Synthesis and biological evaluation of 2,2-dimethylbenzopyran derivatives as potent neuroprotection agents.

The development of novel neuroprotection agents is of great significance for the treatment of ischemic stroke. In this study, a series of compounds comprising 2,2-dimethylbenzopyran groups and cinnamic acid groups have been synthesized. Preferential combination principles and bioisostere that improved the neuroprotective effect of the compounds were identified for this series via biological activity assay in vitro. Meanwhile, a functional reversal group of the acrylamide amide resulted in the most active compounds. Among them, BN-07 significantly improved the morphology of neurons and obviously increased cell survival rate of primary neurons induced by oxygen glucose deprivation (OGD), superior to clinically used anti-ischemic stroke drug edaravone (Eda). Overall, our findings may provide an alternative strategy for the design of novel anti-ischemic stroke agents with more potency than Eda.

Nanomicelles based on X-shaped four-armed peglyated distearylglycerol as long circulating system for doxorubicin delivery.

A novel X-shaped four-armed gemini-like peglyated distearylglycerol (Gemini-PEG2K-GCDS), with two hydrophilic PEG heads and two hydrophobic stearic acid tails, was successfully synthesized and used as a nanomicellar carrier for delivery of doxorubicin. The critical micelle concentration of the amphiphilic copolymer was higher than 10(-6). Mean particle size and zeta potential of DOX-encapsulated Gemini-PEG2K-GCDS nanomicelles (DOX-GNMs) was 20.4nm and+3.91mv, respectively. Encapsulation efficiency of DOX-GNMs was as high as 94.6 and DOX release was pH-dependent from DOX-GNMs, ensuring the stability of nanomicelles in blood circulation and rapid release of DOX in tumor cells. Pharmacokinetic studies in rats following i.v. administration, DOX-GNMs demonstrated longer retention in blood and larger AUC (19.1-fold of t1/2 and 12.9-fold of AUC) compared with DOX solutions (DOX-Sol). Tissue distribution studies indicate that DOX-GNMs had higher tumor accumulation (4.6-fold) and lower heart toxicity in H22 tumor-bearing mice (17.4-fold) at 48h after administration in comparison with DOX-Sol. Moreover, IC50 of DOX-GNMs increased by 3.3-fold, 2.0-fold and 2.3-fold compared with DOX-Sol in P-gp over-expressing MCF-7/Adr cells after 24h, 48h and 72h, internalized via macropinocytosis-mediated and clathrin-mediated endocytosis. This study suggests that Gemini-PEG2K-GCDS nanomicelle is a promising long circulating delivery system for anti-tumor drugs via extended blood circulation and improved tumor distribution.