X-ray on chip: Quantifying therapeutic synergies between radiotherapy and anticancer drugs using soft tissue sarcoma tumor spheroids

•Development of a microfluidic system to evaluate candidate drugs with clinical radiotherapy on tumor spheroids.•The orthovoltage-based irradiation technique enabled the delivery of four different radiation doses on one microfluidic system.•A synergistic effect of Talazoparib with radiotherapy on so...

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Bibliographic Details
Published in:Radiotherapy and oncology 2021-04, Vol.157, p.175-181
Main Authors: Bavoux, Maeva, Kamio, Yuji, Vigneux-Foley, Emmanuelle, Lafontaine, Julie, Najyb, Ouafa, Refet-Mollof, Elena, Carrier, Jean-François, Gervais, Thomas, Wong, Philip
Format: Article
Language:English
Subjects:
Antineoplastic Agents - therapeutic use
Humans
Microfluidic
Radio-oncology
Radiosensitizer
Radiotherapy
Repurposing
Sarcoma - drug therapy
Sarcoma - radiotherapy
Soft Tissue Neoplasms
Soft tissue sarcoma
Spheroid
Spheroids, Cellular
Tumor Microenvironment
X-Rays
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Summary:•Development of a microfluidic system to evaluate candidate drugs with clinical radiotherapy on tumor spheroids.•The orthovoltage-based irradiation technique enabled the delivery of four different radiation doses on one microfluidic system.•A synergistic effect of Talazoparib with radiotherapy on soft tissue sarcoma spheroids was demonstrated with clonogenic assays.•This tool lays the basis for the systemic search of molecular agent/radiotherapy synergies. Radioresistance, tumor microenvironment, and normal tissue toxicity from radiation limit the efficacy of radiotherapy in treating cancers. These challenges can be tackled by the discovery of new radiosensitizing and radioprotecting agents aimed at increasing the therapeutic efficacy of radiotherapy. The goal of this work was to develop a miniaturized microfluidic platform for the discovery of drugs that could be used in combination with radiotherapy. The microfluidic system will allow the toxicity testing of cancer spheroids to different combinations of radiotherapy and molecular agents. An orthovoltage-based technique was used to expose the devices to multiple X-ray radiation doses simultaneously. Radiation dose-dependent DNA double-strand breaks in soft tissue sarcoma (STS) spheroids were quantified using comet assays. Analysis of proliferative death using clonogenic assays was also performed, and synergy between treatments with Talazoparib, Pazopanib, AZD7762, and radiotherapy was quantified using dedicated statistical tests. The developed microfluidic system with simple magnetic valves was capable of growing 336 homogeneous STS spheroids. The irradiation of the microfluidic system with an orthovoltage-based technique enabled the screening of sixteen drug-radiotherapy combinations with minimal reagent consumption. Using this framework, we predicted a therapeutic synergy between a novel anticancer drug Talazoparib and radiotherapy for STS. No synergy was found between RT and either Pazopanib or AZD7762, as the combinations were found to be additive. This methodology lays the basis for the systemic search for molecular agent/radiotherapy synergies among preexisting pharmaceutical compounds libraries, in the hope to identify failed drug candidates in monotherapy that, in the presence of radiotherapy, would make it through clinical trials.
ISSN:0167-8140
1879-0887
DOI:10.1016/j.radonc.2021.01.018