Abstract
Introduction
Both the RANK/RANKL system and the endocannabinoid system have roles in bone remodelling. Activation of CB1 receptors on sympathetic nerve terminals in trabecular bone modulates bone remodelling by attenuating adrenergic inhibition over bone formation. CB2 receptors are involved in the local control of bone cell differentiation and function. Osteoblastic CB2 receptor activation negatively regulates RANKL mRNA expression indicating an interaction between the two systems and that efficient bone remodelling requires a balance between these two systems. The aim of the study was to establish the presence of the different components of the endocannabinoid system and the RANK/RANKL signalling pathway in human bone and osteoclast culture.
Methods
Levels of endocannabinoids (AEA, 2-AG) and their related compounds (OEA, PEA) in human trabecular bone, obtained from patients undergoing elective orthopaedic surgery, were measured using Liquid Chromatography Mass Spectrometry (LC-MS-MS). mRNA for the endocannabinoid synthetic and catabolic enzymes (NAPE-PLD, DAGLa, FAAH, MAGL), cannabinoid-activated receptors (CB1, CB2, PPARs, TRPV1), and RANK, RANKL and NFkB were determined using Taqman Real-Time PCR. Osteoclasts were differentiated from U-937 cells (Human leukaemic monocyte lymphoma cell line), following the sequential treatment using TPA (0.1μg/ml) followed by either TNF-a (3ng/ml) or calcitriol (10−8M), cultured for up to 30 days. Osteoclasts were identified by positive staining with tartrate resistant acid phosphatase (TRAP), multinucleation and the ability to form resorption pits on calcium phosphate coated discs. Taqman Real-Time PCR was performed to detect the expression of the osteoc!
last marker genes TRAP and cathepsin K, together with genes of the endocannabinoid and RANK/RANKL signalling pathways.
Results
AEA (5.1±0.7pmol/g), 2-AG (527.0±78.6 pmol/g), PEA (122.2±5.1pmol/g) and OEA (122.8±4.3pmol/g) were present in human trabecular bone. All components of the endocannabinoid system and RANK/RANKL pathways were present at the mRNA level in human trabecular bone. TRAP positive, multinucleated, calcium phosphate resorbing osteoclasts were observed from day 8 to day 23 of culture. mRNA expression of the osteoclast specific markers TRAP and cathepsin K and components of the endocannabinoid and the RANK/RANKL systems (with the exception of CB1) were up-regulated with osteoclast maturation with highest levels of expression on day 14.
Conclusion
The detection of both synthetic and catabolic enzymes of the endocannabinoids in human trabecular bone and osteoclast culture indicates local skeletal production and regulation of endocannabinoids. The co-expression of all components of the endocannabinoid and the RANK/RANKL systems in human trabecular bone and osteoclast culture suggest possible interactions between the 2 systems in maintaining balanced bone remodelling, which may impact upon bone resorption seen in many bone diseases.
