Pharmacological tools to mobilise mesenchymal stromal cells into the blood promote bone formation after surgery

Tariq G. Fellous; Andia N. Redpath; Mackenzie M. Fleischer; Sapan Gandhi; Samantha E. Hartner; Michael D. Newton; Moïra François; Suet-ping Wong; Kate H. C. Gowers; Adam M. Fahs; Daniel R. Possley; Dominique Bonnet; Paula Urquhart; Anna Nicolaou; Kevin C. Baker; Sara M. Rankin

doi:10.1038/s41536-020-0088-1

Pharmacological tools to mobilise mesenchymal stromal cells into the blood promote bone formation after surgery

Tariq G. Fellous
, Andia N. Redpath
, Mackenzie M. Fleischer
, Sapan Gandhi
, Samantha E. Hartner
, Michael D. Newton
, Moïra François
, Suet-ping Wong
, Kate H. C. Gowers
, Adam M. Fahs
, Daniel R. Possley
, Dominique Bonnet
, Paula Urquhart
, Anna Nicolaou
, Kevin C. Baker
, Sara M. Rankin

Pharmacy

Research output: Contribution to journal › Article › peer-review

Abstract

Therapeutic approaches requiring the intravenous injection of autologous or allogeneic mesenchymal stromal cells (MSCs) are currently being evaluated for treatment of a range of diseases, including orthopaedic injuries. An alternative approach would be to mobilise endogenous MSCs into the blood, thereby reducing costs and obviating regulatory and technical hurdles associated with development of cell therapies. However, pharmacological tools for MSC mobilisation are currently lacking. Here we show that β3 adrenergic agonists (β3AR) in combination with a CXCR4 antagonist, AMD3100/Plerixafor, can mobilise MSCs into the blood in mice and rats. Mechanistically we show that reversal of the CXCL12 gradient across the bone marrow endothelium and local generation of endocannabinoids may both play a role in this process. Using a spine fusion model we provide evidence that this pharmacological strategy for MSC mobilisation enhances bone formation.

Original language	English
Journal	Regenerative Medicine
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/s41536-020-0088-1
Publication status	Published - 21 Feb 2020

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SDG 3 Good Health and Well-being

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http://www.nature.com/articles/s41536-020-0088-1

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Fellous, T. G., Redpath, A. N., Fleischer, M. M., Gandhi, S., Hartner, S. E., Newton, M. D., François, M., Wong, S., Gowers, K. H. C., Fahs, A. M., Possley, D. R., Bonnet, D., Urquhart, P., Nicolaou, A., Baker, K. C., & Rankin, S. M. (2020). Pharmacological tools to mobilise mesenchymal stromal cells into the blood promote bone formation after surgery. Regenerative Medicine, 5(1). https://doi.org/10.1038/s41536-020-0088-1

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title = "Pharmacological tools to mobilise mesenchymal stromal cells into the blood promote bone formation after surgery",

abstract = "Therapeutic approaches requiring the intravenous injection of autologous or allogeneic mesenchymal stromal cells (MSCs) are currently being evaluated for treatment of a range of diseases, including orthopaedic injuries. An alternative approach would be to mobilise endogenous MSCs into the blood, thereby reducing costs and obviating regulatory and technical hurdles associated with development of cell therapies. However, pharmacological tools for MSC mobilisation are currently lacking. Here we show that β3 adrenergic agonists (β3AR) in combination with a CXCR4 antagonist, AMD3100/Plerixafor, can mobilise MSCs into the blood in mice and rats. Mechanistically we show that reversal of the CXCL12 gradient across the bone marrow endothelium and local generation of endocannabinoids may both play a role in this process. Using a spine fusion model we provide evidence that this pharmacological strategy for MSC mobilisation enhances bone formation.",

author = "Fellous, \{Tariq G.\} and Redpath, \{Andia N.\} and Fleischer, \{Mackenzie M.\} and Sapan Gandhi and Hartner, \{Samantha E.\} and Newton, \{Michael D.\} and Mo{\"i}ra Fran{\c c}ois and Suet-ping Wong and Gowers, \{Kate H. C.\} and Fahs, \{Adam M.\} and Possley, \{Daniel R.\} and Dominique Bonnet and Paula Urquhart and Anna Nicolaou and Baker, \{Kevin C.\} and Rankin, \{Sara M.\}",

year = "2020",

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doi = "10.1038/s41536-020-0088-1",

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Fellous, TG, Redpath, AN, Fleischer, MM, Gandhi, S, Hartner, SE, Newton, MD, François, M, Wong, S, Gowers, KHC, Fahs, AM, Possley, DR, Bonnet, D, Urquhart, P, Nicolaou, A, Baker, KC & Rankin, SM 2020, 'Pharmacological tools to mobilise mesenchymal stromal cells into the blood promote bone formation after surgery', Regenerative Medicine, vol. 5, no. 1. https://doi.org/10.1038/s41536-020-0088-1

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AU - Fellous, Tariq G.

AU - Redpath, Andia N.

AU - Fleischer, Mackenzie M.

AU - Gandhi, Sapan

AU - Hartner, Samantha E.

AU - Newton, Michael D.

AU - François, Moïra

AU - Wong, Suet-ping

AU - Gowers, Kate H. C.

AU - Fahs, Adam M.

AU - Possley, Daniel R.

AU - Bonnet, Dominique

AU - Urquhart, Paula

AU - Nicolaou, Anna

AU - Baker, Kevin C.

AU - Rankin, Sara M.

PY - 2020/2/21

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N2 - Therapeutic approaches requiring the intravenous injection of autologous or allogeneic mesenchymal stromal cells (MSCs) are currently being evaluated for treatment of a range of diseases, including orthopaedic injuries. An alternative approach would be to mobilise endogenous MSCs into the blood, thereby reducing costs and obviating regulatory and technical hurdles associated with development of cell therapies. However, pharmacological tools for MSC mobilisation are currently lacking. Here we show that β3 adrenergic agonists (β3AR) in combination with a CXCR4 antagonist, AMD3100/Plerixafor, can mobilise MSCs into the blood in mice and rats. Mechanistically we show that reversal of the CXCL12 gradient across the bone marrow endothelium and local generation of endocannabinoids may both play a role in this process. Using a spine fusion model we provide evidence that this pharmacological strategy for MSC mobilisation enhances bone formation.

AB - Therapeutic approaches requiring the intravenous injection of autologous or allogeneic mesenchymal stromal cells (MSCs) are currently being evaluated for treatment of a range of diseases, including orthopaedic injuries. An alternative approach would be to mobilise endogenous MSCs into the blood, thereby reducing costs and obviating regulatory and technical hurdles associated with development of cell therapies. However, pharmacological tools for MSC mobilisation are currently lacking. Here we show that β3 adrenergic agonists (β3AR) in combination with a CXCR4 antagonist, AMD3100/Plerixafor, can mobilise MSCs into the blood in mice and rats. Mechanistically we show that reversal of the CXCL12 gradient across the bone marrow endothelium and local generation of endocannabinoids may both play a role in this process. Using a spine fusion model we provide evidence that this pharmacological strategy for MSC mobilisation enhances bone formation.

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VL - 5

JO - Regenerative Medicine

JF - Regenerative Medicine

IS - 1

ER -

Pharmacological tools to mobilise mesenchymal stromal cells into the blood promote bone formation after surgery

Abstract

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