Role of actin filaments in the hatching process of mouse blastocyst

Yong Pil Cheon; Myung Chan Gye; Chung-hoon Kim; Byung Moon Kang; Yoon Seok Chang; Sung Rye Kim; Moon Kyoo Kim

doi:10.1017/S0967199499000477

Abstract

Hatching has been suggested to occur as a result of protease-mediated lysis and the blastocoele tension. However, even if rupturing is initiated at multiple sites, interestingly only a single site is used for escape. This implies that there are several mechanisms involved in hatching. In this study, the involvement of actin filaments in mouse embryo hatching was examined. We treated mouse embryos with cytochalasin B for 12 h or 24 h at the morula, middle blastocyst, expanded blastocyst, lobe-formed blastocyst and hatching blastocyst stages, and measured the amount and distribution of actin filaments using a confocal microscope. At morula, middle blastocyst, lobe-formed blastocyst and hatching blastocyst stages embryonic development was completely arrested by cytochalasin B. However, when transferred to cytochalasin-B-free medium, the embryos resumed development and escaped the zona pellucida. In the expanded blastocysts development was almost completely inhibited by cytochalasin B, but rupturing occurred in some embryos. However, development stopped completely at the ruptured stage. Distribution of actin filaments was prominent at rupturing and hatching sites regardless of cytochalasin B treatment. The amount of actin filaments was prominent at hatching embryos compared with other developmental stages of embryos. These actin filaments were distributed intensively between the trophectodermal cells, and formed locomotion patterns. Taken together, these results suggest that not only tension and lytic enzymes are required to rupture, but the activity of actin filaments may have a crucial role in the process of hatching.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Xu, Jia-Sen Cheung, Tak-Ming Ting-Hon Chan, Samuel Ho, Pak-Chung and Shu-Biu Yeung, William 2001. Temporal Effect of Human Oviductal Cell and Its Derived Embryotrophic Factors on Mouse Embryo Development1. Biology of Reproduction, Vol. 65, Issue. 5, p. 1481.

NIIMURA, Sueo and WAKASA, Ryoko 2001. Hatching and Contraction in Mouse Blastocysts Treated with Cytochalasin B.. Journal of Reproduction and Development, Vol. 47, Issue. 5, p. 317.

Tsuzuki, Yasuhiro Ashizawa, Koji and Fujihara, Noboru 2003. Effects of Cytochalasin-D on the Maintenance of Blastocoels of Bovine Blastocysts Produced In Vitro. Journal of Mammalian Ova Research, Vol. 20, Issue. 3, p. 106.

Jelinkova, Ladislava Pavelkova, Jana Strehler, Erwin Paulus, Wolfgang Zivny, Jaroslav and Sterzik, Karl 2003. Improved implantation rate after chemical removal of the zona pellucida. Fertility and Sterility, Vol. 79, Issue. 6, p. 1299.

Yae, Kojiro Keng, Vincent W. Koike, Masato Yusa, Kosuke Kouno, Michiyoshi Uno, Yoshihiro Kondoh, Gen Gotow, Takahiro Uchiyama, Yasuo Horie, Kyoji and Takeda, Junji 2006. Sleeping Beauty Transposon-Based Phenotypic Analysis of Mice: Lack of Arpc3 Results in Defective Trophoblast Outgrowth. Molecular and Cellular Biology, Vol. 26, Issue. 16, p. 6185.

NISHIO, EIJI MORIWAKI, TAKAYUKI YOSHII, KUMIKO and UDAGAWA, YASUHIRO 2006. Chemical removal of zona pellucida versus laser assisted hatching after repeated failures of assisted reproductive technology. Reproductive Medicine and Biology, Vol. 5, Issue. 4, p. 263.

Kutlu, Pelin Atvar, Ozhan and Vanlioglu, Omer Faruk 2010. Laser assisted zona thinning technique has no beneficial effect on the ART outcomes of two different maternal age groups. Journal of Assisted Reproduction and Genetics, Vol. 27, Issue. 8, p. 457.

SUZUKI, Ryosuke and NIIMURA, Sueo 2010. Hatching and Distribution of Actin Filaments in Mouse Blastocysts Whose Activities of Protein Kinase A were Suppressed by H-89. Journal of Reproduction and Development, Vol. 56, Issue. 1, p. 103.

Miyata, Hirotoshi Matsubayashi, Hidehiko Fukutomi, Noriko Matsuba, Junko Koizumi, Azusa and Tomiyama, Tatsuhiro 2010. Relevance of the site of assisted hatching in thawed human blastocysts: a preliminary report. Fertility and Sterility, Vol. 94, Issue. 6, p. 2444.

Hildebrand, Sebastian Hultin, Sara Subramani, Aravindh Petropoulos, Sophie Zhang, Yuanyuan Cao, Xiaofang Mpindi, John Kalloniemi, Olli Johansson, Staffan Majumdar, Arindam Lanner, Fredrik and Holmgren, Lars 2017. The E-cadherin/AmotL2 complex organizes actin filaments required for epithelial hexagonal packing and blastocyst hatching. Scientific Reports, Vol. 7, Issue. 1,

Onodera, Yohei Takahashi, Kazumasa Goto, Mayumi Anzai, Mibuki Ono, Natsuki Shirasawa, Hiromitsu Sato, Wataru Miura, Hiroshi Sato, Naoki Sato, Akira Kumazawa, Yukiyo Terada, Yukihiro and Fraidenraich, Diego 2017. The location of “8”-shaped hatching influences inner cell mass formation in mouse blastocysts. PLOS ONE, Vol. 12, Issue. 4, p. e0175150.

An, Liyou Liu, Yanhong Li, Mingyang Liu, Zhihui Wang, Zhisong Dai, Yujian Presicce, Giorgio Antonio and Du, Fuliang 2021. Site specificity of blastocyst hatching significantly influences pregnancy outcomes in mice. The FASEB Journal, Vol. 35, Issue. 9,

Liu, Yaqiong Jones, Celine and Coward, Kevin 2022. An investigation of mechanisms underlying mouse blastocyst hatching: a ribonucleic acid sequencing study. F&S Science, Vol. 3, Issue. 1, p. 35.

Zhang, Chunxia Wang, Meng Li, Yisi and Zhang, Yi 2022. Profiling and functional characterization of maternal mRNA translation during mouse maternal-to-zygotic transition. Science Advances, Vol. 8, Issue. 5,

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Role of actin filaments in the hatching process of mouse blastocyst

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Role of actin filaments in the hatching process of mouse blastocyst

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