The significance of controlled conditions in lentiviral vector titration and in the use of multiplicity of infection (MOI) for predicting gene transfer events.

Bing Zhang, Pat Metharom, Howard Jullie, Kay AO Ellem, Geoff Cleghorn, Malcolm J West, Ming Q Wei
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引用次数: 63

Abstract

BACKGROUND: Although lentiviral vectors have been widely used for in vitro and in vivo gene therapy researches, there have been few studies systematically examining various conditions that may affect the determination of the number of viable vector particles in a vector preparation and the use of Multiplicity of Infection (MOI) as a parameter for the prediction of gene transfer events. METHODS: Lentiviral vectors encoding a marker gene were packaged and supernatants concentrated. The number of viable vector particles was determined by in vitro transduction and fluorescent microscopy and FACs analyses. Various factors that may affect the transduction process, such as vector inoculum volume, target cell number and type, vector decay, variable vector - target cell contact and adsorption periods were studied. MOI between 0-32 was assessed on commonly used cell lines as well as a new cell line. RESULTS: We demonstrated that the resulting values of lentiviral vector titre varied with changes of conditions in the transduction process, including inoculum volume of the vector, the type and number of target cells, vector stability and the length of period of the vector adsorption to target cells. Vector inoculum and the number of target cells determine the frequencies of gene transfer event, although not proportionally. Vector exposure time to target cells also influenced transduction results. Varying these parameters resulted in a greater than 50-fold differences in the vector titre from the same vector stock. Commonly used cell lines in vector titration were less sensitive to lentiviral vector-mediated gene transfer than a new cell line, FRL 19. Within 0-32 of MOI used transducing four different cell lines, the higher the MOI applied, the higher the efficiency of gene transfer obtained. CONCLUSION: Several variables in the transduction process affected in in vitro vector titration and resulted in vastly different values from the same vector stock, thus complicating the use of MOI for predicting gene transfer events. Commonly used target cell lines underestimated vector titre. However, within a certain range of MOI, it is possible that, if strictly controlled conditions are observed in the vector titration process, including the use of a sensitive cell line, such as FRL 19 for vector titration, lentivector-mediated gene transfer events could be predicted.

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控制条件在慢病毒载体滴定和使用感染多重性(MOI)预测基因转移事件中的意义。
背景:虽然慢病毒载体已被广泛用于体内外基因治疗研究,但很少有研究系统地检查可能影响载体制备中活载体颗粒数量确定的各种条件,以及使用感染多重性(Multiplicity of Infection, MOI)作为预测基因转移事件的参数。方法:将编码标记基因的慢病毒载体包装,浓缩上清。通过体外转导、荧光显微镜和FACs分析确定活载体颗粒的数量。研究了可能影响转导过程的各种因素,如载体接种量、靶细胞数量和类型、载体衰减、可变载体-靶细胞接触和吸附时间等。对常用细胞系和新细胞系的MOI在0-32之间进行评估。结果:慢病毒载体滴度随载体接种量、靶细胞类型和数量、载体稳定性和载体对靶细胞吸附时间长短等转导过程条件的变化而变化。载体的接种量和靶细胞的数量决定了基因转移事件的频率,尽管不成比例。载体暴露于靶细胞的时间也影响转导结果。改变这些参数导致同一种病媒菌的病媒滴度差异大于50倍。载体滴定中常用的细胞系对慢病毒载体介导的基因转移的敏感性低于一种新的细胞系frl19。在4种不同细胞系的MOI 0-32范围内,MOI越大,获得的基因转移效率越高。结论:转导过程中的几个变量影响了体外载体滴定,并导致相同载体的值差异很大,从而使MOI预测基因转移事件的使用复杂化。常用靶细胞系低估载体滴度。然而,在一定的MOI范围内,如果在载体滴定过程中观察到严格控制的条件,包括使用敏感细胞系(如FRL 19)进行载体滴定,则有可能预测慢载体介导的基因转移事件。
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