TY - JOUR
T1 - Cannabidiol, a major non-psychotropic cannabis constituent enhances fracture healing and stimulates lysyl hydroxylase activity in osteoblasts
AU - Kogan, Natalya M.
AU - Melamed, Eitan
AU - Wasserman, Elad
AU - Raphael, Bitya
AU - Breuer, Aviva
AU - Stok, Kathryn S.
AU - Sondergaard, Rachel
AU - Escudero, Ana V.Villarreal
AU - Baraghithy, Saja
AU - Attar-Namdar, Malka
AU - Friedlander-Barenboim, Silvina
AU - Mathavan, Neashan
AU - Isaksson, Hanna
AU - Mechoulam, Raphael
AU - Müller, Ralph
AU - Bajayo, Alon
AU - Gabet, Yankel
AU - Bab, Itai
N1 - Publisher Copyright:
© 2015 American Society for Bone and Mineral Research.
PY - 2015/10/1
Y1 - 2015/10/1
N2 - Cannabinoid ligands regulate bone mass, but skeletal effects of cannabis (marijuana and hashish) have not been reported. Bone fractures are highly prevalent, involving prolonged immobilization and discomfort. Here we report that the major non-psychoactive cannabis constituent, cannabidiol (CBD), enhances the biomechanical properties of healing rat mid-femoral fractures. The maximal load and work-to-failure, but not the stiffness, of femurs from rats given a mixture of CBD and Δ9-tetrahydrocannabinol (THC) for 8 weeks were markedly increased by CBD. This effect is not shared by THC (the psychoactive component of cannabis), but THC potentiates the CBD stimulated work-to-failure at 6 weeks postfracture followed by attenuation of the CBD effect at 8 weeks. Using micro-computed tomography (μCT), the fracture callus size was transiently reduced by either CBD or THC 4 weeks after fracture but reached control level after 6 and 8 weeks. The callus material density was unaffected by CBD and/or THC. By contrast, CBD stimulated mRNA expression of Plod1 in primary osteoblast cultures, encoding an enzyme that catalyzes lysine hydroxylation, which is in turn involved in collagen crosslinking and stabilization. Using Fourier transform infrared (FTIR) spectroscopy we confirmed the increase in collagen crosslink ratio by CBD, which is likely to contribute to the improved biomechanical properties of the fracture callus. Taken together, these data show that CBD leads to improvement in fracture healing and demonstrate the critical mechanical role of collagen crosslinking enzymes.
AB - Cannabinoid ligands regulate bone mass, but skeletal effects of cannabis (marijuana and hashish) have not been reported. Bone fractures are highly prevalent, involving prolonged immobilization and discomfort. Here we report that the major non-psychoactive cannabis constituent, cannabidiol (CBD), enhances the biomechanical properties of healing rat mid-femoral fractures. The maximal load and work-to-failure, but not the stiffness, of femurs from rats given a mixture of CBD and Δ9-tetrahydrocannabinol (THC) for 8 weeks were markedly increased by CBD. This effect is not shared by THC (the psychoactive component of cannabis), but THC potentiates the CBD stimulated work-to-failure at 6 weeks postfracture followed by attenuation of the CBD effect at 8 weeks. Using micro-computed tomography (μCT), the fracture callus size was transiently reduced by either CBD or THC 4 weeks after fracture but reached control level after 6 and 8 weeks. The callus material density was unaffected by CBD and/or THC. By contrast, CBD stimulated mRNA expression of Plod1 in primary osteoblast cultures, encoding an enzyme that catalyzes lysine hydroxylation, which is in turn involved in collagen crosslinking and stabilization. Using Fourier transform infrared (FTIR) spectroscopy we confirmed the increase in collagen crosslink ratio by CBD, which is likely to contribute to the improved biomechanical properties of the fracture callus. Taken together, these data show that CBD leads to improvement in fracture healing and demonstrate the critical mechanical role of collagen crosslinking enzymes.
KW - FTIR
KW - cannabidiol
KW - collagen crosslinking
KW - fracture healing
KW - lysyl hydroxylase
KW - μCT
UR - http://www.scopus.com/inward/record.url?scp=84942196009&partnerID=8YFLogxK
U2 - 10.1002/jbmr.2513
DO - 10.1002/jbmr.2513
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C2 - 25801536
AN - SCOPUS:84942196009
SN - 0884-0431
VL - 30
SP - 1905
EP - 1913
JO - Journal of Bone and Mineral Research
JF - Journal of Bone and Mineral Research
IS - 10
ER -