Utility of macrophages in an antitumor strategy based on the vectorization of iron oxide nanoparticles
Résumé
Utility of macrophages in an antitumor strategy based on the vectorization of iron oxide nanoparticles This Trojan horse strategy aims at specifi cally killing tumor cells. To achieve this goal, High-Z-element nanoparticles brought by macrophages are stimulated using low doses of X-ray radiation. The nanoparticles (namely FERINJECT®) liberate toxic photoelectrons in situ without damaging the surrounding healthy tissues. With its specifi c targeting of cancer cells, this promising anticancer strategy could greatly improve the effi ciency of current radiotherapy. Many solid tumors and their metastases are still resistant to current cancer treatments such as chemo-and radiotherapy. The presence of a small population of Cancer Stem Cells in tumors is held responsible for relapses. Moreover, the various physical barriers of the organism (e.g. blood-brain barrier) prevent many drugs from reaching the target cells. In order to alleviate this constraint, we suggest a Trojan horse strategy consisting of intravascular injection of macrophages loaded with therapeutic nanoparticles (an iron nanoparticle-based solution marketed under the name of FERINJECT®) to bring a high quantity of the latter to the tumor. The aim of this article is to assess the response of primary macrophages to FERINJECT® via functional assays in order to ensure that the macrophages loaded with these nano-particles are still relevant for our strategy. Following this first step, we demonstrate that the loaded macro-phages injected into the bloodstream are able to migrate to the tumor site using small-animal imaging. Finally, using synchrotron radiation, we validate an improvement of the radiotherapeutic effect when FERINJECT®-laden macrophages are deposited at the vicinity of cancer cells and irradiated.
Origine | Publication financée par une institution |
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