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

Wang, Hai Yang; Guo, Jing; Lin, Zili; Namgoong, Suk; Oh, Jeong Su; Kim, Nam‐Hyung

doi:10.1096/fj.201700056r

Cited by 16 publications

(11 citation statements)

References 49 publications

(87 reference statements)

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“…Expectedly, our data illustrated that DDP exposure decreased the acetylation level of α-tubulin, indicating that the loss of microtubule stability might be one of the major causes leading to the disorganized spindle structure. Additionally, the dynamics of actin filament, another indispensable component of cytoskeleton, has been reported to play important roles in spindle positioning and meiotic progression during oocyte meiosis [46–48]. Our findings validated that the perturbed actin polymerization might be another major reason resulting in the oocyte meiotic failure when exposed to DDP.…”

Section: Discussionsupporting

confidence: 79%

Tea polyphenol protects against cisplatin-induced meiotic defects in porcine oocytes

Zhou

Zhang

ShiYang

et al. 2019

Aging

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DDP (cisplatin), a DNA cross-linking agent, is one of the most common chemotherapeutic drugs that have been widely used in the treatment of sarcomas and germ cell tumors. DDP treatment exhibits severe side effects including renal toxicity, ototoxicity and embryo-toxicity. Women of reproductive age treated with DDP may lead to loss of primordial follicles, resulting in the depletion of the ovarian reserve and consequent premature ovarian failure. However, the influence of DDP on the oocyte quality and the strategy to prevent it has not yet fully clarified. Here, we report that DDP exposure resulted in the oocyte meiotic failure via disrupting the meiotic organelle dynamics and arrangement, exhibiting a prominently impaired cytoskeleton assembly, including spindle formation and actin polymerization. In addition, exposure to DDP led to the abnormal distribution of mitochondrion and cortical granules, two indicators of cytoplasmic maturation of oocytes. Conversely, TP (tea polyphenols) supplementation partially restored all of the meiotic defects resulted from DDP exposure through suppressing the increase of ROS level and the occurrence of DNA damage as well as apoptosis.

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Section: Discussionsupporting

confidence: 79%

Tea polyphenol protects against cisplatin-induced meiotic defects in porcine oocytes

Zhou

Zhang

ShiYang

et al. 2019

Aging

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“…Moreover, TUBA1 increased with oocyte diameter, and CFLN increased with oocyte maturation and cumulus expansion, which supports the necessity of cytokinesis-related transcripts in the final stages of COC maturation. The resulting alterations and abnormalities in oocyte diameter and PB extrusion by RI are due to the direct effect of ROCK on tubulin and other cytoskeleton proteins' organization [31,42,44,[50][51][52][53][54][55][56]. Moreover, ZP thickness decreased with increasing RI supplementation duration.…”

Section: Discussionmentioning

confidence: 99%

“…However, it is important to note that spindle organization and polar body extrusion are not coordinated by a single gene. Many cytokinesis-related proteins, including actin, formin, profilin, cofilin, myosin, and tubulin, are effectors of the ROCK signaling pathway though which spindle positioning is regulated [43,[52][53][54][61][62][63][64]. Moreover, ROCK inhibitor increased cellular microtubule acetylation because ROCK regulates microtubule acetylation via phosphorylation of tubulin polymerization-promoting protein 1 [44,50].…”

Section: Discussionmentioning

confidence: 99%

Effects of Short-Term Inhibition of Rho Kinase on Dromedary Camel Oocyte In Vitro Maturation

Tukur

Aljumaah

Swelum

et al. 2020

Animals

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This is the first report on a biphasic in vitro maturation (IVM) approach with a meiotic inhibitor to improve dromedary camel IVM. Spontaneous meiotic resumption poses a major setback for in vitro matured oocytes. The overall objective of this study was to improve in vitro maturation of dromedary camel oocytes using ROCK inhibitor (Y-27632) in a biphasic IVM to prevent spontaneous meiotic resumption. In the first experiment, we cultured immature cumulus–oocyte complexes (COCs, n = 375) in a prematuration medium supplemented with ROCK inhibitor (RI) for 2 h, 4 h, 6 h, and 24 h before submission to normal in vitro maturation to complete 28 h. The control was cultured for 28 h in the absence of RI. In the first phase of experiment two, we cultured COCs (n = 480) in the presence or absence (control) of RI for 2 h, 4 h, 6 h, and 24 h, and conducted real-time relative quantitative PCR (qPCR) on selected mRNA transcripts. The same was done in the second phase, but qPCR was done after completion of normal IVM. Assessment of nuclear maturation showed that pre-IVM for 4 h yielded an increase in MII oocyte (54.67% vs. 26.6% of control; p < 0.05). As expected, the same group showed the highest degree (2) of cumulus expansion. In experiment 2, qPCR results showed significantly higher expression of ACTB and BCL2 in the RI group treated for 4 h when compared with the other groups. However, their relative quantification after biphasic IVM did not reveal any significant difference, except for the positive response of BCL2 and BAX/BCL2 ratio after 4 and 6 h biphasic IVM. In conclusion, RI prevents premature oocyte maturation and gave a significantly positive outcome during the 4 h treatment. This finding is a paradigm for future investigation on dromedary camel biphasic IVM and for improving the outcome of IVM in this species.

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“…Specifically, we observed the accumulation of excessive cytoplasmic actin mesh around spindles after CAP1 knockdown. The depletion of actin nucleators responsible for the formation of new actin filaments, such as FMN2 (Leader et al, 2002), SPIRE (Pfender et al, 2011) and the ARP2/3 complex (Sun et al, 2011b), or actin-binding proteins responsible for the maintenance of actin filaments, such as capping protein , tropomodulin (Jo et al, 2016), tropomyosin-3 (Jang et al, 2014) or filamin A (Wang et al, 2017) have been shown to impair asymmetric division by decreasing actin networks in oocytes. In contrast, excessive amounts of actin filaments in the cytoplasm have also been shown to be detrimental to spindle migrations, as seen with actin stabilization through GFP-UtrCH overexpression (Holubcová et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…Because CAPs enhance the actin-severing activity of cofilin in vitro (Jansen et al, 2014), CAP1 knockdown in oocytes may complement excessive expression of active (S3A mutant) cofilin, which effectively decreases actin levels (Wang et al, 2017). We examined the amount of actin mesh under various conditions: CAP1 knockdown, constitutively active cofilin overexpression, and both CAP1 knockdown and cofilin overexpression.…”

Section: Overexpression Of Full Length Cap1 Decreased Cytoplasmic Actmentioning

confidence: 99%

CAP1-mediated actin cycling via ADF/cofilin proteins is essential for asymmetric division in mouse oocytes

Jin

Namgoong

2018

Journal of Cell Science

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Dynamic reorganization of the actin cytoskeleton is fundamental to a number of cellular events, and various actin-regulatory proteins modulate actin polymerization and depolymerization. Adenylyl cyclase-associated proteins (CAPs), highly conserved actin monomer-binding proteins, have been known to promote actin disassembly by enhancing the actin-severing activity of the ADF/cofilin protein family. In this study, we found that CAP1 regulated actin remodeling during mouse oocyte maturation. Efficient actin disassembly during oocyte maturation is essential for asymmetric division and cytokinesis. CAP1 knockdown impaired meiotic spindle migration and asymmetric division, and resulted in an accumulation of excessive actin filaments near the spindles. In contrast, CAP1 overexpression reduced actin mesh levels. CAP1 knockdown also rescued a decrease in cofilin family protein overexpression-mediated actin levels, and simultaneous expression of human CAP1 (hCAP1) and cofilin synergistically decreased cytoplasmic actin levels. Overexpression of hCAP1 decreased the amount of phosphorylated cofilin, indicating that CAP1 facilitated actin depolymerization via interaction with ADF/cofilin during mouse oocyte maturation. Taken together, our results provide evidence for the importance of dynamic actin recycling by CAP1 and cofilin in the asymmetric division of mouse female gametes.This article has an associated First Person interview with the first author of the paper.

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

Cited by 16 publications

References 49 publications

Tea polyphenol protects against cisplatin-induced meiotic defects in porcine oocytes

Tea polyphenol protects against cisplatin-induced meiotic defects in porcine oocytes

Effects of Short-Term Inhibition of Rho Kinase on Dromedary Camel Oocyte In Vitro Maturation

CAP1-mediated actin cycling via ADF/cofilin proteins is essential for asymmetric division in mouse oocytes

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