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"Tandem" Nanomedicine Approach against Osteoclastogenesis: Polysulfide Micelles Synergically Scavenge ROS and Release Rapamycin. | LitMetric

AI Article Synopsis

  • This research introduces a new method combining oxidant scavenging and drug release to potentially treat osteoporosis by preventing inflammatory cells from turning into osteoclasts.
  • The study utilized a branched, PEGylated polysulfide that formed more stable, effective micelles than a linear version, allowing for higher drug loading of rapamycin.
  • The results indicated that while the micelles alone could reduce osteoclast formation, the combination of the micelles with rapamycin released only in the presence of ROS dramatically stopped the process, highlighting the importance of optimizing the oxidant ratio for targeting specific diseases effectively.

Article Abstract

We show the first example of a synergic approach of oxidant (ROS) scavenging carrier and ROS-responsive drug release in the context of a potential therapy against osteoporosis, aiming to inhibit the differentiation of inflammatory cells into osteoclasts. In our "tandem" approach, a branched amphiphilic, PEGylated polysulfide (PPSES-PEG) was preferred over a linear analogue, because of improved homogeneity in the aggregates (spherical micelles vs mixture of wormlike and spherical), increased stability, and higher drug loading (up to ∼22 wt % of antiosteoclastic rapamycin). These effects are ascribed to the branching inhibiting crystallization in the polysulfide blocks. The ROS-scavenging micelles alone were already able to reduce osteoclastogenesis in a RAW 264.7 model, but the "drug" combination (the polymer itself + rapamycin released only under oxidation) completely abrogated the process. An important take-home message is that the synergic performance depended very strongly on the oxidant:oxidizable group molar ratio, a parameter to carefully tune in the perspective of targeting specific diseases.

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Source
http://dx.doi.org/10.1021/acs.biomac.9b01348DOI Listing

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