新型碱性酶囊载产朊假丝酵母尿酸酶的生物学特性改善及其降尿酸作用

Improved biological properties and hypouricemic effects of uricase from Candida utilis loaded in novel alkaline enzymosomes.

机构信息

Department of Thoracic Surgery, Institute of Surgery Research, Daping Hospital, Third Military Medical University, Chongqing, People’s Republic of China.

出版信息

Int J Nanomedicine. 2012;7:3929-38. doi: 10.2147/IJN.S33835. Epub 2012 Jul 23.

DOI:10.2147/IJN.S33835

PMID:22915844

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3418170/

Abstract

OBJECTIVE

Previous studies on various enzymosomes (functional lipid vesicles encapsulating an enzyme) have been mostly carried out in vitro and have focused on preserving catalytic activity and improving the stability of the enzyme. Until now, few studies have focused on their in vivo fate. Similarly, although we have previously reported the increased in vitro uricolytic activity (about 2.2 times higher than that of free uricase, or three times higher than that of PEGylated uricase, Puricase(®), under physiological pH and temperature) and improved stability of the novel alkaline enzymosomes (functional lipid vesicles encapsulating uricase from Candida utilis: uricase-containing lipid vesicles, UOXLVs), it is still necessary to study the biological properties and hypouricemic effects of UOXLVs in vivo.

METHODS

The enzyme kinetics, pharmacokinetics, pharmacodynamics, immunogenicity, and preliminary safety of UOXLVs were evaluated.

RESULTS

The Michaelis constant (K(m)) value of the UOXLVs was slightly lower than that of the free enzyme. The enzyme release from the UOXLVs lasted over 12 hours and their circulation half-life was about sevenfold longer than that of the free uricase. Meanwhile, the UOXLVs had a 22-fold increase in the area under the curve compared with the free uricase. Furthermore, it took less than 3 hours for the UOXLVs to lower the plasma uric acid concentration from a high to a normal level, compared with 6 hours for the free uricase. In addition, the UOXLVs had much less immunogenicity than free uricase and were well tolerated by all animals throughout the observation period.

CONCLUSION

The UOXLVs markedly improved the biological properties and enhanced the hypouricemic effects of uricase in vivo.

摘要

目的

先前关于各种酶体（包封酶的功能性脂质体）的研究大多在体外进行，主要集中在保持酶的催化活性和提高其稳定性上。到目前为止，很少有研究关注它们在体内的命运。同样，尽管我们之前报道了新型碱性酶体（包封尿酸酶的功能性脂质体：尿酸酶脂质体，UOXLVs）在体外尿酸酶活性（在生理 pH 和温度下，比游离尿酸酶高约 2.2 倍，比聚乙二醇化尿酸酶 Puricase(®)高 3 倍）和稳定性提高，但仍有必要研究 UOXLVs 在体内的生物学特性和降尿酸作用。

方法

评估了 UOXLVs 的酶动力学、药代动力学、药效学、免疫原性和初步安全性。

结果

UOXLVs 的米氏常数（K(m)）值略低于游离酶。UOXLVs 中的酶释放持续超过 12 小时，其循环半衰期比游离尿酸酶长约 7 倍。同时，UOXLVs 的曲线下面积比游离尿酸酶增加了 22 倍。此外，与游离尿酸酶相比，UOXLVs 将血浆尿酸浓度从高水平降低至正常水平所需的时间不到 3 小时，而游离尿酸酶则需要 6 小时。此外，与游离尿酸酶相比，UOXLVs 的免疫原性要低得多，并且在整个观察期间所有动物均耐受良好。

结论

UOXLVs 显著改善了尿酸酶在体内的生物学特性，并增强了其降尿酸作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/188b/3418170/f3cf86596f4c/ijn-7-3929f1.jpg

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新型碱性酶囊载产朊假丝酵母尿酸酶的生物学特性改善及其降尿酸作用

Improved biological properties and hypouricemic effects of uricase from Candida utilis loaded in novel alkaline enzymosomes.

机构信息

Department of Thoracic Surgery, Institute of Surgery Research, Daping Hospital, Third Military Medical University, Chongqing, People’s Republic of China.