Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells
In response to physiological demand, the pituitary gland generates new hormone-secreting cells from committed progenitor cells throughout life. It remains unclear to what extent pituitary stem cells (PSCs), which uniquely express SOX2, contribute to pituitary growth and renewal. Moreover, neither th...
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sg-ntu-dr.10356-1468692023-03-05T16:45:22Z Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells Russell, John P. Lim, Xinhong Santambrogio, Alice Yianni, Val Kemkem, Yasmine Wang, Bruce Fish, Matthew Haston, Scott Grabek, Anaëlle Hallang, Shirleen Lodge, Emily J. Patist, Amanda L. Schedl, Andreas Mollard, Patrice Nusse, Roel Andoniadou, Cynthia L. Lee Kong Chian School of Medicine (LKCMedicine) Skin Research Institute of Singapore, A*STAR Science::Medicine Stem Cells SOX2 In response to physiological demand, the pituitary gland generates new hormone-secreting cells from committed progenitor cells throughout life. It remains unclear to what extent pituitary stem cells (PSCs), which uniquely express SOX2, contribute to pituitary growth and renewal. Moreover, neither the signals that drive proliferation nor their sources have been elucidated. We have used genetic approaches in the mouse, showing that the WNT pathway is essential for proliferation of all lineages in the gland. We reveal that SOX2+ stem cells are a key source of WNT ligands. By blocking secretion of WNTs from SOX2+ PSCs in vivo, we demonstrate that proliferation of neighbouring committed progenitor cells declines, demonstrating that progenitor multiplication depends on the paracrine WNT secretion from SOX2+ PSCs. Our results indicate that stem cells can hold additional roles in tissue expansion and homeostasis, acting as paracrine signalling centres to coordinate the proliferation of neighbouring cells. Published version 2021-03-12T04:33:04Z 2021-03-12T04:33:04Z 2021 Journal Article Russell, J. P., Lim, X., Santambrogio, A., Yianni, V., Kemkem, Y., Wang, B., Fish, M., Haston, S., Grabek, A., Hallang, S., Lodge, E. J., Patist, A. L., Schedl, A., Mollard, P., Nusse, R. & Andoniadou, C. L. (2021). Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells. ELife, 10. https://dx.doi.org/10.7554/eLife.59142 2050-084X https://hdl.handle.net/10356/146869 10.7554/eLife.59142 33399538 10 en eLife © 2021 The Authors(s). This article is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use and redistribution provided that the original author and source are credited. application/pdf |
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Science::Medicine Stem Cells SOX2 |
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Science::Medicine Stem Cells SOX2 Russell, John P. Lim, Xinhong Santambrogio, Alice Yianni, Val Kemkem, Yasmine Wang, Bruce Fish, Matthew Haston, Scott Grabek, Anaëlle Hallang, Shirleen Lodge, Emily J. Patist, Amanda L. Schedl, Andreas Mollard, Patrice Nusse, Roel Andoniadou, Cynthia L. Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells |
| description |
In response to physiological demand, the pituitary gland generates new hormone-secreting cells from committed progenitor cells throughout life. It remains unclear to what extent pituitary stem cells (PSCs), which uniquely express SOX2, contribute to pituitary growth and renewal. Moreover, neither the signals that drive proliferation nor their sources have been elucidated. We have used genetic approaches in the mouse, showing that the WNT pathway is essential for proliferation of all lineages in the gland. We reveal that SOX2+ stem cells are a key source of WNT ligands. By blocking secretion of WNTs from SOX2+ PSCs in vivo, we demonstrate that proliferation of neighbouring committed progenitor cells declines, demonstrating that progenitor multiplication depends on the paracrine WNT secretion from SOX2+ PSCs. Our results indicate that stem cells can hold additional roles in tissue expansion and homeostasis, acting as paracrine signalling centres to coordinate the proliferation of neighbouring cells. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Russell, John P. Lim, Xinhong Santambrogio, Alice Yianni, Val Kemkem, Yasmine Wang, Bruce Fish, Matthew Haston, Scott Grabek, Anaëlle Hallang, Shirleen Lodge, Emily J. Patist, Amanda L. Schedl, Andreas Mollard, Patrice Nusse, Roel Andoniadou, Cynthia L. |
| format |
Article |
| author |
Russell, John P. Lim, Xinhong Santambrogio, Alice Yianni, Val Kemkem, Yasmine Wang, Bruce Fish, Matthew Haston, Scott Grabek, Anaëlle Hallang, Shirleen Lodge, Emily J. Patist, Amanda L. Schedl, Andreas Mollard, Patrice Nusse, Roel Andoniadou, Cynthia L. |
| author_sort |
Russell, John P. |
| title |
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells |
| title_short |
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells |
| title_full |
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells |
| title_fullStr |
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells |
| title_full_unstemmed |
Pituitary stem cells produce paracrine WNT signals to control the expansion of their descendant progenitor cells |
| title_sort |
pituitary stem cells produce paracrine wnt signals to control the expansion of their descendant progenitor cells |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146869 |
| _version_ |
1759855100332867584 |