early embryonic development
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2022 ◽  
Vol 11 (1) ◽  
Author(s):  
Xiukun Wang ◽  
Guang Hu

AbstractStem cell-based embryo models present new opportunities to study early embryonic development. In a recent study, Kagawa et al. identified an approach to create human pluripotent stem cell-based blastoids that resemble the human blastocysts. These blastoids efficiently generated analogs of the EPI, TE, PrE lineages with transcriptomes highly similar to those found in vivo. Furthermore, the formation of these lineages followed the same sequence and pace of blastocyst development, and was also dependent on the same pathways required for lineage specification. Finally, the blastoids were capable of attaching to stimulated endometrial cells to mimic the process of implantation. While more comprehensive analysis is needed to confirm its validity and usefulness, this new blastoid system presents the latest development in the attempt to model early human embryogenesis in vitro.


Author(s):  
Feng Li ◽  
Ying Ye ◽  
Xiaohua Lei ◽  
Wensheng Zhang

With the development of science and technology, mankind’s exploration of outer space has increased tremendously. Settling in outer space or on other planets could help solve the Earth’s resource crisis, but such settlement will first face the problem of reproduction. There are considerable differences between outer space and the Earth’s environment, with the effects of gravity being one of the most significant. Studying the possible effects and underlying mechanisms of microgravity on embryonic stem cell (ESC) differentiation and embryonic development could help provide solutions to healthy living and reproduction in deep space. This article summarizes recent research progress on the effects of microgravity on ESCs and early embryonic development and proposes hypotheses regarding the potential mechanisms. In addition, we discuss the controversies and key questions in the field and indicate directions for future research.


Reproduction ◽  
2021 ◽  
Vol 162 (6) ◽  
pp. R99-R109
Author(s):  
Megumi Ibayashi ◽  
Ryutaro Aizawa ◽  
Junichiro Mitsui ◽  
Satoshi Tsukamoto

Lipid droplets (LDs) consist of a core of neutral lipids such as triacylglycerols and cholesteryl esters covered by a phospholipid monolayer. Recent studies have shown that LDs not only store neutral lipids but are also associated with various physiological functions. LDs are found in most eukaryotic cells and vary in size and quantity. It has long been known that mammalian oocytes contain LDs. Porcine and bovine oocytes contain substantial amounts of LDs, which cause their cytoplasm to darken, whereas mouse and human oocytes are translucent due to their low LD content. A sufficient amount of LDs in mammalian oocytes has been thought to be associated with oocyte maturation and early embryonic development, but the necessity of LDs has been questioned because embryonic development proceeds normally even when LDs are removed. However, recent studies have revealed that LDs play a crucial role during implantation and that maintaining an appropriate amount of LDs is important for early embryonic development, even in mammalian species with low amounts of LDs in their oocytes. This suggests that a fine-tuned balance of LD content is essential for successful mammalian embryonic development. In this review, we discuss the physiological importance of LDs in mammalian oocytes and preimplantation embryos based on recent findings on LD biology.


2021 ◽  
Vol 19 (1) ◽  
Author(s):  
Juan Zeng ◽  
Nengqing Liu ◽  
Yinghong Yang ◽  
Yi Cheng ◽  
Yuanshuai Li ◽  
...  

Abstract Background The quality of the early embryo is vital to embryonic development and implantation. As a highly conserved serine/threonine kinase, p21-activated kinase 2 (Pak2) participates in diverse biologic processes, especially in cytoskeleton remodeling and cell apoptosis. In mice, Pak2 knock out and endothelial depletion of Pak2 showed embryonic lethality. However, the role of Pak2 in preimplantation embryos remains unelucidated. Methods In the present work, Pak2 was reduced using a specific small interfering RNA in early mouse embryos, validating the unique roles of Pak2 in spindle assembly and DNA repair during mice early embryonic development. We also employed immunoblotting, immunostaining, in vitro fertilization (IVF) and image quantification analyses to test the Pak2 knockdown on the embryonic development progression, spindle assembly, chromosome alignment, oxidative stress, DNA lesions and blastocyst cell apoptosis. Areas in chromatin with γH2AX were detected by immunofluorescence microscopy and serve as a biomarker of DNA damages. Results We found that Pak2 knockdown significantly reduced blastocyst formation of early embryos. In addition, Pak2 reduction led to dramatically increased abnormal spindle assembly and chromosomal aberrations in the embryos. We noted the overproduction of reactive oxygen species (ROS) with Pak2 knockdown in embryos. In response to DNA double strand breaks (DSBs), the histone protein H2AX is specifically phosphorylated at serine139 to generate γH2AX, which is used to quantitative DSBs. In this research, Pak2 knockdown also resulted in the accumulation of phosphorylated γH2AX, indicative of increased embryonic DNA damage. Commensurate with this, a significantly augmented rate of blastocyst cell apoptosis was detected in Pak2-KD embryos compared to their controls. Conclusions Collectively, our data suggest that Pak2 may serve as an important regulator of spindle assembly and DNA repair, and thus participate in the development of early mouse embryos.


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