Several genetic polymorphisms of the aldosterone synthase gene(CYP11B2),which may influence the plasma aldosterone levels,had been reported to influence the blood glucose levels.In addition to the effects of sodium()(and consequently water) resorption and potassium excretion(),aldosterone could be involved in the development and progression of diabetes and its chronic complications.This paper also discussed the therapeutic significance of aldosterone receptor antagonists on the occcurance of chronic diabetic complications.

0.05). Furthermore, the patients with retinopathy had higher serum ACE levels compared with those without retinopathy ( t=12.722,P

Objective:To prepare PLGA nanoparticles modified with folic acid conjugated chitosan oligosaccharide containing pa-clitaxel (F-CS-PLGA-NPs) and study the inhibitory effect on SKOV-3. Methods:F-CS-PLGA-NPs were prepared by an interface dep-osition method, 30% ethanol was used as the release medium for the in vitro release profiles of nanoparticles, and MTT was adopted to evaluate the inhibitory effect of paclitaxel with different formulations and concentrations on SKOV-3. Results:The particle size and zeta potential of F-CS-PLGA-NPs was (321 ± 0. 76) nm and (22. 6 ± 0. 26) mV, respectively, the drug loading was (5. 1 ± 0. 25)%, and the encapsulation efficiency was (41. 96 ± 1. 96)%. F-CS-PLGA-NPs had a similar in vitro release profiles with the ordinary nanoparti-cles ( PLGA-NPs) . About 35% of paclitaxel was released from the nanoparticles in the initial 24 h, and then a near zero order release at a relative slow rate was shown, and the cumulative release rate in 144 h was about 75%. The results of cell experiments suggested that at the same paclitaxel concentration, the inhibition effect of F-CS-PLGA-NPs group was stronger than that of the PLGA-NPs group and the solution group. The inhibition effect of F-CS-PLGA-NPs could be reduced by free folic acid. Conclusion:PLGA nanoparticles modified with folic acid conjugated chitosan oligosaccharide can increase the targeting efficiency in SKOVS-3 tumor cells.