Background: Chemerin plasma concentration has been reported to be positively correlated with the risk of colorectal cancer. However, the potential regulation of CRC tumorigenesis and progression has not yet been investigated in an experimental setting. This study addresses this hypothesis by investigating proliferation, colony formation, and migration of CRC cell lines in vitro as well as in animal models. Methods: In vitro, microscopic assays to study proliferation, as well as a scratch-wound assay for migration monitoring, were applied using the human CRC cell lines HCT116, HT29, and SW620 under the influence of the chemerin analog CG34. The animal study investigated HCT116-luc and HT29-luc subcutaneous tumor size and bioluminescence during treatment with CG34 versus control, followed by an ex-vivo analysis of vessel density and mitotic activity. Results: While the proliferation of the three CRC cell lines in monolayers was not clearly stimulated by CG34, the chemerin analog promoted colony formation in three-dimensional aggregates. An effect on cell migration was not observed. In the treatment study, CG34 significantly stimulated both growth and bioluminescence signals of HCT116-luc and HT29-luc xenografts. Conclusions: The results of this study represent the first indication of a tumor growth-stimulating effect of chemerin signaling in CRC.
We created a pair of vectors allowing simple and efficient molecular cloning of any gene of interest with minimal consumption of time, labor and material. This system is applicable for standard molecular cloning, high-throughput cloning and generation of fusion protein libraries as well as for more complex gene assembly purposes. Also, this zero-background procedure allows going from cDNA to gene expression analysis in a defined vector in <2 days.
BackgroundChemerin plasma concentration has been reported to be positively correlated with the risk of colorectal cancer. However, the potential regulation of CRC tumorigenesis and progression has not yet been investigated in an experimental setting. This study addresses this hypothesis by investigating proliferation, colony formation and migration of CRC cell lines in vitro as well as in animal models.MethodsIn vitro, microscopic assays to study proliferation as well as a scratch-wound assay for migration monitoring were applied using the human CRC cell lines HCT116, HT29 and SW620 under the influence of the chemerin analog CG34. The animal study investigated HCT116-luc and HT29-luc subcutaneous tumor size and bioluminescence during treatment with CG34 versus control, followed by ex-vivo analysis of vessel density and mitotic activity.ResultsWhile proliferation of the three CRC cell lines in monolayers was not clearly stimulated by CG34, the chemerin analog promoted colony formation in three-dimensional aggregates. An effect on cell migration was not observed. In the treatment study, CG34 significantly stimulated both growth and bioluminescence signal of HCT116-luc and HT29-luc xenografts.ConclusionsThe results of this study represent the first indication of a tumor growth-stimulating effect of chemerin signaling in CRC.
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