Local co-delivery of rhBMP-2 and cathepsin K inhibitor L006235 in poly(d,l-lactide-co-glycolide) nanospheres.

Cathepsin K inhibitors (CKIs) are an emerging class of drugs that are potent antagonists of osteoclastic activity. We speculated that they may be beneficial in bone tissue engineering, where a stress shielded environment can lead to rapid resorption of new bone. Most CKIs require frequent dosing, so to achieve a sustained release we manufactured polymer nanoparticles encapsulating the CKI L006235 (CKI/nP). CKI/nP and the collagen matrices that were used to deliver them were characterized by electron microscopy and fluorescent confocal microscopy, and data indicated that the particles were evenly distributed throughout the collagen. Elution studies indicated a linear release of the inhibitor from the CKI/nP, with approximately 2% of the drug being released per day. In an in vivo study, mice were implanted with collagen scaffolds containing rhBMP-2 that were loaded with the CKI/nP. Measurement of bone volume (BV) by microCT showed no significant increase with CKI/nP incorporation, and other parameters similarly showed no statistical differences. Cell culture studies confirmed the activity of the drug, even at low concentrations. These data indicate that polymer nanoparticles are an effective method for sustained drug delivery of a CKI, however, this may not be readily translatable to substantively improved bone tissue engineering outcomes.