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Regenerative Medicine and Skeleton - équipe REGOS

Separated by coma

Theme 1: Relationship between bone and digestive physiology

Keywords: Incretin, GIP, GLP-1, GLP-2, bone material properties

State of the art and objectives

Osteoporosis is a diffuse skeletal disease in which the quantity and/or quality (microstructure, matrix composition, etc.) of bone tissue is reduced, leading to skeletal weakness and an increased risk of fracture. Fragility fractures occur because of a low-energy trauma equivalent, at most, to a fall from one's own height while walking. In France, around 180,000 patients are hospitalized every year for a fragility fracture. More importantly, 23.5% of patients aged 55 or over die within a year of a fracture of the upper end of the femur. Bone physiology is controlled by a plethora of factors among which gut hormones have emerged in the last decade as an important contributor of bone quality and strength. Our objective is to better understand how gut hormones control bone remodeling, quality, and strength and to exploit this knowledge to develop new therapies against bone fragility.

Main results for the last five years

We recently discovered that several gut hormones, including glucose-dependent insulinotropic polypeptide (GIP), glucagon-like peptide-1 and -2 (GLP-1 and GLP-2) and xenin exerted interesting effects on bone physiology. We developed several long-lasting gut hormone analogues that either targeted whole-body receptors or bone-specific receptors. Despite interesting reduction of bone fragility none of these analogues presented an effect superior to actual approved drugs. We believe that a better understanding of the mode of action of these hormones may lead to a promising new drug and would open a new area to prevent and treat bone fragility.

People involved (Researcher/Post-doc/Doc/Students)

  • Guillaume Mabilleau (PhD, HDR)
  • Rita Aghbalou (Undergraduate) 
  • Béatrice Bouvard (MD, PhD, HDR)
  • Malory Couchot (PhD student)
  • Clémence Hirbec (Undergraduate)
  • Laurent Hubert (MD)
  • Marine Jaunet (Undergraduate)
  • Erick Legrand (MD, PhD, HDR)
  • Taha Mouhib (Master 2 student)
  • Hélène Racapé (MD)
  • Louis Rony (MD, PhD)

Main publications

  •  Gobron B., Couchot M., Irwin N., Legrand E., Bouvard B., Mabilleau G. Development of a first-in-class unimolecular dual GIP/GLP-2 analogue, GL-0001, for the treatment of bone fragility. 2023, J Bone Miner Res, doi: 10.1002/jbmr.4792
  • Mieczkowska A., Bouvard B., Legrand E. Mabilleau G. [Gly²]-GLP-2, but not glucagon or [D-Ala²]-GLP-1, controls collagen crosslinking in murine osteoblast cultures. 2021, Front Endocrinol, 12: 721506.
  • Gobron B, Bouvard B, Vyavahare S, et al. Enteroendocrine K Cells Exert Complementary Effects to Control Bone Quality and Mass in Mice. 2020, J Bone Miner Res, 35: 1363-74
  • Mansur SA, Mieczkowska A, Flatt PR, Chappard D, Irwin N, Mabilleau G. The GLP-1 Receptor Agonist Exenatide Ameliorates Bone Composition and Tissue Material Properties in High Fat Fed Diabetic Mice. 2019, Front Endocrinol, 10: 51.
  • Mabilleau G, Gobron B, Mieczkowska A, Perrot R, Chappard D. Efficacy of targeting bone-specific GIP receptor in ovariectomy-induced bone loss. 2018, J Endocrinol, 239: 215-27.

Financial support

                   

 

         

Group leader

Guillaume Mabilleau, MCU-PH

guillaume.mabilleau @ univ-angers.fr

+332 44 68 84 50

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