Abstract
BackgroundRhabdomyosarcoma (RMS) is the most common soft tissue sarcoma in children with poor survival. New treatment approaches are urgently needed to improve treatment efficacy in RMS patients. DMAMCL is a novel agent from Asteraceae family that has been tested in phase I clinical trials in adult glioma in Australia.MethodsFive RMS cell lines (RD, RH18, RH28, RH30 and RH41) were used. The in vitro anti-tumor effect of DMAMCL, alone or in combination with VCR or Epirubicin, was studied using MTS assay or IncuCyte-Zoom cell confluency assay, and further validated by xenograft-mouse model in vivo. Changes in caspase-3/7 activity, cell-cycle progression and generation of ROS after DMAMCL treatment were investigated. Bim mRNA expression was measured by RT-qPCR, and protein expressions of Bim and phosphorylated-NF-κB(p65) by Western blotting. Small interfering RNAs (siRNA) of Bim were used to study the role of Bim in DMAMCL-induced cell death.ResultsIn vitro, DMAMCL treatment induced a dose-dependent increase in cell death that could be blocked by pan-caspase-inhibitor-Z-VAD-fmk in five RMS cell lines. The percent of cells in SubG1 phase and activities of caspase-3/7 increased after DMAMCL treatment; The combination of DMAMCL with VCR or Epirubicin significantly increased cell death compared to each reagent alone. In vivo, DMAMCL(75 mg/kg or 100 mg/kg) inhibited tumor growth and prolonged survival of mice bearing xenograft RMS tumors (RD, RH18, RH30, RH41). Compared to treatment with DMAMCL or VCR, a combination of two reagents caused significant inhibition of tumor growth (RD, RH41), even after treatment termination. The expression of Bim increased at protein level after DMAMCL treatment both in vitro and in vivo. The expression of p-NF-κB(p65) had a transient increase and the generation of ROS increased after DMAMCL treatment in vitro. Transfection of Bim siRNA into RMS cells blocked the DMAMCL-induced increase of Bim and partially attenuated the DMAMCL-induced cell death.ConclusionDMAMCL had an anti-tumor growth effect in vitro and in vivo that potentially mediated by Bim, NF-κB pathway and ROS. A combination of DMAMCL with chemotherapeutic drugs significantly increased the treatment efficacy. Our study supports further clinical evaluation of DMAMCL in combination with conventional chemotherapy.
Highlights
Rhabdomyosarcoma (RMS) is a common soft tissue sarcoma which is considered relevant in the skeletal muscle lineage of childhood
DMAMCL treatment induces cell death in RMS cells in vitro To study the effect of DMAMCL on RMS cell survival in vitro, RD, RH18, and RH28, RH30, RH41 were treated with different concentrations of DMAMCL for 72 h, at the end of the experiments MTS assay was used to detect the cell survival
Each data point represents the mean, standard deviation (SD) of triplicate wells. b Cell confluency(%) was calculated using Incucyte Zoom software based on phase-contrast images of RD, RH18, RH28, RH30 and RH41 cells from 0 h to 72 h at different concentration of DMAMCL
Summary
Rhabdomyosarcoma (RMS) is a common soft tissue sarcoma which is considered relevant in the skeletal muscle lineage of childhood. It is with an incidence of 4.5 cases per 1 million children every year, which making it the third most prevalent extracranial solid tumor in children [1, 2]. ERMS are characterized by RAS gene mutations and account for about two thirds of RMS and have a 73% 5-year overall survival rate. ARMS are characterized by PAX/FOXO1 or related fusion oncogenes and account for about 20% of RMS and have a 48% 5-year overall survival rate [1, 6].
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