✦ LIBER ✦

Effects of insulin-mimetic vanadyl-poly(γ-glutamic acid) complex on diabetic rat model

✍ Scribed by Rongzhang Hu; Chengliang He; Jian Liu; Yelin Wu; Jing Li; Zhen Feng; Jing Huang; Xu Guang Xi; Zirong Wu

Publisher: John Wiley and Sons
Year: 2010
Tongue: English
Weight: 237 KB
Volume: 99
Category: Article
ISSN: 0022-3549
DOI: 10.1002/jps.22071

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✦ Synopsis

Poly-g-glutamic acid (g-PGA) prepared by fermentation of microbe was used as drug carrier for vanadium sulfate to obtain vanadyl-poly-g-glutamic acid (VO-g-PGA) complex. The FI-IR spectrum of the complex demonstrated that the expected VO-g-PGA complex is formed by the coordination of VO 2þ through the side chain carboxylic groups of the g-PGA.

Studies of the complex in treating type I diabetes were carried out on alloxan induced diabetes rats. The results of treating the rats in 2 weeks and then stopping administration for 10 days showed that VO-g-PGA can effectively lower blood glucose levels of diabetic rats during administration. But after ceasing treatment there were no differences between groups in blood glucose level and water intake. The results of oral glucose tolerance and some serum parameters also demonstrated that VO-g-PGA was more effective than vanadium sulfate in treating diabetic rats.

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## Abstract The complexation between cupric ions (Cu^II^) and poly(__γ__‐glutamic acid) (__γ__‐PGA) in aqueous solutions (pH 3–11) has been studied by UV‐visible absorption and electron spin resonance (ESR) techniques. Formation of the Cu^II^‐__γ__‐PGA complex is confirmed by the observation of the