Comparison of glucose derivatives effects on cartilage degradation
Background. Glucosamine (GlcN) is a well-recognized candidate for treatment of osteoarthritis. However, it is currently used in derivative forms, such as glucosamine-hydrochloride (GlcN-HCl) or glucosamine sulfate (GlcN-S). However, the molecular mode of action remains unclear. In this study, we com...
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th-cmuir.6653943832-25622014-08-30T02:00:59Z Comparison of glucose derivatives effects on cartilage degradation Phitak T. Pothacharoen P. Kongtawelert P. Background. Glucosamine (GlcN) is a well-recognized candidate for treatment of osteoarthritis. However, it is currently used in derivative forms, such as glucosamine-hydrochloride (GlcN-HCl) or glucosamine sulfate (GlcN-S). However, the molecular mode of action remains unclear. In this study, we compared the effects of Glucose (Glc), Glucuronic acid (GlcA), Glucosamine hydrochloride (GlcN-HCl) and Glucosamine sulfate (GlcN-S) on cartilage degradation. Methods. Porcine cartilage explants were co-cultured with recombinant human IL-1β and each tested substance for 3 days. HA, s-GAG and MMP-2 releases to media were measured using ELISA, dye-binding assay and gelatin zymography, respectively. Similar studies were performed in a human articular chondrocytes (HAC) monolayer culture, where cells were co-treated with IL-1β and each reagent for 24 hours. Subsequently, cells were harvested and gene expression measured using RT-PCR. All experiments were carried out in triplicate. Student's t-tests were used for statistical analysis. Results. In cartilage explants treated with IL-1β, GlcN-S had the highest chondroprotective activity of all four chemicals as shown by the inhibition of HA, s-GAG and MMP-2 released from cartilage. The anabolic (aggrecan core protein; AGG, SOX9) and catabolic (MMP-3, -13) genes in HACs treated with IL-1β and with/without chemicals were studied using RT-PCR. It was found that, GlcN-HCl and GlcN-S could reduce the expression of both MMP-3 and -13 genes. The IL-1β induced-MMP-13 gene expression was decreased maximally by GlcN-S, while the reduction of induced-MMP-3 gene expression was greatest with GlcN-HCl. Glc and GlcA reversed the effect of IL-1β on the expression of AGG and SOX9, but other substances had no effect. Conclusion. This study shows that glucosamine derivatives can alter anabolic and catabolic processes in HACs induced by IL-1β. GlcN-S and GluN-HCl decreased induced MMP-3 and -13 expressions, while Glc and GlcA increased reduced-AGG and SOX9 expression. The chondroprotective study using porcine cartilage explant showed that GlcN-S had the strongest effect. © 2010 Phitak et al; licensee BioMed Central Ltd. 2014-08-30T02:00:59Z 2014-08-30T02:00:59Z 2010 Article 14712474 10.1186/1471-2474-11-162 20630114 http://www.scopus.com/inward/record.url?eid=2-s2.0-77954557733&partnerID=40&md5=0ee43f3bbb67f5e17f921ff8ceb537d7 http://www.ncbi.nlm.nih.gov/pubmed/20630114 http://cmuir.cmu.ac.th/handle/6653943832/2562 English |
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Background. Glucosamine (GlcN) is a well-recognized candidate for treatment of osteoarthritis. However, it is currently used in derivative forms, such as glucosamine-hydrochloride (GlcN-HCl) or glucosamine sulfate (GlcN-S). However, the molecular mode of action remains unclear. In this study, we compared the effects of Glucose (Glc), Glucuronic acid (GlcA), Glucosamine hydrochloride (GlcN-HCl) and Glucosamine sulfate (GlcN-S) on cartilage degradation. Methods. Porcine cartilage explants were co-cultured with recombinant human IL-1β and each tested substance for 3 days. HA, s-GAG and MMP-2 releases to media were measured using ELISA, dye-binding assay and gelatin zymography, respectively. Similar studies were performed in a human articular chondrocytes (HAC) monolayer culture, where cells were co-treated with IL-1β and each reagent for 24 hours. Subsequently, cells were harvested and gene expression measured using RT-PCR. All experiments were carried out in triplicate. Student's t-tests were used for statistical analysis. Results. In cartilage explants treated with IL-1β, GlcN-S had the highest chondroprotective activity of all four chemicals as shown by the inhibition of HA, s-GAG and MMP-2 released from cartilage. The anabolic (aggrecan core protein; AGG, SOX9) and catabolic (MMP-3, -13) genes in HACs treated with IL-1β and with/without chemicals were studied using RT-PCR. It was found that, GlcN-HCl and GlcN-S could reduce the expression of both MMP-3 and -13 genes. The IL-1β induced-MMP-13 gene expression was decreased maximally by GlcN-S, while the reduction of induced-MMP-3 gene expression was greatest with GlcN-HCl. Glc and GlcA reversed the effect of IL-1β on the expression of AGG and SOX9, but other substances had no effect. Conclusion. This study shows that glucosamine derivatives can alter anabolic and catabolic processes in HACs induced by IL-1β. GlcN-S and GluN-HCl decreased induced MMP-3 and -13 expressions, while Glc and GlcA increased reduced-AGG and SOX9 expression. The chondroprotective study using porcine cartilage explant showed that GlcN-S had the strongest effect. © 2010 Phitak et al; licensee BioMed Central Ltd. |
| format |
Article |
| author |
Phitak T. Pothacharoen P. Kongtawelert P. |
| spellingShingle |
Phitak T. Pothacharoen P. Kongtawelert P. Comparison of glucose derivatives effects on cartilage degradation |
| author_facet |
Phitak T. Pothacharoen P. Kongtawelert P. |
| author_sort |
Phitak T. |
| title |
Comparison of glucose derivatives effects on cartilage degradation |
| title_short |
Comparison of glucose derivatives effects on cartilage degradation |
| title_full |
Comparison of glucose derivatives effects on cartilage degradation |
| title_fullStr |
Comparison of glucose derivatives effects on cartilage degradation |
| title_full_unstemmed |
Comparison of glucose derivatives effects on cartilage degradation |
| title_sort |
comparison of glucose derivatives effects on cartilage degradation |
| publishDate |
2014 |
| url |
http://www.scopus.com/inward/record.url?eid=2-s2.0-77954557733&partnerID=40&md5=0ee43f3bbb67f5e17f921ff8ceb537d7 http://www.ncbi.nlm.nih.gov/pubmed/20630114 http://cmuir.cmu.ac.th/handle/6653943832/2562 |
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