Oocyte selection based on glucose-6-phosphate dehydrogenase (G6PDH) activity has been successfully used to differentiate between competent and incompetent bovine oocytes. However, the intrinsic molecular and subcellular characteristics of these oocytes have not yet been investigated. Here, we aim to identify molecular and functional markers associated with oocyte developmental potential when selected based on G6PDH activity. Immature compact cumulus-oocyte complexes were stained with brilliant cresyl blue (BCB) for 90 min. Based on their colouration, oocytes were divided into BCB K (colourless cytoplasm, high G6PDH activity) and BCB C (coloured cytoplasm, low G6PDH activity). The chromatin configuration of the nucleus and the mitochondrial activity of oocytes were determined by fluorescence labelling and photometric measurement. The abundance and phosphorylation pattern of protein kinases Akt and MAP were estimated by Western blot analysis. A bovine cDNA microarray was used to analyse the gene expression profiles of BCB C and BCB K oocytes. Consequently, marked differences were found in blastocyst rate at day 8 between BCB C (33.1G3.1%) and BCB K (12.1G1.5%) oocytes. Moreover, BCB C oocytes were found to show higher phosphorylation levels of Akt and MAP kinases and are enriched with genes regulating transcription (SMARCA5), cell cycle (nuclear autoantigenic sperm protein, NASP ) and protein biosynthesis (RPS274A and mRNA for elongation factor 1a, EF1A). BCB K oocytes, which revealed higher mitochondrial activity and still nucleoli in their germinal vesicles, were enriched with genes involved in ATP synthesis (ATP5A1), mitochondrial electron transport (FL405), calcium ion binding (S100A10) and growth factor activity (bone morphogenetic protein 15, BMP15). This study has evidenced molecular and subcellular organisational differences of oocytes with different G6PDH activity.
Oocyte selection based on glucose-6-phosphate dehydrogenase (G6PDH) activity has been successfully used to differentiate between competent and incompetent bovine oocytes (Alm 2005 Theriogenology 63, 2194–2205). However, the intrinsic molecular and subcellular characteristics of these oocytes have not yet been investigated. Here we aim to compare the developmental, molecular, and subcellular characteristics of oocytes selected using brilliant cresyl blue (BCB) staining based on G6PDH activity. Immature compact cumulus–oocyte complexes (COCs) were stained with 26 µm BCB (B-5388, Sigma-Alderich, Taufenkirchen, Germany) for 90 min. Based on their coloration, oocytes were divided into BCB– (colorless cytoplasm, high G6PDH activity) and BCB+ (colored cytoplasm, low G6PDH activity). The chromatin configuration and the mitochondrial activity of oocytes were determined by fluorescence labelling and photometric measurement (n = 337). The abundance and phosphorylation pattern of protein kinases Akt and MAP kinase were estimated by western blot analysis (n = 500). A bovine cDNA microarray with 2000 clones was used to analyze the gene expression profiles of BCB+ and BCB– oocytes (n = 580). BCB+ oocytes were found to result in a higher blastocyst rate (33.1 � 3.1%) until Day 8 of in vitro culture compared to BCB– ones (12.1 � 1.5%). Moreover, BCB+ oocytes showed higher phosphorylation levels of Akt and MAP kinase compared to the BCB– oocytes. After array data analysis, BCB+ oocytes were found to be enriched with genes regulating transcription (SMARCA5), cell cycle (NASP), and protein biosynthesis (RPS274A and EEF1A1), while the BCB– oocytes had a higher level of genes involved in ATP synthesis (ATP5A1), mitochondrial electron transport (FL405), calcium ion binding (S100A10), and growth factor activity (BMP-15). Independent real-time quantitative PCR validated 90% (9/10) of the genes investigated to be in agreement with the array expression profile. The study has shown evidence of differences in molecular and subcellular organization of oocytes with different G6PDH activity.
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