W, Pan, Fong C, Ahlgren, Ulf, Gu, Guoqiang, Stoffers, Doris A, Dor, Yuval, Ferrer, Jorge, Gradwohl, Gerard, Wright, Christopher V E, Van de Casteele, Mark, German, Michael S, Bouwens, Luc, and Heimberg, Harry

Published
2014
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10. Coregulator Sin3a promotes postnatal murine β-cell fitness by regulating genes in Ca2+ homeostasis, cell survival, vesicle biosynthesis, glucose metabolism, and stress response

Author

Admin, Ada, primary, Yang, Xiaodun, primary, Graff, Sarah M., primary, Heiser, Cody N., primary, Ho, Kung-Hsien, primary, Chen, Bob, primary, Simmons, Alan J., primary, Southard-Smith, Austin N., primary, David, Gregory, primary, Jacobson, David A., primary, Kaverina, Irina, primary, Wright, Christopher V. E., primary, Lau, Ken S., primary, and Gu, Guoqiang, primary

Published
2020
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11. Activin- and Nodal-related factors control antero-posterior patterning of the zebrafish embryo

Author

Thisse, Bernard, Wright, Christopher V. E., and Thisse, Christine

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Bernard Thisse (corresponding author) [1]; Christopher V. E. Wright [2]; Christine Thisse [1] Definition of cell fates along the dorso-ventral axis depends on an antagonistic relationship between ventralizing transforming [...]

Published
2000
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13. Myt Transcription Factors prevent stress-response gene over-activation to enable postnatal pancreatic β cell proliferation and function

Author

Hu, Ruiying, primary, Walker, Emily, additional, Xu, Yanwen, additional, Huang, Chen, additional, Weng, Chen, additional, Erickson, Gillian E., additional, Golovin, Anastasia, additional, Yang, Xiaodun, additional, Brissova, Marcella, additional, Balamurugan, Appakalai N., additional, Wright, Christopher V. E., additional, Li, Yan, additional, Stein, Roland, additional, and Gu, Guoqiang, additional

Published
2019
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22. Transcriptional Maintenance of Pancreatic Acinar Identity, Differentiation, and Homeostasis by PTF1A

Author

Hoang, Chinh Q., primary, Hale, Michael A., additional, Azevedo-Pouly, Ana C., additional, Elsässer, Hans P., additional, Deering, Tye G., additional, Willet, Spencer G., additional, Pan, Fong C., additional, Magnuson, Mark A., additional, Wright, Christopher V. E., additional, Swift, Galvin H., additional, and MacDonald, Raymond J., additional

Published
2016
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23. The Pdx1-Bound Swi/Snf Chromatin Remodeling Complex Regulates Pancreatic Progenitor Cell Proliferation and Mature Islet β-Cell Function.

Author

Spaeth, Jason M., Jin-Hua Liu, Peters, Daniel, Min Guo, Osipovich, Anna B., Mohammadi, Fardin, Roy, Nilotpal, Bhushan, Anil, Magnuson, Mark A., Hebrok, Matthias, Wright, Christopher V. E., Stein, Roland, Liu, Jin-Hua, and Guo, Min

Subjects
PROGENITOR cells, CELL proliferation, CHROMATIN, ISLANDS of Langerhans, TRANSCRIPTION factors, GASTRIC inhibitory polypeptide
Abstract

Transcription factors positively and/or negatively impact gene expression by recruiting coregulatory factors, which interact through protein-protein binding. Here we demonstrate that mouse pancreas size and islet β-cell function are controlled by the ATP-dependent Swi/Snf chromatin remodeling coregulatory complex that physically associates with Pdx1, a diabetes-linked transcription factor essential to pancreatic morphogenesis and adult islet cell function and maintenance. Early embryonic deletion of just the Swi/Snf Brg1 ATPase subunit reduced multipotent pancreatic progenitor cell proliferation and resulted in pancreas hypoplasia. In contrast, removal of both Swi/Snf ATPase subunits, Brg1 and Brm, was necessary to compromise adult islet β-cell activity, which included whole-animal glucose intolerance, hyperglycemia, and impaired insulin secretion. Notably, lineage-tracing analysis revealed Swi/Snf-deficient β-cells lost the ability to produce the mRNAs for Ins and other key metabolic genes without effecting the expression of many essential islet-enriched transcription factors. Swi/Snf was necessary for Pdx1 to bind to the Ins gene enhancer, demonstrating the importance of this association in mediating chromatin accessibility. These results illustrate how fundamental the Pdx1:Swi/Snf coregulator complex is in the pancreas, and we discuss how disrupting their association could influence type 1 and type 2 diabetes susceptibility. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Diabetes Caused by Elastase-Cre-Mediated Pdx1 Inactivation in Mice

Author

20452352, 60359792, Kodama, Sota, Nakano, Yasuhiro, Hirata, Koji, Furuyama, Kenichiro, Horiguchi, Masashi, Kuhara, Takeshi, Masui, Toshihiko, Kawaguchi, Michiya, Gannon, Maureen, Wright, Christopher V. E., Uemoto, Shinji, Kawaguchi, Yoshiya, 20452352, 60359792, Kodama, Sota, Nakano, Yasuhiro, Hirata, Koji, Furuyama, Kenichiro, Horiguchi, Masashi, Kuhara, Takeshi, Masui, Toshihiko, Kawaguchi, Michiya, Gannon, Maureen, Wright, Christopher V. E., Uemoto, Shinji, and Kawaguchi, Yoshiya

Published
2016

25. Diabetes Caused by Elastase-Cre-Mediated Pdx1 Inactivation in Mice

Author

Kodama, Sota, primary, Nakano, Yasuhiro, additional, Hirata, Koji, additional, Furuyama, Kenichiro, additional, Horiguchi, Masashi, additional, Kuhara, Takeshi, additional, Masui, Toshihiko, additional, Kawaguchi, Michiya, additional, Gannon, Maureen, additional, Wright, Christopher V. E., additional, Uemoto, Shinji, additional, and Kawaguchi, Yoshiya, additional

Published
2016
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29. The mammal-specific Pdx1 Area II enhancer has multiple essential functions in early endocrine cell specification and postnatal β-cell maturation.

Author

Yu-Ping Yang, Magnuson, Mark A., Stein, Roland, and Wright, Christopher V. E.

Subjects
CELL differentiation, MORPHOGENESIS, PROGENITOR cells
Abstract

The transcription factor Pdx1 is required for multiple aspects of pancreatic organogenesis. It remains unclear to what extent Pdx1 expression and function depend upon trans-activation through 5′ conserved cis-regulatory regions and, in particular, whether the mammal-specific Area II (−2139 to −1958 bp) affects minor or major aspects of organogenesis. We show that Area II is a primary effector of endocrine-selective transcription in epithelial multipotent cells, nascent endocrine progenitors, and differentiating and mature β cells in vivo. Pdx1ΔAREAII/− mice exhibit a massive reduction in endocrine progenitor cells and progeny hormone-producing cells, indicating that Area II activity is fundamental to mounting an effective endocrine lineage-specification program within the multipotent cell population. Creating an Area II-deleted state within already specified Neurog3-expressing endocrine progenitor cells increased the proportion of glucagon+ α relative to insulin+ β cells, associated with the transcriptional and epigenetic derepression of the α-cell-determining Arx gene in endocrine progenitors. There were also glucagon and insulin co-expressing cells, and β cells that were incapable of maturation. Creating the Pdx1ΔAREAII state after cells entered an insulin-expressing stage led to immature and dysfunctional islet β cells carrying abnormal chromatin marking in vital β-cell-associated genes. Therefore, trans-regulatory integration through Area II mediates a surprisingly extensive range of progenitor and β-cell-specific Pdx1 functions. [ABSTRACT FROM AUTHOR]

Published
2017
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32. Vascular endothelial growth factor coordinates islet innervation via vascular scaffolding

Author

Reinert, Rachel B., primary, Cai, Qing, additional, Hong, Ji-Young, additional, Plank, Jennifer L., additional, Aamodt, Kristie, additional, Prasad, Nripesh, additional, Aramandla, Radhika, additional, Dai, Chunhua, additional, Levy, Shawn E., additional, Pozzi, Ambra, additional, Labosky, Patricia A., additional, Wright, Christopher V. E., additional, Brissova, Marcela, additional, and Powers, Alvin C., additional

Published
2014
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33. Transient cytokine treatment induces acinar cell reprogramming and regenerates functional beta cell mass in diabetic mice

Author

Baeyens, Luc, primary, Lemper, Marie, additional, Leuckx, Gunter, additional, De Groef, Sofie, additional, Bonfanti, Paola, additional, Stangé, Geert, additional, Shemer, Ruth, additional, Nord, Christoffer, additional, Scheel, David W, additional, Pan, Fong C, additional, Ahlgren, Ulf, additional, Gu, Guoqiang, additional, Stoffers, Doris A, additional, Dor, Yuval, additional, Ferrer, Jorge, additional, Gradwohl, Gerard, additional, Wright, Christopher V E, additional, Van de Casteele, Mark, additional, German, Michael S, additional, Bouwens, Luc, additional, and Heimberg, Harry, additional

Published
2013
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34. Specification of hepatopancreas progenitors in zebrafish by hnf1ba and wnt2bb

Author

Lancman, Joseph J., primary, Zvenigorodsky, Natasha, additional, Gates, Keith P., additional, Zhang, Danhua, additional, Solomon, Keely, additional, Humphrey, Rohan K., additional, Kuo, Taiyi, additional, Setiawan, Linda, additional, Verkade, Heather, additional, Chi, Young-In, additional, Jhala, Ulupi S., additional, Wright, Christopher V. E., additional, Stainier, Didier Y. R., additional, and Dong, P. Duc Si, additional

Published
2013
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37. Ptf1a determines horizontal and amacrine cell fates during mouse retinal development.

Author

Fujitani, Yoshio, Fujitani, Shuko, Luo, Huijun, Qiu, Feng, Burlison, Jared, Long, Qiaoming, Kawaguchi, Yoshiya, Edlund, Helena, MacDonald, Raymond J, Furukawa, Takahisa, Fujikado, Takashi, Magnuson, Mark A, Xiang, Mengqing, Wright, Christopher V E, Fujitani, Yoshio, Fujitani, Shuko, Luo, Huijun, Qiu, Feng, Burlison, Jared, Long, Qiaoming, Kawaguchi, Yoshiya, Edlund, Helena, MacDonald, Raymond J, Furukawa, Takahisa, Fujikado, Takashi, Magnuson, Mark A, Xiang, Mengqing, and Wright, Christopher V E

Published
2006

38. Lowe, L.A. et al. Conserved left-right asymmetry of nodal expression and alterations in murine situs inversus. Nature 381, 158-161

Author

Lowe, Linda A., Supp, Dorothy M., Sampath, Karuna, Yokoyama, Takahiko, Wright, Christopher V. E., Potter, S. Steven, Steven Potter, S., Overbeek, Paul, and Kuehn, Michael R.

Abstract

Vertebrates have characteristic and conserved left-right (L-R) visceral asymmetries, for example the left-sided heart. In humans, alterations of L-R development can have serious clinical implications, including cardiac defects. Although little is known about how the embryonic L-R axis is established, a recent study in the chick embryo revealed L-R asymmetric expression of several previously cloned genes, including Cnr-1 (for chicken nodal-related-1), and indicated how this L-R molecular asymmetry might be important for subsequent visceral morphogenesis. Here we show that nodal is asymmetrically expressed in mice at similar stages, as is Xnr-1 (for Xenopus nodal related-1) in frogs. We also examine nodal expression in two mouse mutations that perturb L-R development, namely situs inversus viscerum (iv), in which assignment of L-R asymmetry is apparently random and individuals develop either normally or are mirror-image-reversed (situs inversus), and inversion of embryonic turning (inv), in which all individuals develop with situs inversus. In both, nodal expression is strikingly affected, being reversed or converted to symmetry. These results further support a key role for nodal and nodal-related genes in interpreting and relaying L-R patterning information in vertebrates. To our knowledge, our results provide the first direct evidence that iv and inv normally function well before the appearance of morphological L-R asymmetry.

Published
1996

41. Inactivating the permanent neonatal diabetes gene Mnx1 switches insulin-producing β-cells to a δ-like fate and reveals a facultative proliferative capacity in aged β-cells.

Author

Fong Cheng Pan, Brissova, Marcela, Powers, Alvin C., Pfaff, Samuel, and Wright, Christopher V. E.

Subjects
GENETIC mutation, NEONATAL diseases, DIABETES in children, CELL differentiation, GENE expression
Abstract

Homozygous Mnx1 mutation causes permanent neonatal diabetes in humans, but via unknown mechanisms. Our systematic and longitudinal analysis of Mnx1 function during murine pancreas organogenesis and into the adult uncovered novel stage-specific roles for Mnx1 in endocrine lineage allocation and β-cell fate maintenance. Inactivation in the endocrine-progenitor stage shows that Mnx1 promotes β-cell while suppressing δ-cell differentiation programs, and is crucial for postnatal β-cell fate maintenance. Inactivating Mnx1 in embryonic β-cells (Mnx1Δbeta) caused β-to-δ-like cell transdifferentiation, which was delayed until postnatal stages. In the latter context, β-cells escaping Mnx1 inactivation unexpectedly upregulated Mnx1 expression and underwent an age-independent persistent proliferation. Escaper β-cells restored, but then eventually surpassed, the normal pancreatic β-cell mass, leading to islet hyperplasia in aged mice. In vitro analysis of islets isolated from Mnx1Δbeta mice showed higher insulin secretory activity and greater insulin mRNA content than in wild-type islets. Mnx1Δbeta mice also showed a much faster return to euglycemia after β-cell ablation, suggesting that the new β-cells derived from the escaper population are functional. Our findings identify Mnx1 as an important factor in β-cell differentiation and proliferation, with the potential for targeting to increase the number of endogenous β-cells for diabetes therapy. [ABSTRACT FROM AUTHOR]

Published
2015
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42. Ptf1a determines horizontal and amacrine cell fates during mouse retinal development

Author

Fujitani, Yoshio, primary, Fujitani, Shuko, additional, Luo, Huijun, additional, Qiu, Feng, additional, Burlison, Jared, additional, Long, Qiaoming, additional, Kawaguchi, Yoshiya, additional, Edlund, Helena, additional, MacDonald, Raymond J., additional, Furukawa, Takahisa, additional, Fujikado, Takashi, additional, Magnuson, Mark A., additional, Xiang, Mengqing, additional, and Wright, Christopher V. E., additional

Published
2006
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50. Partial Duct Ligation: β-Cell Proliferation and Beyond.

Author

Van de Casteele, Mark, Leuckx, Gunter, Ying Cai, Yixing Yuchi, Coppens, Violette, De Groef, Sofie, Van Gassen, Naomi, Baeyens, Luc, Heremans, Yves, Wright, Christopher V. E., and Heimberg, Harry

Subjects
PANCREATIC beta cells, CELL proliferation, PANCREAS, TAMOXIFEN, CYTOLOGICAL research
Abstract

The article discusses research on the correlation between β-cell proliferation and partial duct ligation (PDL) pancreas. Topics discussed include the use of the cell ablation paradigm to study the replacement of the endogenous β-cell pool, the minority seeding of β-cells, and the tamoxifen (TAM)-induced labeling methods. Also mentioned are PSL as a pancreatic injury, β-cell formation in PDL pancreas, and β-cell neogenesis.

Published
2014
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