Cover Story: Oog1, an oocyte-specific gene, encodes the protein belonging to the leucine-rich repeat (LRR) superfamily. LRR is a motif involved in protein-protein interactions. Complete knockout of Oog1 is challenging because five copies of the Oog1 gene are present on chromosomes 4 and 12. Honda et al. generated Oog1 RNA interference (RNAi)-transgenic mice to investigate the effects of Oog1 knockdown on gene expression in the oocytes (Honda et al. Oocyte-specific gene Oog1 suppresses the expression of spermatogenesis-specific genes in oocytes, pp. 297–301). The abundance of spermatogenesis-specific transcripts was elevated in the Oog1 knockdown ovaries. In addition, a few abnormal oocytes were observed in 6-month-old Oog1 knockdown mouse ovaries. These findings suggested that OOG1 suppresses the expression of spermatogenesis-specific genes in the oocytes and plays important roles during oogenesis.
Cover Story :
Based on the results obtained for the studies of in vitro development of cloned embryos, epigenetic modifications have been widely used for cloning farm animals. However, such studies remain few in canids because of the lack of optimal in vitro oocyte maturation, embryo culture, and superovulation system. Kim et al. investigated whether a histone deacetylase inhibitor used in dog to pig interspecies somatic cell nuclear transfer (iSCNT), which improves nuclear reprogramming, could be used in dog cloning (Kim et al.: Suberoylanilide hydroxamic acid during in vitro culture improves development of dog-pig interspecies cloned embryos but not dog cloned embryos. p. 277–282). Porcine oocytes supported reprogramming of nuclei from dog fibroblasts up to early developmental stage of iSCNT embryos, and treating the embryos with suberoylanilide hydroxamic acid (SAHA) increased their developmental competence. However, unfortunately, SAHA treatment for dog to pig iSCNT embryos was not sufficient to improve their in vivo development because three and one clones were successfully produced from the control and SAHA treated groups, respectively.
Cover Story :
Recently, the effects of macromolecular crowding on cultured cells have gathered increasing interest. Crowded culture medium prepared by the addition of polyvinylpyrrolidone (PVP; Mw 360,000) positively influences the viability of oocytes during in vitro growth. Mizumachi et al. found that crowding affects a wide range of factors, including oocyte viability, complex morphology, and intimate conjunction of oocytes with cumulus/granulosa cells across the zona pellucida (Mizumachi et al. Macromolecular crowded conditions strengthen contacts between mouse oocytes and companion granulosa cells during in vitro growth, pp. 153-160). Confocal laser scanning microscopy indicated a higher number of transzonal processes (TZPs) reaching the oocyte from cumulus cells in 2% PVP medium than in 0% PVP medium.
Mammary Growth and Regression -Regulation of Milk Synthesis-
Released: October 20, 2010 | Volume 42 Issue 6 Pages j143-j150
Relation of Prostaglandin F2α to a Function of Bovine Corpus Luteum in vitro
Released: May 15, 2008 | Volume 39 Issue 6 Pages j61-j66
Shizuo KAWAKAMI, Takaharu OHCHI, Masao SHINO, Hidemichi KOHMOTO
Monitoring Metabolic Health of Dairy Cattle in the Transition Period
Released: August 10, 2010 | Volume 56 Issue S Pages S29-S35
Follicular Growth and Atresia in Mammalian Ovaries: Regulation by Survival and Death of Granulosa Cells
Released: March 22, 2012 | Volume 58 Issue 1 Pages 44-50
Fuko MATSUDA, Naoko INOUE, Noboru MANABE, Satoshi OHKURA