Abstract

After fertilization, cell division is required for development during the transition from a zygote to an embryo. Degradation of oocyte transcripts, transcriptional activation of the nucleus, and chromatin remodeling occur during early cleavage divisions. Defects in cell cycle regulation decrease the ability of embryo to grow and can be detrimental. In the rhesus monkey, embryos derived by fertilization of oocytes from prepubertal females or oocytes collected during the non-breeding season undergo cleavage arrest (Schramm and Bavister 1994; Zheng et al. 2001). We employed the Primate Embryo Gene Expression Resource (PREGER; www.Preger.org) to examine the expression pattern of 70 mRNAs involved in cell cycle regulation in rhesus monkey oocytes and embryos derived from different stimulation protocols (non-stimulated, FSH stimulated-in vitro matured, and FSH and hCG stimulated-in vivo matured; Mtango and Latham 2007, 2008; Zheng et al. 2005). The resource encompasses a large, biologically rich set of more than 170 samples with 1 to 4 oocytes or embryos which were constructed using the quantitative amplification and dot blotting method. This method entails the direct lysis of small numbers of oocytes or embryos in a reverse transcription buffer supplemented with nonionic detergent, thereby avoiding RNA losses associated with organic extractions (Brady and Iscove 1993). We find that aberrant regulation of cell cycle regulatory gene mRNAs is a prominent feature of oocytes and embryos of compromised developmental potential (FSH stimulated-moderate reduced potential and NS-severely compromised potential). Of the 56 mRNAs for which expression was detected, there was significant aberrations related to oocyte and embryo quality in the expression of more than half (n = 30), P < 0.05), 26 of 30 display significant differences in metaphase II stage oocytes, 20 being altered in FSH stimulated females and 24 of 30 being altered in NS females. The comparison between monkey and previously reported mouse array expression data (Zeng et al. 2004) revealed striking differences between 2 species. These data provide novel information about disruptions in the expression of genes controlling the cell cycle in oocytes and embryos of compromised developmental potential. We thank Bela Patel, Malgorzata McMenamin, and Ann Marie Paprocki for their technical assistance. We also thank R. Dee Schramm for his contribution to the development of the PREGER resource. This work was supported by National Centers for Research Resources Grant RR-15253.

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