Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells
The Gsα/cAMP signaling pathway mediates the effect of a variety of hormones and factors that regulate the homeostasis of the post-natal skeleton. Hence, the dysregulated activity of Gsα due to gain-of-function mutations (R201C/R201H) results in severe architectural and functional derangements of the...
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2023
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Science::Biological sciences Adiponectin Bone Marrow Cell |
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Science::Biological sciences Adiponectin Bone Marrow Cell Palmisano, Biagio Labella, Rossella Donsante, Samantha Remoli, Cristina Spica, Emanuela Coletta, Ilenia Farinacci, Giorgia Venti, Michele Dello Spedale Saggio, Isabella Serafini, Marta Robey, Pamela Gehron Corsi, Alessandro Riminucci, Mara Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
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The Gsα/cAMP signaling pathway mediates the effect of a variety of hormones and factors that regulate the homeostasis of the post-natal skeleton. Hence, the dysregulated activity of Gsα due to gain-of-function mutations (R201C/R201H) results in severe architectural and functional derangements of the entire bone/bone marrow organ. While the consequences of gain-of-function mutations of Gsα have been extensively investigated in osteoblasts and in bone marrow osteoprogenitor cells at various differentiation stages, their effect in adipogenically-committed bone marrow stromal cells has remained unaddressed. We generated a mouse model with expression of GsαR201C driven by the Adiponectin (Adq) promoter. Adq-GsαR201C mice developed a complex combination of metaphyseal, diaphyseal and cortical bone changes. In the metaphysis, GsαR201C caused an early phase of bone resorption followed by bone deposition. Metaphyseal bone formation was sustained by cells that were traced by Adq-Cre and eventually resulted in a high trabecular bone mass phenotype. In the diaphysis, GsαR201C, in combination with estrogen, triggered the osteogenic activity of Adq-Cre-targeted perivascular bone marrow stromal cells leading to intramedullary bone formation. Finally, consistent with the previously unnoticed presence of Adq-Cre-marked pericytes in intraosseous blood vessels, GsαR201C caused the development of a lytic phenotype that affected both cortical (increased porosity) and trabecular (tunneling resorption) bone. These results provide the first evidence that the Adq-cell network in the skeleton not only regulates bone resorption but also contributes to bone formation, and that the Gsα/cAMP pathway is a major modulator of both functions. |
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School of Biological Sciences Palmisano, Biagio Labella, Rossella Donsante, Samantha Remoli, Cristina Spica, Emanuela Coletta, Ilenia Farinacci, Giorgia Venti, Michele Dello Spedale Saggio, Isabella Serafini, Marta Robey, Pamela Gehron Corsi, Alessandro Riminucci, Mara |
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Article |
| author |
Palmisano, Biagio Labella, Rossella Donsante, Samantha Remoli, Cristina Spica, Emanuela Coletta, Ilenia Farinacci, Giorgia Venti, Michele Dello Spedale Saggio, Isabella Serafini, Marta Robey, Pamela Gehron Corsi, Alessandro Riminucci, Mara |
| author_sort |
Palmisano, Biagio |
| title |
Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
| title_short |
Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
| title_full |
Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
| title_fullStr |
Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
| title_full_unstemmed |
Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
| title_sort |
gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165114 |
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1761781277957029888 |
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sg-ntu-dr.10356-1651142023-03-13T15:32:00Z Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells Palmisano, Biagio Labella, Rossella Donsante, Samantha Remoli, Cristina Spica, Emanuela Coletta, Ilenia Farinacci, Giorgia Venti, Michele Dello Spedale Saggio, Isabella Serafini, Marta Robey, Pamela Gehron Corsi, Alessandro Riminucci, Mara School of Biological Sciences Institute of Structural Biology Science::Biological sciences Adiponectin Bone Marrow Cell The Gsα/cAMP signaling pathway mediates the effect of a variety of hormones and factors that regulate the homeostasis of the post-natal skeleton. Hence, the dysregulated activity of Gsα due to gain-of-function mutations (R201C/R201H) results in severe architectural and functional derangements of the entire bone/bone marrow organ. While the consequences of gain-of-function mutations of Gsα have been extensively investigated in osteoblasts and in bone marrow osteoprogenitor cells at various differentiation stages, their effect in adipogenically-committed bone marrow stromal cells has remained unaddressed. We generated a mouse model with expression of GsαR201C driven by the Adiponectin (Adq) promoter. Adq-GsαR201C mice developed a complex combination of metaphyseal, diaphyseal and cortical bone changes. In the metaphysis, GsαR201C caused an early phase of bone resorption followed by bone deposition. Metaphyseal bone formation was sustained by cells that were traced by Adq-Cre and eventually resulted in a high trabecular bone mass phenotype. In the diaphysis, GsαR201C, in combination with estrogen, triggered the osteogenic activity of Adq-Cre-targeted perivascular bone marrow stromal cells leading to intramedullary bone formation. Finally, consistent with the previously unnoticed presence of Adq-Cre-marked pericytes in intraosseous blood vessels, GsαR201C caused the development of a lytic phenotype that affected both cortical (increased porosity) and trabecular (tunneling resorption) bone. These results provide the first evidence that the Adq-cell network in the skeleton not only regulates bone resorption but also contributes to bone formation, and that the Gsα/cAMP pathway is a major modulator of both functions. Published version This study was supported by grants from Telethon GGP15198, University of Pennsylvania Orphan Disease Center in partnership with the Fibrous Dysplasia Foundation MDBR16-114-FD, MDBR17-114-FD, MDBR18-114-FD/MAS and Sapienza University RM11916B839074A8 to M.R.; Fibrous Dysplasia Foundation MDBR-22- 101-FDMAS to B.P. and M.R.; Sapienza University RM118164289636F0 to A.C.; ZIA DE000380 to PGR; AIRC IG-24614 to I.S. 2023-03-13T08:28:06Z 2023-03-13T08:28:06Z 2022 Journal Article Palmisano, B., Labella, R., Donsante, S., Remoli, C., Spica, E., Coletta, I., Farinacci, G., Venti, M. D. S., Saggio, I., Serafini, M., Robey, P. G., Corsi, A. & Riminucci, M. (2022). Gsαᴿ²⁰¹ᶜ and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells. Bone Research, 10(1), 50-. https://dx.doi.org/10.1038/s41413-022-00220-1 2095-4700 https://hdl.handle.net/10356/165114 10.1038/s41413-022-00220-1 35853852 2-s2.0-85135088053 1 10 50 en Bone Research © The Author(s) 2022. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons. org/licenses/by/4.0/. application/pdf |