Roles of actin binding proteins in mammalian oocyte maturation and beyond

Namgoong, Suk; Kim, Nam‐Hyung

doi:10.1080/15384101.2016.1181239

Cited by 32 publications

(27 citation statements)

References 179 publications

(288 reference statements)

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“…These results firmly suggest that treatment with compound 4 impairs the formation of meiotic spindles during mouse oocyte maturation. Considering previously described roles of PLK1 in meiotic spindle formation, the results of the present study strongly suggest that the inhibitory effect of macrocyclic compound 4 results in the inhibition of PLK1, and therefore causes depletion of MTOC formation.…”

Section: Resultssupporting

confidence: 81%

“…Treatment with 4 also increases the fraction of oocytes with al arge polar body (13.7 %, n = 27/196), i.e.,p olar bodies > 50 %o ft he oocyte's diameter,w hereas none of the untreated oocytes showeda bnormally large polar bodies( 0%, n = 0/120). Considering that larger polar body or af ailure of asymmetricd ivision is caused by defects in spindle migration, [17] theser esults suggestt hat treatment with 4 negatively affects spindle migration during oocyte maturation.…”

Section: Biological Evaluationsmentioning

confidence: 90%

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Pyrrole‐Based Macrocyclic Small‐Molecule Inhibitors That Target Oocyte Maturation

et al. 2017

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Polo-like kinase 1 (PLK1) plays crucial roles in various stages of oocyte maturation. Recently, we reported that the peptidomimetic compound AB103-8, which targets the polo box domain (PBD) of PLK1, affects oocyte meiotic maturation and the resumption of meiosis. However, to overcome the drawbacks of peptidic compounds, we designed and synthesized a series of pyrrole-based small-molecule inhibitors and tested them for their effects on the rates of porcine oocyte maturation. Among them, the macrocyclic compound (E/Z)-3-(2,16-dioxo-19-(4-phenylbutyl)-3,19-diazabicyclo[15.2.1]icosa-1(20),6,17-trien-3-yl)propyl dihydrogen phosphate (4) showed the highest inhibitory activity with enhanced inhibition against embryonic blastocyst formation. Furthermore, the addition of this compound to culture media efficiently blocked the maturation of porcine and mouse oocytes, indicating its ability to penetrate the zona pellucida and cell membrane. We investigated mouse oocytes treated with compound 4, and the resulting impairment of spindle formation confirmed PLK1 inhibition. Finally, molecular modeling studies with PLK1 PBD also confirmed the presence of significant interactions between compound 4 and PLK1 PBD binding pocket residues, including those in the phosphate, tyrosine-rich, and pyrrolidine binding pockets. Collectively, these results suggest that the macrocyclic compound 4 may serve as a promising template for the development of novel contraceptive agents.

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Section: Resultssupporting

confidence: 81%

Section: Biological Evaluationsmentioning

confidence: 90%

Pyrrole‐Based Macrocyclic Small‐Molecule Inhibitors That Target Oocyte Maturation

et al. 2017

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“…The increased PB size and symmetric division of oocytes is one of the main phenotypes associated with spindle migration failure during meiosis I (24). Therefore, we performed time‐lapse microscopy to investigate the effects of FLNA knockdown on spindle migration and PBE.…”

Section: Resultsmentioning

confidence: 99%

“…Dynamic changes in the actin network are essential in cortex migration of the spindle and cortical polarity to ensure asymmetric division during meiotic maturation. The characteristic feature of these processes is the dynamic transition between monomeric G‐actin and filamentous F‐actin, which is tightly regulated by a large number of actin‐binding proteins (24). Recent studies have revealed the roles of many actin‐binding proteins in oocyte maturation; however, most of their functions remain unexplored.…”

Section: Discussionmentioning

confidence: 99%

Filamin A is required for spindle migration and asymmetric division in mouse oocytes

et al. 2017

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Dynamic changes in the actin network are crucial for the cortical migration of spindles and establishment of polarity, to ensure asymmetric division during meiotic maturation. In this study, filamin A (FLNA) was found to be an essential actin regulator that controlled spindle migration and asymmetric division during oocyte meiosis. FLNA was localized in the cytoplasm and enriched at the cortex and near the chromosomes. Knockdown of FLNA impaired meiotic asymmetric division and spindle migration with a decrease in the amount of cytoplasmic actin mesh and cortical actin levels. Moreover, FLNA knockdown reduced the phosphorylation of cofilin and Rho kinase (ROCK) near the spindle. Similar phenotypes, such as decreased filament actin levels, impaired spindle migration and polar body extrusion, were observed when active cofilin (S3A) was overexpressed or ROCK was inhibited. Notably, we found that FLNA and ROCK interacted directly in mouse oocytes. Taken together, our results show that FLNA plays crucial roles in asymmetric division during meiotic maturation by regulating ROCK-cofilin-mediated actin reorganization.-Wang, H., Guo J., Lin, Z., Namgoong, S., Oh, J. S., Kim, N.-H. Filamin A is required for spindle migration and asymmetric division in mouse oocytes. FASEB J. 31, 3677-3688 (2017

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“…17 The roles of microfilaments and/or microtubules in spindle migration and anchorage to the oocyte cortex have been reported for various invertebrate and mammalian oocytes, 2 and several factors have recently been shown to regulate oocyte polarity and asymmetric division. [18][19][20][21] However, the role of centrosomes in this process is still not well understood. We showed that depletion of centriolin caused a failure of peripheral meiotic spindle migration and polarity establishment in a high proportion of oocytes, as well as elongated central spindles, leading to symmetric divisions, as indicated by the production of 2 same-sized cells or the formation of a large polar body.…”

Section: Discussionmentioning

confidence: 99%

Centriolin, a centriole-appendage protein, regulates peripheral spindle migration and asymmetric division in mouse meiotic oocytes

et al. 2017

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Unlike somatic cells mitosis, germ cell meiosis consists of 2 consecutive rounds of division that segregate homologous chromosomes and sister chromatids, respectively. The meiotic oocyte is characterized by an absence of centrioles and asymmetric division. Centriolin is a relatively novel centriolar protein that functions in mitotic cell cycle progression and cytokinesis. Here, we explored the function of centriolin in meiosis and showed that it is localized to meiotic spindles and concentrated at the spindle poles and midbody during oocyte meiotic maturation. Unexpectedly, knockdown of centriolin in oocytes with either siRNA or Morpholino micro-injection, did not affect meiotic spindle organization, cell cycle progression, or cytokinesis (as indicated by polar body emission), but led to a failure of peripheral meiotic spindle migration, large polar body emission, and 2-cell like oocytes. These data suggest that, unlike in mitotic cells, the centriolar protein centriolin does not regulate cytokinesis, but plays an important role in regulating asymmetric division of meiotic oocytes.

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Roles of actin binding proteins in mammalian oocyte maturation and beyond

Cited by 32 publications

References 179 publications

Pyrrole‐Based Macrocyclic Small‐Molecule Inhibitors That Target Oocyte Maturation

Pyrrole‐Based Macrocyclic Small‐Molecule Inhibitors That Target Oocyte Maturation

Filamin A is required for spindle migration and asymmetric division in mouse oocytes

Centriolin, a centriole-appendage protein, regulates peripheral spindle migration and asymmetric division in mouse meiotic oocytes

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