87 Analyzing metabolomic profile of bovine IVF and somatic cell nuclear transfer embryos through Raman spectroscopy

Abstract

While knowledge of early embryo development and viability has continually increased, there is still a need for noninvasive methods to identify embryos with the highest chances of development to term when transferred. The most widely used technique, morphological assessment, is highly subjective and limited by personnel experience. Spent media from invitro culture could be used as a valuable noninvasive marker for embryo quality assessment. Raman spectroscopy has proven to be a powerful tool for identifying the molecular characteristics of spent culture media by measuring vibration of chemical bonds, allowing for metabolomic profiling of varying stages and quality of embryos. It is well documented that embryos produced through somatic cell nuclear transfer (SCNT) result in lower pregnancy rates and higher incidences of pregnancy loss when compared with embryos produced through IVF (Heyman et al. 2002 Biol. Reprod. 66, 1-13). This study was designed to examine differences in spent media between bovine embryos produced by IVF and SCNT. The SCNT embryos with a metabolomic profile more similar to IVF embryos may have a higher developmental competence. Bovine cumulus-oocyte complexes (COCs) were retrieved from abattoir-derived ovaries and matured for 21h in maturation medium. After IVM, COCs were either used for IVF or SCNT and cultured in 50μL droplets of synthetic oviductal fluid medium + fetal bovine serum in groups of 45 from Day 0-5. On Day 5, embryos that had reached morula stage were placed in individual droplets of 13μL of synthetic oviductal fluid + bovine serum albumin until Day 7. All embryos were cultured at 38.5°C and 5% CO2. On Day 7 embryos were assessed for developmental stage and quality and 10μL of medium from individual culture drops was collected for Raman spectroscopy. Samples were loaded on an MgF2 optical window, dried, and analysed using a 785nm near-infrared laser in the spectral range of 600 to 1800cm−1. Raw Raman data were first pre-processed by baseline correction (asymmetric least-squares smoothing) and normalization. Principal component analysis and partial least squares were then applied to reduce data dimensions. The score of the most significant principal components from principal component analysis and the optimum number of scores from partial least squares were used for linear discriminant analysis. Spent media samples from 4 SCNT embryos, 3 IVF embryos, and 3 empty media samples were analysed, with 50 spectra obtained from each sample. Preliminary data showed grouping of medium containing embryos developed to blastocyst from medium containing embryos arrested at morula or empty medium. We also saw grouping of medium containing SCNT embryos from medium containing IVF embryos within both the morula and blastocyst stage from empty medium. This shows evidence of metabolomic differences between embryos of different developmental potential and embryos produced by IVF and SCNT. Further investigation of the Raman profile of these groups can display specific differences in chemical components and help to identify candidate genes causing differing metabolism of these groups.