Abstract
Halting cancer progression by altering the tumor microenvironment is an exciting new frontier in oncology. One target for new therapies is the structural support provided by the extracellular matrix, which for cancer cells is often abnormal and undergoes drastic modification during angiogenesis, tumor proliferation, and metastasis. We have developed a new magnetic nanoparticle-based agent, Fe3O4–PEG–EDDA (EDDA: (Z)-octa-4-en-2,6-diyne-1,8-diamine), that is capable of generating radicals via Bergman cyclization of the pendant enediyne during mild hyperthermia treatment using an alternating magnetic field. We observe formation of a cyclized aromatic product in the Raman spectra of the thermally excited material and can detect polymeric product after periods of induction. When mixed with the basement membrane extract Matrigel, the nanoparticles do not interfere with normal biopolymer network formation. Applying the same hyperthermia conditions as in solution samples, Fe3O4–PEG–EDDA causes structural collapse...
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