Journal
BIOMATERIALS
Volume 179, Issue -, Pages 186-198Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.biomaterials.2018.07.004
Keywords
Contrast agent; Magnetic resonance imaging; Iron oxide; Radical; Hyperthermia
Funding
- National Science and Technology Major Project [2017YFA0205400]
- National Natural Science Foundation of China [21474047, 51773089]
- Industry University-Research Collaboration project of Jiangsu Province [BY201504-01]
- Natural Science Foundation of Jiangsu Province [BK20171258]
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In vivo read-out of autophagy is of great therapeutic and fundamental significance, and yet being conducted exclusively in high cost transgenic animal models. As an attempt to readily monitor the autophagy flux, we herein proposed an autophagy-responsive magnetic resonance imaging based on radical conjugated magnetic nanoparticles. In principle, both the NO center dot radical and Fe3O4 nanoparticles are stable, and separately contributing to an observation of enhanced T-1-and T-2-weighted imaging, respectively. Meanwhile, the onset of autophagy concomitantly simulates the mass production of reactive species, and consequently quenches the Ti-signal of NO center dot. On this basis, the content of autophagy flux is reflected by the ratio of Ti-signal intensity to that of T-2-signal, which is condition-insensitive, as a function of time. Assisted with such strategy, an unprecedented protection role autophagy played in respond to heat stress has been revealed, through which the killing effect of magneto-hyperthermia was greatly impeded. Furthermore, we noticed that the impairment of autophagy through the sequential chemotherapy, can markedly improve the therapeutic outcome, in a manner monitored and thoroughly analyzed using the strategy reported herein. We therefore believe that such a study offers a feasible method for in vivo read-out of autophagy and gives us insights how autophagy influences the therapeutic index of cancer treatments. (C) 2018 Elsevier Ltd. All rights reserved.
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