In Vitro Neuroprotective Effects of Macrophage Membrane-Derived Curcumin-Loaded Carriers against 1-Methyl-4-phenylpyridinium-Induced Neuronal Damage

Curcumin (CUR) possesses neuroprotective effects. However, its clinical therapeutic efficacy is limited because of its low systemic bioavailability due to poor water solubility and fast metabolism. Herein, we designed biomimetic therapeutic nanovesicles (NVs) with enhanced performance and biocompatibility for the intracellular delivery of hydrophobic CUR. Cell membrane NVs were constructed to function as drug carriers by the serial extrusion of macrophages using filters with decreasing pore sizes. Various CUR loading strategies were also evaluated. Furthermore, the neuroprotective effects of the CUR-loaded NVs (NVs-CUR) against 1-methyl-4-phenylpyridinium (MPP+)-induced neuronal degeneration were studied thoroughly. CUR-loaded NVs were readily taken up by neurons in vitro, and the survival rate of MPP+-induced primary neurons increased from 65.37 +/- 6.37 to 90.91 +/- 3.18% after pretreatment with NVs-CUR. Compared with traditional Parkinson's disease chemotherapeutic treatment, NV formulations can improve the bioavailability of this drug. NVs are expected to become a new and effective drug-delivery platform for further applications in the field of central nervous system therapy.