The purpose of this research was to describe the application of lyophilization in the delivery of siRNA using cationic lipids by addressing the long-term formulation/stability issues associated with cationic lipids and to understand the mechanism of lyoprotection. siRNA liposomes complexes were formed in different potential cyro/lyoprotectants and subjected to either lyophilization or freeze thaw cycles. siRNA, liposomes and/or lipoplexes were tested for activity, SYBR Green I binding, cellular uptake and particle size. The lipoplexes when lyophilized in the presence of sugars as lyoprotectants could be lyophilized and reconstituted without loss of transfection efficacy but in ionic solutions they lost 65–75% of their functionality. The mechanism of this loss of activity was further investigated. The lyophilization process did not alter siRNA’s intrinsic biological activity as was evident by the ability of lyophilized siRNA to retain functionality and SYBR green I binding ability. While the lipoplex size dramatically increased (∼50–70 times) after lyophilization in the absence of non-ionic lyoprotectants. This increase in size correlated to the decrease in cellular accumulation of siRNA and a decrease in activity. In conclusion, siRNAs can be applied in cationic lipid lyophilized formulations and these complexes represent a potential method of increasing the stability of pre-formed complex.
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机译:这项研究的目的是通过解决与阳离子脂质相关的长期制剂/稳定性问题来描述冻干在使用阳离子脂质的siRNA递送中的应用,并了解冻干保护的机制。 siRNA脂质体复合物在不同的潜在cyro / lyoprotectant中形成,并经过冻干或冻融循环。测试了siRNA,脂质体和/或脂质复合物的活性,SYBR Green I结合,细胞摄取和粒径。当在糖中作为冻干保护剂冻干时,脂质体可以冻干并重建,而不会损失转染效果,但是在离子溶液中,它们失去了65-75%的功能。进一步研究了这种活性丧失的机理。冻干过程并未改变siRNA的固有生物学活性,冻干siRNA保留功能和SYBR green I结合能力的能力就证明了这一点。在没有非离子型冻干保护剂的情况下,冻干后脂质复合物的大小显着增加(约50-70倍)。大小的增加与siRNA的细胞积累减少和活性降低有关。总之,可将siRNA应用于阳离子脂质冻干制剂中,这些复合物代表了增加预形成复合物稳定性的一种潜在方法。
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