Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing

In the present study, we discovered that mouse oocyte maturation was inhibited by simulated microgravity via disturbing spindle organization. We cultured mouse oocytes under microgravity condition simulated by NASA's rotary cell culture system, examined the maturation rate and observed the spin...

Descripción completa

Detalles Bibliográficos
Autores principales: Wu, Changli, Guo, Xinzheng, Wang, Fang, Li, Xiaoshuang, Tian, X. Cindy, Li, Li, Wu, Zhenfang, Zhang, Shouquan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3135614/
https://www.ncbi.nlm.nih.gov/pubmed/21765954
http://dx.doi.org/10.1371/journal.pone.0022214
_version_ 1782208135149125632
author Wu, Changli
Guo, Xinzheng
Wang, Fang
Li, Xiaoshuang
Tian, X. Cindy
Li, Li
Wu, Zhenfang
Zhang, Shouquan
author_facet Wu, Changli
Guo, Xinzheng
Wang, Fang
Li, Xiaoshuang
Tian, X. Cindy
Li, Li
Wu, Zhenfang
Zhang, Shouquan
author_sort Wu, Changli
collection PubMed
description In the present study, we discovered that mouse oocyte maturation was inhibited by simulated microgravity via disturbing spindle organization. We cultured mouse oocytes under microgravity condition simulated by NASA's rotary cell culture system, examined the maturation rate and observed the spindle morphology (organization of cytoskeleton) during the mouse oocytes meiotic maturation. While the rate of germinal vesicle breakdown did not differ between 1 g gravity and simulated microgravity, rate of oocyte maturation decreased significantly in simulated microgravity. The rate of maturation was 8.94% in simulated microgravity and was 73.0% in 1 g gravity. The results show that the maturation of mouse oocytes in vitro was inhibited by the simulated microgravity. The spindle morphology observation shows that the microtubules and chromosomes can not form a complete spindle during oocyte meiotic maturation under simulated microgravity. And the disorder of γ-tubulin may partially result in disorganization of microtubules under simulated microgravity. These observations suggest that the meiotic spindle organization is gravity dependent. Although the spindle organization was disrupted by simulated microgravity, the function and organization of microfilaments were not pronouncedly affected by simulated microgravity. And we found that simulated microgravity induced oocytes cytoplasmic blebbing via an unknown mechanism. Transmission electron microscope detection showed that the components of the blebs were identified with the cytoplasm. Collectively, these results indicated that the simulated microgravity inhibits mouse oocyte maturation via disturbing spindle organization and inducing cytoplasmic blebbing.
format Online
Article
Text
id pubmed-3135614
institution National Center for Biotechnology Information
language English
publishDate 2011
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-31356142011-07-15 Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing Wu, Changli Guo, Xinzheng Wang, Fang Li, Xiaoshuang Tian, X. Cindy Li, Li Wu, Zhenfang Zhang, Shouquan PLoS One Research Article In the present study, we discovered that mouse oocyte maturation was inhibited by simulated microgravity via disturbing spindle organization. We cultured mouse oocytes under microgravity condition simulated by NASA's rotary cell culture system, examined the maturation rate and observed the spindle morphology (organization of cytoskeleton) during the mouse oocytes meiotic maturation. While the rate of germinal vesicle breakdown did not differ between 1 g gravity and simulated microgravity, rate of oocyte maturation decreased significantly in simulated microgravity. The rate of maturation was 8.94% in simulated microgravity and was 73.0% in 1 g gravity. The results show that the maturation of mouse oocytes in vitro was inhibited by the simulated microgravity. The spindle morphology observation shows that the microtubules and chromosomes can not form a complete spindle during oocyte meiotic maturation under simulated microgravity. And the disorder of γ-tubulin may partially result in disorganization of microtubules under simulated microgravity. These observations suggest that the meiotic spindle organization is gravity dependent. Although the spindle organization was disrupted by simulated microgravity, the function and organization of microfilaments were not pronouncedly affected by simulated microgravity. And we found that simulated microgravity induced oocytes cytoplasmic blebbing via an unknown mechanism. Transmission electron microscope detection showed that the components of the blebs were identified with the cytoplasm. Collectively, these results indicated that the simulated microgravity inhibits mouse oocyte maturation via disturbing spindle organization and inducing cytoplasmic blebbing. Public Library of Science 2011-07-13 /pmc/articles/PMC3135614/ /pubmed/21765954 http://dx.doi.org/10.1371/journal.pone.0022214 Text en Wu et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Wu, Changli
Guo, Xinzheng
Wang, Fang
Li, Xiaoshuang
Tian, X. Cindy
Li, Li
Wu, Zhenfang
Zhang, Shouquan
Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing
title Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing
title_full Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing
title_fullStr Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing
title_full_unstemmed Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing
title_short Simulated Microgravity Compromises Mouse Oocyte Maturation by Disrupting Meiotic Spindle Organization and Inducing Cytoplasmic Blebbing
title_sort simulated microgravity compromises mouse oocyte maturation by disrupting meiotic spindle organization and inducing cytoplasmic blebbing
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3135614/
https://www.ncbi.nlm.nih.gov/pubmed/21765954
http://dx.doi.org/10.1371/journal.pone.0022214
work_keys_str_mv AT wuchangli simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT guoxinzheng simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT wangfang simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT lixiaoshuang simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT tianxcindy simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT lili simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT wuzhenfang simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing
AT zhangshouquan simulatedmicrogravitycompromisesmouseoocytematurationbydisruptingmeioticspindleorganizationandinducingcytoplasmicblebbing

Ejemplares similares