Optimization of lipofection protocols for CRISPR/Cas9 delivery in porcine zona pellucida intact oocytes: A study of coincubation duration and reagent efficacy

A priority to facilitate the application of lipofection to generate genetically modified porcine embryos and animals will be the use of zona pellucida (ZP)-intact oocytes and zygotes. Recently, our group produced genetically modified embryos by lipofection of ZP-intact oocytes during in vitro fertilization (IVF). This study investigates the effect of two commercial lipofection reagents, Lipofectamine 3000 and Lipofectamine CRISPRMAX, on embryo development and mutation efficiency in ZP-intact porcine oocytes. We compared these reagents with the electroporation method and a control group using two sgRNAs targeting the CAPN3 and CD163 genes. The detrimental effects on cleavage rates were observed in both lipofection treatments compared to the control and electroporated groups. However, blastocyst rates were higher in the Lipofectamine 3000 group than in the electroporated group for both genes. Mutation parameters varied by target gene, with Lipofectamine 3000 achieving higher mutation rates for CD163, while all groups were similar for the CAPN3 gene. Overall efficiency was similar for both lipofectamines, confirming their feasibility for use. In addition, we evaluated the effect of coincubation time (4, 8, and 24 h) on IVF outcomes, embryo development, and mutation parameters. Results indicated that an 8-h coincubation period optimized fertilization and mutation efficiency without significant toxic effects. This study demonstrates that lipofection with either Lipofectamine 3000 or CRISPRMAX during IVF is an effective method for generating genetically modified porcine embryos without the need for specialized equipment or trained personnel, with efficiencies similar to or greater than electroporation. This study also highlights the importance of optimizing reagent selection and coincubation times. There is no difference between Lipofectamine 3000 and CRISPRMAXTM in terms of embryo development and mutation efficiency, and under our experimental conditions, the optimal coincubation time with lipofectamine is 8 h.