Osteoarthritis (OA) is a disabling disease depriving the quality of life of patients. Mesenchymal stem cells (MSCs) are recently used to modify the inflammatory and degenerative cascade of the disease. Source of MSCs could change the progression and symptoms of OA due to their different metabolomic activities. We asked whether MSCs derived from the infrapatellar fat (IPF), synovium (Sy) and subcutaneous (SC) tissues will decrease inflammatory and degenerative markers of normal and OA chondrocytes and improve regeneration in culture. Tissues were obtained from three male patients undergoing arthroscopic knee surgery due to sports injuries after ethical board approval. TNFa concentration decreased in all MSC groups (Sy=156,6±79, SC=42,1±6 and IPF=35,5±3 pg/ml; p=0,036) on day 14 in culture. On day seven (Sy=87,4±43,7, SC=23±8,9 and IPF=14,7±3,3 pg/ml, p=0,043) and 14 (Sy=29,1±11,2, SC=28,3±18,5 and IPF=20,3±16,2 pg/ml, p=0,043), MMP3 concentration decreased in all groups. COMP concentration changes however were not significant. Plot scores of tissues for PC2-13,4% were significantly different. Based on the results of liquid chromatography-mass spectrometry (LC-MS) metabolomics coupled with recent data processing strategies, clinically relevant seven metabolites (L-fructose, a-tocotrienol, coproporphyrin, nicotinamide, bilirubin, tauro-deoxycholic acid and galactose-sphingosine) were found statistically different (p<0.05 and fold change>1.5) ratios in tissue samples. Focusing on these metabolites as potential therapeutics could enhance MSC therapies.
Platelet Rich Plasma (PRP), either rich (L-PRP) or poor (P-PRP) of leukocytes, is frequently used as an anti-inflammatory and regenerative tool in osteoarthritis (OA). PRP contains proteins but not genes as it is derived from megakaryocytes. Proteomics but not metabolomics of PRP was recently studied. Metabolomics is a field of ‘omics’ research involved in comprehensive portrayal of the small molecules, metabolites, in the metabolome. These small molecules can be endogenous metabolites or exogenous compounds found in an organism (1). Our aim was to determine the difference between L-PRP and P-PRP. A cross-sectional clinical study was designed in six recreational male athletes between the ages of 18 and 35 years. 3 mL P-PRP and 3 mL -LPRP was prepared from 60 mL of venous blood after treating with 9 mL of sodium citrate and centrifugation at 2.700 rpm for 10 min. Half of the prepared PRP's were frozen at −20°C for a week. Fresh and frozen samples were analyzed at the Q-TOF LC/MS device after thawing to room temperature. Untargeted metabolomic results revealed that the metabolomic profile of the L-PRP and P-PRP were significantly different from each other. A total of 33.438 peaks were found. Statistically significant (p<0.05) peaks were uploaded to the MetaboAnalyst 5.0 platform. Exogenous out of 2.308 metabolites were eliminated and metabolites found significant for our study were subjected to pathway analysis. Steroid biosynthesis, sphingolipid metabolism and metabolism of lipid pathways were affected. In the L-PRP samples, Nicotinamide riboside (FC: 2.2), MHPG (FC: 3.0), estrone sulfate (FC: 7.5), thiamine diphosphate (FC: 2.0), leukotriene E4 (FC: 7.5), PC(18:1 (9Z)e/2:0) (FC: 9.8) and Ap4A (FC: 2.1) were higher compared to P-PRP. C24 sulfatide (FC: −11.8), 3-hexaprenyl-4,5-dihydroxybenzoic acid (FC: −2.8) metabolites were furthermore lower in P-PRP. Clinical outcomes of PRP application should consider these metabolic pathways in future studies (2).
Osteosarcoma is common in children and adolescents with high mortality due to rapid progression. Therapeutic approaches for osteosarcoma are limited and may cause side effects. Cannabinoid ligands exert antiproliferative, apoptotic effect in cancer cells via CB1/2 or TRPV1 receptors. In this study, we hypothesized that synthetic specific CB2R agonist CB65 might have an antiproliferative and apoptotic effect on osteosarcoma cell lines in vitro. If so, this agent might be a chemotherapeutic candidate for osteosarcoma, with prolonged release, increased stability and bioavailability when loaded into a liposomal system. We first determined CB2 receptor expression in MG63 and Saos-2 osteosarcoma cells by qRT- PCR and FCM. CB65 reduced proliferation in osteosarcoma cells by WST-1 and RTCA. IC50 for MG63 and Saos-2 cells were calculated as 1.11×10-11 and 4.95×10-11 M, respectively. The antiproliferative effect of CB65 on osteosarcoma cells was inhibited by CB2 antagonist AM630. IC50 of CB65 induced late apoptosis of MG63 and Saos-2 cells at 24 and 48 hours, respectively by FCM. CB65 was loaded into the liposomal system by thin film hydration method and particle size, polydispersity index, and zeta potentials were 141.7±0.6 nm, 0.451±0.026, and -10.9±0.3 mV, respectively. The CB65-loaded liposomal formulation reduced MG63 and Saos-2 cell proliferation by RTCA. IC50 of CB65 and CB65-loaded liposomal formulation induced late apoptosis of MG63 and Saos-2 cells at 24 and 48 hours, respectively, by FCM. Scratch width was higher in CB65 and CB65-loaded liposome-treated cells compared to control. In this study, the real-time antiproliferative and apoptotic effect of synthetic specific CB2 agonist CB65 in osteosarcoma cell lines was demonstrated for the first time, and the real time therapeutic window was determined. The CB65-loaded liposomal formulation presents a potential treatment option that can be translated to clinic following its validation within animal models and production under GMP conditions.
Mesenchymal stem cell (MSC) exosomes are intracellular vesicles, which can regulate transcription and control gene expression through the molecules they carry, easily enter into the target cell, contain no regenerative effect, and do not produce an immune response. There are different methods in the literature to obtain these vesicles. However, studies on the isolation of MSC-derived exosomes and their comparative characterization using magnetically active cell sorting (MACS) and ultracentrifugation methods are lacking. The most appropriate isolation method for MSC-derived exosomes can be determined by comparing the isolation and characterization parameters of mesenchymal stem cells using magnetically active cell sorting and ultracentrifugation methods. The aim of this study was to define the advantages and disadvantages of the methods used for determining the purpose-oriented method. Human bone marrow-derived mesenchymal stem cells were cultured in standard MSC culture conditions (37ºC and 5% CO 2). Exosomal contamination was prevented by removal of exosomes from the serum that used in the standard growth medium. For exosome isolation of the cells reaching sufficient density, the media were replaced with new ones every two days, the old media were collected in liquid refrigerated with liquid nitrogen and stored at −80ºC. Part of the accumulated exosomes were isolated by using the MACS method, while the other was isolated by using the ultracentrifugation method, which included serial centrifugation steps. The amount of protein contained in the phosphate buffer solution in which the exosomes were reconstituted was determined by microplate reader using the BCA kit. Based on the protein concentration obtained, exosomes were read by means of a dye flow cytometer with fluorescent antibodies attached to surface markers specific to CD9, CD63, and CD81 specific for exosomes by latex beads. Finally, the exosomes were stained with uranyl acetate and phosphotungstic acid and then placed on 200 mesh and formvar-carbon film coated grids. Exosomes were isolated using both ultracentrifugation and MACS methods. While ultra-large amounts of exosomes can be isolated by ultracentrifugation method, MACS method provides a lower amount of isolation. Exosomes with magnetically active cell sorting are selected with specific surface markers, therefore, exosomal purity is thought to be higher. Exosomes which were isolated by both ultracentrifugation and MACS methods were monitored by using transmission electron microscopy and they were not found to be morphologically different. In conclusion, MACS and ultracentrifugation are effective methods for the isolation of human bone marrow-derived MSC exosomes. Both methods have advantages and disadvantages. Exosomes can be isolated together with magnetic beads using the MACS method. In the ultracentrifuge method, cleaner exosomes can be isolated. While the exosomes are isolated by MACS, they can also be characterized by beads.
Adrenomedullin is a peptide hormone that has attracted attention with its proliferative and anti-apoptotic effects on osteoblasts in recent years. We investigated the effect of adrenomedullin on healing of the segmental bone defect in a rat model. 36 Wistar rats were randomly divided in six groups based on follow-up periods and administered dose of adrenomedullin hormone. In each group, a 2 mm bone defect was created at the diaphysis of radius, bilaterally. NaCl solution was administered to sham groups three times a week for 4 and 8 weeks, intraperitoneally. Adrenomedullin was administered to study groups three times a week; 15 µg-4 weeks, 15 µg-8 weeks, 30 µg-4 weeks and 30 µg-8 weeks, respectively. After euthanasia, the segmental defects were evaluated by histomorphometric (new bone area (NBA)) and micro-tomographic (bone volume (BV), bone surface (BS), bone mineral density (BMD)) analysis. Although 4 and 8 weeks 15 μg administered study groups had higher NBA values than the other study and control groups, histomorphometric analysis did not reveal any statistical difference between the control and study groups in terms of new bone area (p > 0.05). In micro-tomographic analysis, BV was higher in 15 μg – 4 weeks group than 30 μg – 4 weeks group (296.9 vs 208.5, p = 0.003) and BS was lower in 30 μg – 4 weeks than 4 week - control group (695.5 vs 1334.7, p = 0.005) but in overall, no significant difference was found between the control and study groups (p > 0.05). Despite these minor differences in histomorphometric and micro-tomographic criteria indicating new bone formation, BMD values of 15 µg-4 and −8 weeks study groups showed significant increase comparing with the control group (p = 0.04, p = 0.001, respectively). Adrenomedullin seemed to have a positive effect on BMD at a certain dose (15 µg) but it alone is not considered sufficient for healing of the defect with new bone formation. Further studies are needed to assess its effects on bone tissue trauma. This study was funded by Hacettepe University Scientific Research Projects Coordination Unit
To prevent the reported side effects of rhBMP-2, an important cytokine with bone forming capacity, the sustained release of rhBMP-2 is highly important. Synthetic copolymer polylactic acid-polyethylene glycol (PLA-PEG) is already shown to be a good carrier for rhBMP-2. The nano-sized hydroxyapatite (nHAp) is mentioned to be superior to conventional hydroxyapatite due to its decreased particle size which increases the surface area, so protein-cell adhesion and mechanical properties concomitantly. In the literature no study is reported with PLA-PEG / rhBMP-2/ nHAp for bone regeneration. In this study, we assessed the controlled release profile of rhBMP-2 from the novel biomaterial of PLA-PEG / rhBMP-2 / nHAp in vitro and evaluated the bone forming capacity of the composite in rat posterolateral spinal fusion (PSF) model in vivo. Composites were prepared via addition of rhBMP-2 (0µg, 3µg or 10µg) and nHAp (12.5mg) into PLA-PEG (5mg) + acetone solution and shaping. The release kinetics of the cytokine from the composites with 5µg BMP-2 was investigated by ELISA. The effect of nHAp and nHAp with rhBMP-2 on cell differentiation (rat BMSC cells, passage 3) was tested with ALP staining. In vivo bone formation was investigated by PSF on L4-L5 in a total of 36 male SD rats and weekly µCT results and histology at 8th weeks post operation were used for assessment of the bone formation. All animal experiments was approved by the institutional review board confirming to the laws and regulations of Japan. The composite showed an initial burst release in the first 24 hours (51.7% of the total released rhBMP-2), but the release was continued for the following 21 days. Thus, the sustained release of rhBMP-2 from the composite was verified. ALP staining results showed nHAp with rhBMP-2 contributed better on differentiation than nHAp itself. µCT and histology demonstrated that spinal fusion was achieved either one or both transverse processes in almost all BMP 3µg and BMP 10µg treated animals. On the contrary, only small or no bone formation was observed in the BMP0µg group (bilateral non-union / unilateral fusion/ bilateral fusion, BMP0µg group; 9/0/0, BMP3µg group; 1/0/11, BMP10µg group; 0/1/11). We developed a new technology for bone regeneration with BMP-2/PLA-PEG/nHAp composite. With this composite, the required dose of BMP-2 for spinal fusion in rats (10µg) was decreased to 1/3 (3µg) which can be explained by the superior properties of nano-sized hydroxyapatite and by the achievement of sustainable release of rhBMP-2 from the composite. This study is supported by Japanese Society of the Promotion of Science (JSPS) and Scientific and Technological Research Council of Turkey (TUBITAK). [Project No: 215S834]
Sustained release of BMP-2 is reported to be able to reduce the required dose of BMP-2 for bone induction. Nanohydroxyapatite (nHAp) has an osteoinduction capability which is lack in conventional hydroxyapatite. In this study, we combined PLA-PEG with nHAp and investigated the bone regenerative capacity of the newly established composite material of rhBMP-2/PLA-PEG/nHAp in a rat model of spinal fusion. The PLA-PEG was liquidized in acetone and mixed with nHAp and rhBMP-2. The sheet-shaped BMP-2/PLA-PEG (5mg)/nHAp (12.5mg) composites were prepared while evaporating the acetone. The release kinetics of rhBMP-2 from the composite was investigated by ELISA.
