Pereyra-Bonnet Federico, Gibbons Alejandro, Cueto Marcela, Sipowicz Pablo, Fernández-Martín Rafael, Salamone Daniel
Facultad de Agronomía, Universidad de Buenos Aires, Argentina.
J Reprod Dev. 2011 Apr;57(2):188-96. doi: 10.1262/jrd.10-063a. Epub 2010 Nov 10.
Transgenesis constitutes an important tool for pharmacological protein production and livestock improvement. We evaluated the potential of laparoscopic insemination (LI), in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI) to produce egfp-expressing ovine embryos, using spermatozoa previously exposed to pCX-EGFP plasmid in two different sperm/DNA incubation treatments: "Long Incubation" (2 h at 17 C) and "Short Incubation" (5 min at 5 C). For LI, Merino sheep were superovulated and inseminated with treated fresh semen from Merino rams. The embryos were recovered by flushing the uterine horns. For IVF and ICSI, slaughterhouse oocytes were fertilized with DNA-treated frozen/thawed sperm. All recovered embryos were exposed to blue light (488 nm) to determine green fluorescent morulae and blastocysts rates. High cleavage and morulae/blastocysts rates accompanied the LI and IVF procedures, but no egfp-expressing embryos resulted. In contrast, regardless of the sperm/plasmid incubation treatment, egfp-expressing morulae and blastocysts were always obtained by ICSI, and the highest transgenesis rate (91.6%) was achieved with Short Incubation. In addition, following the incubation of labeled plasmid DNA, after Long or Short exposure treatments, with fresh or frozen/thawed spermatozoa, only non-motile fresh spermatozoa could maintain an attached plasmid after washing procedures. No amplification product could be detected following PCR treatment of LI embryos whose zonae pellucidae (ZP) had been removed. In order to establish conditions for transgenic ICSI in the ovine, we compared three different activation treatments, and over 60% of the obtained blastocysts expressed the transgene. For ICSI embryos, FISH analysis found possible signals compatible with integration events. In conclusion, our results show that in the ovine, under the conditions studied, ICSI is the only method capable of producing exogenous gene-expressing embryos using spermatozoa as vectors.
转基因技术是生产药用蛋白质和改良家畜的重要工具。我们评估了腹腔镜授精(LI)、体外受精(IVF)和胞浆内单精子注射(ICSI)生产表达增强型绿色荧光蛋白(egfp)的绵羊胚胎的潜力,使用在两种不同精子/DNA孵育处理中预先暴露于pCX-EGFP质粒的精子:“长时间孵育”(17℃下2小时)和“短时间孵育”(5℃下5分钟)。对于LI,美利奴绵羊经超数排卵后,用来自美利奴公羊经处理的新鲜精液进行授精。通过冲洗子宫角回收胚胎。对于IVF和ICSI,用经DNA处理的冷冻/解冻精子使屠宰场采集的卵母细胞受精。所有回收的胚胎均暴露于蓝光(488nm)下,以确定绿色荧光桑葚胚和囊胚率。LI和IVF程序伴随着高分裂率和桑葚胚/囊胚率,但未产生表达egfp的胚胎。相比之下,无论精子/质粒孵育处理如何,通过ICSI总能获得表达egfp的桑葚胚和囊胚,并且短时间孵育的转基因率最高(91.6%)。此外,在标记的质粒DNA与新鲜或冷冻/解冻精子进行长时间或短时间暴露处理孵育后,只有不活动的新鲜精子在洗涤程序后仍能保持附着的质粒。对去除透明带(ZP)的LI胚胎进行PCR处理后,未检测到扩增产物。为了建立绵羊转基因ICSI的条件,我们比较了三种不同的激活处理,超过60%的获得的囊胚表达了转基因。对于ICSI胚胎,荧光原位杂交(FISH)分析发现了与整合事件兼容的可能信号。总之,我们的结果表明,在绵羊中,在所研究条件下,ICSI是唯一能够使用精子作为载体生产表达外源基因胚胎的方法。
