Bone Research (Jul 2022)

GsαR201C and estrogen reveal different subsets of bone marrow adiponectin expressing osteogenic cells

  • Biagio Palmisano,
  • Rossella Labella,
  • Samantha Donsante,
  • Cristina Remoli,
  • Emanuela Spica,
  • Ilenia Coletta,
  • Giorgia Farinacci,
  • Michele Dello Spedale Venti,
  • Isabella Saggio,
  • Marta Serafini,
  • Pamela Gehron Robey,
  • Alessandro Corsi,
  • Mara Riminucci

DOI
https://doi.org/10.1038/s41413-022-00220-1
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 15

Abstract

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Abstract 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 Gsα R201C driven by the Adiponectin (Adq) promoter. Adq-Gsα R201C mice developed a complex combination of metaphyseal, diaphyseal and cortical bone changes. In the metaphysis, Gsα R201C 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, Gsα R201C , 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, Gsα R201C 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.