5 ASSESSMENT OF HSP70.1 TRANSCRIPTION LEVELS IN BOVINE EMBRYOS AFTER CUMULUS REMOVAL BY DIFFERENT TECHNIQUES

Abstract

Previous results indicated that there was a difference in transcriptional activity depending on the method used to remove the cumulus cells after IVF (Zeringue et al. 2005 LabChip 5, 86-90). However, specific gene expression was not examined and therefore was the goal of the present study. The objective of this study was to compare the transcription levels of the HSP70.1 gene in bovine in vitro production (IVP) embryos that underwent cumulus removal by vortexing, hand stripping, or microfluidic treatment. Quantitative real-time PCR was used to estimate transcription levels of the HSP70.1 gene in bovine IVP zygotes and two-cell embryos. Transcription levels were compared between embryos that underwent three methods of cumulus removal. Presumptive zygotes were harvested at 2 or 24 h after cumulus removal by vortexing, by hand stripping, or by microfluidic means in order to compare the relative embryonic stress of these three treatments. Bovine in vitro embryos were produced by standard means with the only variable being the cumulus removal technique 24 h after fertilization. At 2 and 24 h post-cumulus removal, randomly selected presumptive zygotes were taken out of culture, preserved in RNAlater (Ambion, Inc., Austin, TX, USA) and stored at -20^°C. RNA was extracted from single embryos via Qiagen's RNeasy Micro kit (Valencia, CA, USA). RNA was amplified and PCR products were detected with SYBR Green 1 (Applied Biosystems, Foster City, CA, USA) using an Opticon Monitor 3 real-time PCR machine (Bio-Rad Laboratories, Inc., Waltham, MA, USA). The threshold cycle (C_T) numbers were determined for the amplified cDNA of the bovine HSP70.1 mRNA and for the housekeeping gene, acidic ribosomal phosphoprotein (PO), used as a reference. Then the amount of HSP70.1 was divided by the amount of PO to obtain a normalized HSP70.1 value expressed as the ratio of HSP70.1/PO. Ratios were analyzed by the GENMOD procedure in SAS (SAS Institute, Inc., Cary, NC, USA) accounting for replicates and treatments. Transcription levels of the HSP70.1 gene did not differ significantly between the microfluidically treated and vortexed groups of zygotes at 2 h post-cumulus removal (P = 0.1032) or between the hand-stripped and vortexed groups (P = 0.7567). In contrast, at 24 h post-cumulus removal, the embryos in the microfluidically treated group showed significantly higher levels of HSP70.1 transcription than the vortexed group (P = 0.0115). The transcription levels did not differ significantly between the hand-stripped and vortexed groups (P = 0.7875). This work strongly suggests that there is de novo RNA transcription in the early embryonic stages of the bovine. In addition to previously described improved developmental kinetics, the use of microfluidics in IVP leads to statistically significant differences in RNA transcription levels of HSP70.1.