Identification of an easy to use 3D culture model to investigate invasion and anticancer drug response in chondrosarcomas
BackgroundCytotoxic efficacy of anticancer drugs has been widely studied with monolayer-cultured cancer cells. However, the efficacy of drugs under two-dimensional (2D) culture condition usually differs from that of three-dimensional (3D) one. In the present study, an in vitro tumor tissue model was constructed using alginate hydrogel, and in vitro cytotoxic efficacy of two anticancer drugs (cisplatin and DZNep) was investigated in chondrosarcomas, and compared to in vivo response.MethodsThree cell lines derived from human chondrosarcomas, CH2879, JJ012 and SW1353, were embedded in alginate hydrogel. Proliferation and survival were assayed by ATP measurement using Cell Titer-Glo luminescent cell viability assay kit, and by counting viable cells in beads. Collagen and COMP expression was determined by RT-PCR. Invasion/migration was estimated by counting cells leaving alginate beads and adhering to culture dish. Then, chondrosarcoma response to cisplatin and DZNep was compared between cells cultured in monolayer or embedded in alginate, and using chondrosarcoma xenografts in nude mice.ResultsChondrosarcomas survived at least for 8 weeks, after embedment in alginate. However, only CH2879 cells could proliferate. Also, this cell line is more invasive than SW1353 and JJ012, which was coherent with the grade of their respective primary tumors. Furthermore, the expression of type II collagen was higher in chondrosarcomas cultured in 3D than in 2D. Interestingly, this 3D culture system allows to validate the absence of response of chondrosarcomas to cisplatin, and to predict the efficiency of DZNep to reduce chondrosarcoma growth in vivo.ConclusionsThis study validates alginate beads as a relevant 3D model to study cancer biology and tumor responses to biological treatments.
Background Osteoarthritis (OA) is the most common form of arthritis, affecting millions of people worldwide and characterised by joint pain and inflammation. It is a complex disease involving inflammatory factors and affecting the whole joint, including the synovial membrane. Since drug combination is widely used to treat chronic inflammatory diseases, a similar strategy of designing plant-derived natural products to reduce inflammation in OA joints may be of interest. In this study, we characterised the response of OA synovial cells to lipopolysaccharide (LPS) and investigated the biological action of the combination of curcumin, bromelain and harpagophytum in this original in vitro model of osteoarthritis. Methods Firstly, human synovial cells from OA patients were stimulated with LPS and proteomic analysis was performed. Bioinformatics analyses were performed using Cytoscape App and SkeletalVis databases. Additionally, cells were treated with curcumin, bromelain and harpagophytum alone or with the three vegetal compounds together. The gene expression involved in inflammation, pain or catabolism was determined by RT-PCR. The release of the encoded proteins by these genes and of prostaglandin E2 (PGE2) were also assayed by ELISA. Results Proteomic analysis demonstrated that LPS induces the expression of numerous proteins involved in the OA process in human OA synovial cells. In particular, it stimulates inflammation through the production of pro-inflammatory cytokines (Interleukin-6, IL-6), catabolism through an increase of metalloproteases (MMP-1, MMP-3, MMP-13), and the production of pain-mediating neurotrophins (Nerve Growth Factor, NGF). These increases were observed in terms of mRNA levels and protein release. LPS also increases the amount of PGE2, another inflammation and pain mediator. At the doses tested, vegetal extracts had little effect: only curcumin slightly counteracted the effects of LPS on NGF and MMP-13 mRNA, and PGE2, IL-6 and MMP-13 release. In contrast, the combination of curcumin with bromelain and harpagophytum reversed lots of effects of LPS in human OA synovial cells. It significantly reduced the gene expression and/or the release of proteins involved in catabolism (MMP-3 and -13), inflammation (IL-6) and pain (PGE2 and NGF). Conclusion We have shown that the stimulation of human OA synovial cells with LPS can induce protein changes similar to inflamed OA synovial tissues. In addition, using this model, we demonstrated that the combination of three vegetal compounds, namely curcumin, bromelain and harpagophytum, have anti-inflammatory and anti-catabolic effects in synovial cells and may thus reduce OA progression and related pain.
Benefit of combining curcumin, harpagophytum and bromelain to reduce inflammation in osteoarthritic synovial cells
Background: Osteoarthritis is the most common cause of arthritis affecting millions of people worldwide, characterized by joint pain and in ammation. It is a complex disease involving in ammatory factors and affecting the whole joint including synovium. Since drug combination is widely used to treat chronic in ammatory diseases, a similar strategy may be worth of interest to design plant-derived natural products to reduce in ammation in OA joint. Here, we characterized the response of OA synovial cells to lipopolysaccharide (LPS) and investigated the biological action of the combination of curcumin, harpagophytum and bromelain in this original in vitro model of osteoarthritis.Methods: Primary, human synovial cells from OA patients were stimulated with LPS and proteomic analysis was performed. Bioinformatics analysis were performed using Cytoscape App and SkeletalVis databases. Additionally, cells were treated with curcumin, harpagophytum and bromelain alone or the three vegetal compounds together. The expression of genes involved in in ammation, pain or catabolism were determined by RT-PCR. The release of the encoded proteins by these genes and of prostaglandin E2 (PGE2) were also assayed by ELISA.Results: Proteomic analysis demonstrated that LPS induces the expression of numerous proteins involved in OA process in human OA synovial cells. In particular, it stimulates in ammation through the production of pro-in ammatory cytokines (Interleukin-6, IL-6), the catabolism through an increase of metalloproteases (MMP-1, MMP-3, MMP-13), and the production of pain-mediating neurotrophin (Nerve Growth Factor, NGF). These increases were observed at level of mRNA levels and of protein release. LPS also increases the amount of PGE2, another in ammation and pain mediator. At doses tested, vegetal extracts had little effects: only curcumin slightly counteracted the effects of LPS on NGF and MMP13 mRNA, and PGE2, IL-6 and MMP13 release. In contrast the association of curcumin with harpagophytum and bromelain reversed lots of effects of LPS in human OA synovial cells. It signi cantly reduced the gene expression and/or the release of proteins involved in catabolism (MMP3 and 13), in ammation (IL-6) and pain (PGE2 and NGF). Conclusion:We show that the stimulation of human OA synovial cells with LPS permit to induce protein changes similar to an in amed OA synovial tissues. In addition, using this model, we demonstrate that the combination of three vegetal compounds, namely curcumin, harpagophytum and bromelain have anti-in ammatory and anti-catabolic action in synovial cells and may thus reduce OA progression and related-pain.
Heterotis niloticus is an African species of Osteoglossiformes that presents biological peculiarities and zootechnical performances favorable for fish farming. However, the absence of a sexual dimorphism hinders the optimization of its reproduction in captivity and limits the understanding of its reproductive behavior. This study is aimed at developing a minimally invasive and reliable sexing method to detect vitellogenin (Vtg) in female plasma. A commercial sexing kit (Acobium, Montpellier, France) for Arapaima gigas—a phylogenetically sister species of H. niloticus—successfully identified only 20% of mature H. niloticus females. Enzyme-linked immunosorbent assays (ELISA) were carried out using three Vtg antibodies. The A. gigas Vtg1 antibody cross-reacted significantly with plasma dilutions of female H. niloticus ranging from 1:1000 to 1:10,000, but with relatively low intensity. The Vtg antibody from Osteoglossum bicirrhosum, another species of Osteoglossiformes, showed non-specific binding with the Vtg of H. niloticus female plasma. Finally, an antibody for H. niloticus Vtg developed in this study allowed us to differentiate the two sexes with plasma coating dilutions ranging from 1:1000 to 1:10,000. The results of the assay were validated by a proteomic approach showing that Vtg-targeted mass spectrometry analysis of H. niloticus blood protein extracts could be used to accurately determine the presence of Vtg in the plasma of mature females. The final validation of the ELISA technique using the H. niloticus Vtg antibody was confirmed by visual sexing of a significant number of blood-sampled fish gonads; 100% of the fish were correctly sexed by the ELISA method.
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