Your search keyword '"Polar Bodies"' showing total 362 results

1. Aneuploidy detection in pooled polar bodies using rapid nanopore sequencing.

Author

Madritsch, Silvia, Arnold, Vivienne, Haider, Martha, Bosenge, Julia, Pfeifer, Mateja, Weil, Beatrix, Zechmeister, Manuela, Hengstschläger, Markus, Neesen, Jürgen, and Laccone, Franco

Subjects

*ANEUPLOIDY, *NANOPORES, *HUMAN in vitro fertilization, *CHROMATIDS, *PLOIDY, *CHROMOSOME duplication, *MISCARRIAGE

Abstract

Purpose: Various screening techniques have been developed for preimplantation genetic testing for aneuploidy (PGT-A) to reduce implantation failure and miscarriages in women undergoing in vitro fertilisation (IVF) treatment. Among these methods, the Oxford nanopore technology (ONT) has already been tested in several tissues. However, no studies have applied ONT to polar bodies, a cellular material that is less restrictively regulated for PGT-A in some countries. Methods: We performed rapid short nanopore sequencing on pooled first and second polar bodies of 102 oocytes from women undergoing IVF treatment to screen for aneuploidy. An automated analysis pipeline was developed with the expectation of three chromatids per chromosome. The results were compared to those obtained by array-based comparative genomic hybridisation (aCGH). Results: ONT and aCGH were consistent for 96% (98/102) of sample ploidy classification. Of those samples, 36 were classified as euploid, while 62 were classified as aneuploid. The four discordant samples were assessed as euploid using aCGH but classified as aneuploid using ONT. The concordance of the ploidy classification (euploid, gain, or loss) per chromosome was 92.5% (2169 of 2346 of analysed chromosomes) using aCGH and ONT and increased to 97.7% (2113/2162) without the eight samples assessed as highly complex aneuploid using ONT. Conclusion: The automated detection of the ploidy classification per chromosome and shorter duplications or deletions depending on the sequencing depth demonstrates an advantage of the ONT method over standard, commercial aCGH methods, which do not consider the presence of three chromatids in pooled polar bodies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Impact of maternally derived meiotic aneuploidies on early embryonic development in vitro.

Author

L., Tschare, A., Ennemoser, L., Carli, E., Vaccari, and M., Feichtinger

Subjects

*EMBRYOLOGY, *OVUM, *EMBRYOS, *BLASTOCYST

Abstract

Purpose: To assess early embryonic developmental potential of embryos affected by maternally inherited meiotic aneuploidies. Methods: This observational, descriptive study includes 930 oocytes from 151 patients which were retrospectively analyzed by combining the morphological assessment with the genetic results from polar body diagnosis. Results: Of 930 oocytes examined, 566 (60.9%) were tested aneuploid. Developmental potential until cleavage stage was not affected by trisomies or monosomies (69.6% vs. 77.1%, p = 0.75). However, trisomies significantly more often resulted in top quality cleavage stage embryos compared to monosomies (20% vs. 17.6%, p = < 0.01). Top quality blastocysts were more likely to be euploid than aneuploid (52.4% vs. 47.6%, p = 0.032). Additionally, significantly more aneuploid embryos resulted in developmental arrest compared to euploid embryos (15.3% vs. 6.7%, p = 0.003). Overall, there was no significant difference in the frequency of trisomies and monosomies in blastocyst stage embryos. (28.3% vs. 28.2%; p = 0.81). In contrast to earlier developmental stages, distribution of trisomies and monosomies did not differ in top quality blastocysts (8.3% vs. 5.3%, p = 0.32). However, certain chromosomal abnormalities showed a higher potential to develop into a top-rated blastocyst. These included monosomies 2, 5, 8, 10, 16, 17, 20, 21, and 22 and trisomies 2, 4, 5, 8, 9, 10, 11, 12, 13, 16, 17, 18 and 20. Conclusion: Meiotically induced maternal aneuploidies have different effects on early embryonic development. While no difference in developmental potential between monosomies and trisomies could be observed in blastocysts, cleavage stage quality was significantly affected by chromosomal aneuploidies. [ABSTRACT FROM AUTHOR]

Published

2023

3. Human embryos derived from first polar body nuclear transfer exhibit comparatively abnormal morphokinetics during development.

Author

Heydari, Leila, Khalili, Mohammad Ali, Rahimi, Azam Agha, and Shakeri, Fatemeh

Subjects

*HUMAN embryos, *INTRACYTOPLASMIC sperm injection, *OVUM, *MATERNAL age, *ZYGOTES, *MATERNALLY acquired immunity

Abstract

Objective: Reconstructed oocytes after polar body genome transfer constitute a potential therapeutic option for patients with a history of embryo fragmentation and advanced maternal age. However, the rescue of genetic material from the first polar body (PB1) through introduction into the donor cytoplasm is not yet ready for clinical application. Methods: Eighty-five oocytes were obtained following in vitro maturation (IVM) and divided into two groups: PB1 nuclear transfer (PB1NT; n=54) and control (n=31). Following enucleation and PB1 genomic transfer, PB1 fusion was assessed. Subsequently, all fused oocytes underwent intracytoplasmic sperm injection (ICSI) and were cultured in an incubator under a time-lapse monitoring system to evaluate fertilization, embryonic morphokinetic parameters, and cleavage patterns. Results: Following enucleation and fusion, 77.14% of oocytes survived, and 92.59% of polar bodies (PBs) fused. However, the normal fertilization rate was lower in the PB1NT group than in the control group (56.41% vs. 92%, p=0.002). No significant differences were observed in embryo kinetics between the groups, but a significant difference was detected in embryo developmental arrest after the four-cell stage, along with abnormal cleavage division in the PB1NT group. This was followed by significant between-group differences in the implantation potential rate and euploidy status. Most embryos in the PB1NT group had at least one abnormal cleavage division (93.3%, p=0.001). Conclusion: Fresh PB1NT oocytes successfully produced normal zygotes following PB fusion and ICSI in IVM oocytes. However, this was accompanied by low efficiency in developing into cleavage embryos, along with an increase in abnormal cleavage patterns. [ABSTRACT FROM AUTHOR]

Published

2023

4. Impact of maternally derived meiotic aneuploidies on early embryonic development in vitro

Author

Tschare, Lena, Ennemoser, Anna, Carli, Luca, Vaccari, Enrico, and Feichtinger, Michael

Published

2023

5. A casein kinase 1 prevents expulsion of the oocyte meiotic spindle into a polar body by regulating cortical contractility

Author

Flynn, Jonathan R and McNally, Francis J

Subjects

Biochemistry and Cell Biology, Biological Sciences, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Actins, Animals, Asymmetric Cell Division, Caenorhabditis elegans, Caenorhabditis elegans Proteins, Casein Kinase I, Chromosomes, Contractile Proteins, Cytokinesis, Female, Meiosis, Mitosis, Myosins, Oocytes, Polar Bodies, Spindle Apparatus, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology

Abstract

During female meiosis, haploid eggs are generated from diploid oocytes. This reduction in chromosome number occurs through two highly asymmetric cell divisions, resulting in one large egg and two small polar bodies. Unlike mitosis, where an actomyosin contractile ring forms between the sets of segregating chromosomes, the meiotic contractile ring forms on the cortex adjacent to one spindle pole, then ingresses down the length of the spindle to position itself at the exact midpoint between the two sets of segregating chromosomes. Depletion of casein kinase 1 gamma (CSNK-1) in Caenorhabditis elegans led to the formation of large polar bodies that contain all maternal DNA, because the contractile ring ingressed past the spindle midpoint. Depletion of CSNK-1 also resulted in the formation of deep membrane invaginations during meiosis, suggesting an effect on cortical myosin. Both myosin and anillin assemble into dynamic rho-dependent cortical patches that rapidly disassemble in wild-type embryos. CSNK-1 was required for disassembly of both myosin patches and anillin patches. Disassembly of anillin patches was myosin independent, suggesting that CSNK-1 prevents expulsion of the entire meiotic spindle into a polar body by negatively regulating the rho pathway rather than through direct inhibition of myosin.

Published

2017

6. Tousled-like kinase regulates cytokine-mediated communication between cooperating cell types during collective border cell migration.

Author

Xiang, Wenjuan, Zhang, Dabing, and Montell, Denise J

Subjects

Ovary, Epithelial Cells, Animals, Drosophila melanogaster, Protein-Serine-Threonine Kinases, DNA-Binding Proteins, Trans-Activators, Drosophila Proteins, Transcription Factors, Cytokines, Cell Communication, Signal Transduction, Cell Differentiation, Cell Movement, Female, Male, STAT Transcription Factors, Polar Bodies, Developmental Biology, Biological Sciences, Medical and Health Sciences

Abstract

Collective cell migration is emerging as a major contributor to normal development and disease. Collective movement of border cells in the Drosophila ovary requires cooperation between two distinct cell types: four to six migratory cells surrounding two immotile cells called polar cells. Polar cells secrete a cytokine, Unpaired (Upd), which activates JAK/STAT signaling in neighboring cells, stimulating their motility. Without Upd, migration fails, causing sterility. Ectopic Upd expression is sufficient to stimulate motility in otherwise immobile cells. Thus regulation of Upd is key. Here we report a limited RNAi screen for nuclear proteins required for border cell migration, which revealed that the gene encoding Tousled-like kinase (Tlk) is required in polar cells for Upd expression without affecting polar cell fate. In the absence of Tlk, fewer border cells are recruited and motility is impaired, similar to inhibition of JAK/STAT signaling. We further show that Tlk in polar cells is required for JAK/STAT activation in border cells. Genetic interactions further confirmed Tlk as a new regulator of Upd/JAK/STAT signaling. These findings shed light on the molecular mechanisms regulating the cooperation of motile and nonmotile cells during collective invasion, a phenomenon that may also drive metastatic cancer.

Published

2016

7. Optimal ICSI timing on immature oocytes for low prognosis patients under the POSEIDON classification.

Author

Shi C, Wang P, Liang R, Fu M, Duan SN, Shen H, Yang M, and Chen X

Subjects

Humans, Female, Pregnancy, Adult, Time Factors, Prospective Studies, Prognosis, Pregnancy Rate, Oocyte Retrieval methods, Embryo Transfer methods, Blastocyst, Embryo Culture Techniques methods, Polar Bodies, Sperm Injections, Intracytoplasmic methods, Oocytes, Embryonic Development, In Vitro Oocyte Maturation Techniques methods

Abstract

Background: The optimal timing of performing ICSI on immature oocytes for POSEIDON patients is still unknown to get better early embryonic development outcomes. The purpose of this study was to implore the most appropriate time to carry out ICSI on in vitro maturation GV and MI oocytes for POSEIDON patients., Methods: Two hundred thirty-nine immature oocytes from 163 POSEIDON patients were prospectively performed ICSI at different timings: P-ICSI (ICSI was performed on in vitro matured oocytes 4-6 h after the first polar body extrusion, N = 81), R-ICSI (ICSI was performed on in vitro matured oocytes less than 4 h after the first polar body extrusion, N = 80), and E-ICSI (ICSI was performed on in vitro matured oocytes the next day after oocytes retrieval, N = 78). Fertilization and embryonic development outcomes were collected and statistically analyzed. Mitochondria distribution of cytoplasm of in vitro matured oocytes with different time cultures after the first polar body (PB1) extrusion was stained., Results: Compared to the E-ICSI group, more day 3 embryos from P-ICSI became blastocysts after sequential culture though without statistical significance (OR = 3.71, 95% CI: 0.94-14.63, P = 0.061). Compared to the E-ICSI group, more embryos from both P-ICSI and R-ICSI groups were clinically used with statistical significance (OR = 5.67, 95% CI: 2.24-14.35, P = 0.000 for P-ICSI embryos; OR = 3.23, 95% CI: 1.23-8.45, P = 0.017 for R-ICSI embryos). Compared to the E-ICSI group, transferred embryos from P-ICSI and R-ICSI had a higher implantation rate though without statistical significance (35.3% for P-ICSI embryos; 9.1% or R-ICSI embryos and 0% for E-ICSI embryos, P = 0.050). Among the three group, there were most healthy babies delivered from the P-ICSI group (5, 1 and 0 for P-ICSI, R-ICSI and E-ICSI respectively). The mitochondria in the cytoplasm of in vitro matured oocytes with a less than 4 h and 4-6 h culture after PB1 extrusion presented semiperipheral and diffused distribution patterns, respectively., Conclusions: Our results revealed P-ICSI (ICSI was performed on in vitro matured oocytes 4-6 h after the first polar body extrusion) provided the most efficient method to utilize the immaturation oocytes basing on embryos utilization and live birth outcome for low prognosis patients under the POSEIDON classification. The mitochondria distribution of the in vitro matured oocytes' cytoplasm from P-ICSI varied that from R-ICSI., (© 2024. The Author(s).)

Published

2024

8. Corpolaridades: cuerpos producidos en una cuidadosa Antártica.

Author

Paz Vergara-Escobar, Florencia

Published

2021

9. Evaluation of Nanopore Sequencing on Polar Bodies for Routine Pre-Implantation Genetic Testing for Aneuploidy.

Author

Oberle A, Hanzer F, Kokocinski F, Ennemoser A, Carli L, Vaccari E, Hengstschläger M, and Feichtinger M

Subjects

Humans, Female, Genetic Testing methods, Comparative Genomic Hybridization methods, Pregnancy, Aneuploidy, Preimplantation Diagnosis methods, Polar Bodies, Nanopore Sequencing methods

Abstract

Background: Preimplantation genetic testing for aneuploidy (PGT-A) using polar body (PB) biopsy offers a clinical benefit by reducing the number of embryo transfers and miscarriage rates but is currently not cost-efficient. Nanopore sequencing technology opens possibilities by providing cost-efficient and fast sequencing results with uncomplicated sample preparation work flows., Methods: In this comparative experimental study, 102 pooled PB samples (99 passing QC) from 20 patients were analyzed for aneuploidy using nanopore sequencing technology and compared with array comparative genomic hybridization (aCGH) results generated as part of the clinical routine. Samples were sequenced on a Nanopore MinION machine. Whole-chromosome copy-numbers were called by custom bioinformatic analysis software. Automatically called results were compared to aCGH results., Results: Overall, 96/99 samples were consistently detected as euploid or aneuploid in both methods (concordance = 97.0%, sensitivity = 0.957, specificity = 1.0, positive predictive value = 1.0, negative predictive value = 0.906). On the chromosomal level, concordance reached 98.7%. Chromosomal aneuploidies analyzed in this trial covered all 23 chromosomes with 98 trisomies, and 97 monosomies in 70 aCGH samples.The whole nanopore work flow is feasible in under 5 h (for one sample) with a maximum time of 16 h (for 12 samples), enabling fresh PB-euploid embryo transfer. A material cost of US$ 165 (EUR 150)/sample possibly enables cost-efficient aneuploidy screening., Conclusions: This is the first study systematically comparing nanopore sequencing with standard methods for the detection of PB aneuploidy. High concordance rates confirmed the feasibility of nanopore technology for this application. Additionally, the fast and cost-efficient work flow reveals the clinical utility of this technology, making it clinically attractive for PB PGT-A., (© Association for Diagnostics & Laboratory Medicine 2024. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2024

10. Live birth derived from a markedly large polar body oocyte: a rare case report.

Author

Liu Y, Peng X, Liu C, Zhang S, Weng Z, Yu L, Zhou S, and Huang X

Subjects

Humans, Female, Pregnancy, Adult, Male, Infant, Newborn, Blastocyst cytology, Blastocyst physiology, Cryopreservation, Live Birth, Sperm Injections, Intracytoplasmic methods, Oocytes physiology, Oocytes cytology, Polar Bodies, Embryo Transfer methods

Abstract

Oocytes with excessively large first polar bodies (PB1) often occur in assisted reproductive procedures. Many times these oocytes are discarded without insemination and, as a result, the application of this portion of oocytes has scarcely been reported to date. Few studies have examined large PB1 oocytes in infertile women and have virtually entirely studied genetic variations for large PB1 oocyte abnormalities. Here, we describe an unusual case of a live birth from a remarkably large PB1 oocyte in a frozen embryo transfer (FET) cycle. This is the first instance of a successful live birth resulting from a PB1 oocyte with an extremely large polar body measuring 80 μM × 40 μM in size. The large PB1 oocyte was performed by an early rescue intracytoplasmic sperm injection (r-ICSI) and was formed into a blastocyst on day 5. Following FET, a healthy boy baby weighing 3100 g was finally delivered by caesarean section at 37 weeks and 5 days after conception. Additionally, there were no complications throughout the antenatal period or the perinatal phase of this following full-term delivery. In this study, it is revealed for the first time that a huge PB1 oocyte can be fertilized, resulting in the growth of a blastocyst, a subsequent pregnancy, and a live birth. This new information prompts us to reconsider the use of large PB1 oocytes. More insightful talks should be given attention to prevent the waste of embryos because not all oocytes with aberrant morphology are unavailable.

Published

2024

11. Impact of oxygen tension during in vitro maturation: a sibling-oocyte prospective double-blinded study.

Author

Boumerdassi Y, Labrosse J, Hammami F, Dahoun M, Bouyer J, O'Neill L, Sarandi S, Peigné M, Cedrin I, Grynberg M, and Sifer C

Subjects

Adult, Humans, Oxygen, Polar Bodies, Prospective Studies, Double-Blind Method, In Vitro Oocyte Maturation Techniques, Oocytes

Abstract

Objective: To determine whether oxygen (O 2 ) tension (20% vs. 5%) has an impact on oocyte maturation rates and morphology during in vitro maturation (IVM)., Design: A prospective, observational, monocentric, sibling-oocyte study., Setting: University Hospital., Patients: A total of 143 patients who underwent IVM for fertility preservation purposes from November 2016 to April 2021 were analyzed. Patients were included when ≥2 cumulus-oocyte complexes (COCs) were retrieved. The cohort of COCs obtained for each patient was randomly split into two groups: group 20% O 2 and group 5% O 2 ., Intervention: Cumulus-oocyte complexes were incubated for 48 hours either under 5% O 2 or 20% O 2 . After 24 and 48 hours of culture, every oocyte was assessed for maturity and morphology, to estimate oocyte quality. Morphology was evaluated considering six parameters (shape, size, ooplasm, perivitelline space, zona pellucida, and polar body characteristics), giving a total oocyte score ranging from -6 to +6., Main Outcome Measures: Maturation rates and total oocyte scores were compared using paired-sample analysis between group 20% O 2 and group 5% O 2 ., Results: Patient median age was 31.4 [28.1-35.2] years-old. The mean serum antimüllerian hormone levels and antral follicle count were 3.2 ± 2.3 ng/mL and 27.2 ± 16.0 follicles, respectively. A mean of 10.7 COCs per cycle were retrieved, leading to 6.1 ± 2.4 metaphase II oocytes vitrified (total maturation rate = 57.3%; 991 metaphase II oocytes/1,728 COCs). A total of 864 COCs were included in each group. Oocyte maturation rates were not different between the two groups (group 20% O 2 : 56.82% vs. group 5% O 2 : 57.87%, respectively). Regarding oocyte morphology, the mean total oocyte score was significantly higher in group 5% O 2 compared with group 20% O 2 (3.44 ± 1.26 vs. 3.16 ± 1.32, P=.014)., Conclusion: As culture under low O 2 tension (5% O 2 ) improves oocyte morphology IVM, our results suggest that culture under hypoxia should be standardized. Additional studies are warranted to assess the impact of O 2 tension on oocyte maturation and the benefit of IVM under low O 2 tension for embryo culture after utilization of frozen material., Competing Interests: Declaration of Interests Y.B. has nothing to disclose. J.L. has nothing to disclose. F.H. has nothing to disclose. M.D. has nothing to disclose. J.B. has nothing to disclose. L.O. has nothing to disclose. S.S. has nothing to disclose. M.P. has nothing to disclose. I.C. has nothing to disclose. M.G. has nothing to disclose. C.S. has nothing to disclose., (Copyright © 2023 American Society for Reproductive Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2024

12. A localized calcium transient and polar body abscission

Author

Guolong Mo, Ruizhen Li, Zachary Swider, Julie Leblanc, William M. Bement, and X. Johné Liu

Subjects

Male, Meiosis, Semen, Oocytes, Animals, Calcium, Polar Bodies, Cell Biology, Protein Kinases, Molecular Biology, Calcium Chelating Agents, Research Paper, Developmental Biology

Abstract

Polar body emission is a special form of cytokinesis in oocyte meiosis that ensures the correct number of chromosomes in reproduction-competent eggs. The molecular mechanism of the last step, polar body abscission, is poorly understood. While it has been proposed that Ca(2+) signaling plays important roles in embryonic cytokinesis, to date transient increases in intracellular free Ca(2+) have been difficult to document in oocyte meiosis except for the global Ca(2+) wave induced by sperm at fertilization. Here, we find that microinjection of the calcium chelator dibromo-BAPTA inhibits polar body abscission in Xenopus laevis oocytes. Using a novel, microtubule-targeted ratio-metric calcium sensor, we detected a calcium transient that is focused at the contractile ring-associated plasma membrane and which occurred after anaphase and constriction of the contractile ring but prior to abscission. This calcium transient was confirmed by mobile calcium probes. Further, the Ca(2+)-sensitive protein kinase Cβ C2 domain transiently translocated to the contractile ring-associated membrane simultaneously with the calcium transient. Collectively, these results demonstrate that a calcium transient, apparently originating at the contractile ring-associated plasma membrane, promotes polar body abscission.

Published

2022

13. Biallelic variants in MOS cause large polar body in oocyte and human female infertility

Author

Yin-Li Zhang, Wei Zheng, Peipei Ren, Jiamin Jin, Zhanhong Hu, Qing Liu, Heng-Yu Fan, Fei Gong, Guang-Xiu Lu, Ge Lin, Songying Zhang, and Xiaomei Tong

Subjects

Mice, HEK293 Cells, Reproductive Medicine, Rehabilitation, Oocytes, Serine, Animals, Humans, Obstetrics and Gynecology, Female, Polar Bodies, Protein Serine-Threonine Kinases, Infertility, Female

Abstract

STUDY QUESTION What is the genetic basis of female infertility involving abnormal oocyte morphology with the production of a large first polar body (PB1)? SUMMARY ANSWER The homozygous missense variant (c.791C>G) and compound missense variants (c.596A>T and c.875C>T) in MOS proto-oncogene, serine/threonine kinase (MOS) (Online Mendelian Inheritance in Man (OMIM) reference: 190060; NM_005372.1) are responsible for abnormal oocyte morphology with the production of a large PB1 to cause infertility in women. WHAT IS KNOWN ALREADY MOS, an oocyte-specific gene, encodes a serine/threonine-protein kinase that directly phosphorylates mitogen-activated protein kinase (MAPK) kinase (MEK) to activate MAPK (also called extracellular-signal-regulated kinase (ERK)) signal cascade in the oocyte. Female mice lacking Mos remained viable, but infertile because of oocyte symmetric division, spontaneous parthenogenetic activation and early embryonic arrest. Recently, two independent studies demonstrated that female infertility with early embryonic arrest and fragmentation can be caused by biallelic mutations in MOS. However, so far, MOS variants have not been associated with the phenotype of large PB1 extrusion in human oocytes to contribute to female infertility. STUDY DESIGN, SIZE, DURATION Two independent infertile families characterized by the presence of large PB1 in oocytes were recruited between December 2020 and February 2022. PARTICIPANTS/MATERIALS, SETTING, METHODS Genomic DNA was extracted from the peripheral blood samples of the subjects for whole-exome sequencing. Pedigree analysis was validated by Sanger sequencing. Then, the pathogenic effects of the MOS variants on MOS protein properties and ERK1/2 activation were determined in HEK293 cells and mouse oocytes. MAIN RESULTS AND THE ROLE OF CHANCE We identified three rare missense variants in MOS, including a homozygous missense variant (c.791C>G) from Patient 1 in Family 1 and two compound missense variants (c.596A>T and c.875C>T) from twin sisters in Family 2. The MOS variants followed a recessive inheritance pattern in infertile patients. All three patients displayed a high percentage of large PB1 extrusion in the oocytes. The three MOS variants could not activate MEK1/2 and ERK1/2 in oocytes and HEK293 cells. In addition, when compared with wild-type MOS, the MOS variants decreased the MOS protein level and attenuated the binding capacity with MEK1. Microinjection of wild-type human MOS complementary RNAs (cRNAs) reversed the symmetric division of oocytes after siMos treatment. In contrast, the three MOS variants demonstrated no rescuing ability. LARGE SCALE DATA N/A. LIMITATIONS, REASONS FOR CAUTION Owing to the scarcity of human oocyte samples and the associated ethical restrictions, we could not perform the rescue attempt for the study patients. WIDER IMPLICATIONS OF THE FINDINGS Our findings expand the genetic and phenotypic spectrum of MOS variants in causing female infertility. Our study findings facilitate the early genetic diagnosis of abnormal oocyte morphology characterized as large PB1 that eventually causes infertility in women. STUDY FUNDING/COMPETING INTEREST(S) This study was supported by the National Natural Science Foundation of China (82071640 and 82001633), Natural Science Foundation of Zhejiang Province (LD22C060001), the Key Projects Jointly Constructed by the Ministry and the Province of Zhejiang Medical and Health Science and Technology Project (WKJ-ZJ-2005), China Postdoctoral Science Foundation (2020M682575 and 2021T140198), the Changsha Municipal Natural Science Foundation (kq2007022) and Hunan Provincial Grant for Innovative Province Construction (2019SK4012). None of the authors declare any competing interests. TRIAL REGISTRATION NUMBER N/A.

Published

2022

14. Polytopes of Maximal Volume Product.

Author

Alexander, Matthew, Fradelizi, Matthieu, and Zvavitch, Artem

Subjects

*POLYTOPES, *CONVEX bodies, *MANUFACTURED products, *POLYGONS

Abstract

For a convex body K ⊂ R n , let K z = { y ∈ R n : ⟨ y - z , x - z ⟩ ≤ 1 , for all x ∈ K } be the polar body of K with respect to the center of polarity z ∈ R n. The goal of this paper is to study the maximum of the volume product P (K) = min z ∈ int (K) | K | | K z | , among convex polytopes K ⊂ R n with a number of vertices bounded by some fixed integer m ≥ n + 1. In particular, we prove a combinatorial formula characterizing a polytope of maximal volume product and use this formula to show that the supremum is reached at a simplicial polytope with exactly m vertices. We also use this formula to provide a proof of a result of Meyer and Reisner showing that, in the plane, the regular polygon has maximal volume product among all polygons with at most m vertices. Finally, we treat the case of polytopes with n + 2 vertices in R n. [ABSTRACT FROM AUTHOR]

Published

2019

15. Mettl3 downregulation in germinal vesicle oocytes inhibits mRNA decay and the first polar body extrusion during maturation

Author

Yan, Zhu, Wenjiao, Wu, Shaoqing, Chen, Zhen, Zhang, Guangli, Zhang, Jie, Li, and Manxi, Jiang

Subjects

Mice, Adenosine, Reproductive Medicine, RNA Stability, Oocytes, Animals, Down-Regulation, Methyltransferases, Polar Bodies, RNA, Messenger, Cell Biology, General Medicine, RNA, Small Interfering

Abstract

In oocytes, mRNA decay is essential for maturation and subsequent events, such as maternal-zygotic transition, zygotic genomic activation, and embryo development. Reversible N6-methyladenosine RNA methylation directly regulates transcription, pre-mRNA splicing, mRNA export, mRNA stability, and translation. Here, we identified that downregulation of N6-methyladenosine modification by microinjecting a methyltransferase-like 3 (Mettl3)-specific small interfering RNA into mouse germinal vesicle oocytes led to defects in meiotic spindles and the first polar body extrusion during maturation in vitro. By further quantitative real-time polymerase chain reaction and Poly(A)-tail assay analysis, we found that N6-methyladenosine methylation mainly acts by reducing deadenylation of mRNAs mediated by the carbon catabolite repression 4-negative on TATA less system, thereby causing mRNA accumulation in oocytes. Meanwhile, transcriptome analysis of germinal vesicle oocytes revealed the downregulation of transcripts of several genes encoding ribosomal subunits proteins in the Mettl3 small interfering RNA-treated group, suggesting that N6-methyladenosine modification might affect translation. Together, our results indicate that RNA methylation accelerates mRNA decay, confirming the critical role of RNA clearance in oocyte maturation.

Published

2022

16. Developmental trajectory of monopronucleated zygotes after in vitro fertilization when they include both male and female genomes

Author

Xingqiang Wei, Noritoshi Enatsu, Kohyu Furuhashi, Shoji Kokeguchi, Junko Otsuki, Masahide Shiotani, and Toshiroh Iwasaki

Subjects

Adult, Male, Cytoplasm, Zygote, medicine.medical_treatment, Embryonic Development, Fertilization in Vitro, Polar Bodies, Biology, Time-Lapse Imaging, Cohort Studies, Andrology, Human fertilization, medicine, Humans, Sperm Injections, Intracytoplasmic, Retrospective Studies, Cell Nucleus, Sex Chromosomes, In vitro fertilisation, Genome, Human, Obstetrics and Gynecology, Second polar body, Embryo, Oocyte, Sperm, medicine.anatomical_structure, Developmental trajectory, Reproductive Medicine, Female

Abstract

Objective To examine the cause of monopronucleated zygote (1PN) formation that includes both maternal and paternal genomes. Design Retrospective cohort study. Setting Private fertility clinic. Patient(s) A total of 44 1PN and 726 2-pronuclear zygotes from 702 patients were observed using 2 different time-lapse observation systems. Intervention(s) Previously recorded time lapse data were reviewed to examine the mechanism of 1PN formation. Main Outcome Measure(s) The distance between the position of the second polar body extrusion and the fertilization cone or epicenter/starting position of the cytoplasmic wave was measured, and the consequent data were analyzed. Cytoplasmic waves were confirmed using vector analysis software. Result(s) The cut-off value for the difference in the distance between the position of the second polar body extrusion and the fertilization cone or the epicenter/starting position of the cytoplasmic wave was 17 μm (AUC: 0.987, 95% CI: 0.976–0.999) for the Embryo Scope and 18 μm (AUC: 0.972, 95% CI: 0.955–0.988) for the iBIS time-lapse observation systems. Conclusion(s) In this study, it was found with a high degree of accuracy that a monopronucleus is formed when the fusion of the sperm takes place within 18 μm from the point of the second polar body extrusion. The theoretical chance of 1PN occurrence after in vitro fertilization is 2.7% when the sperm is considered to be fused anywhere in the plasma membrane of an oocyte.

Published

2022

17. Two mutations in TUBB8 cause developmental arrest in human oocytes and early embryos

Author

Yan Xu, Junjiu Huang, Tianqi Cao, Jing Guo, Huan Zhao, Lizi Cheng, Yanwen Xu, Shan Jiang, Xiufeng Lin, Weifen Deng, and Min Gao

Subjects

Adult, Mutant, Embryonic Development, Polar Bodies, Biology, Transfection, medicine.disease_cause, Microtubules, Mice, Polar body, Meiosis, Tubulin, Microtubule, medicine, Animals, Humans, Gene, Microinjection, Mutation, Obstetrics and Gynecology, Molecular biology, Pedigree, Reproductive Medicine, Fertilization, Oocytes, Female, Infertility, Female, HeLa Cells, Developmental Biology

Abstract

Research question How can the effect of genetic mutations that may cause primary female infertility be evaluated? Design Patients and their family members underwent whole-exome sequencing and Sanger sequencing to detect the infertility-causing gene and inheritance pattern. To study the function of mutant proteins in vitro, vectors containing wild-type or mutant TUBB8 cDNA were constructed for transient expression in HeLa cells, and in-vitro transcribed mRNA were used for microinjection in germinal vesicle-stage mouse oocytes. Immunofluorescence staining was used to observe the microtubule structure in HeLa cells or meiotic spindle in mouse oocytes. Results A maternally inherited TUBB8 (Tubulin beta 8 class VIII) mutation (NM_177987.2: c. 959G>A: p. R320H) and a previously reported (NM_177987.2: c. 161C>T: p. A54V) recessive mutation from two infertile female patients were identified. The oocytes from the patient carrying p.A54V mutation failed fertilization, whereas oocytes with p.R320H mutation could be fertilized but showed heavy fragmentation during early development. In vitro, functional assays showed that p. A54V mutant disrupted the microtubule structure in HeLa cells (49.3% of transfected cells) and caused large polar body extrusion in mouse oocytes (27.5%), whereas the p.R320H mutant caused a higher abnormal rate (69.7%) in cultured cells and arrested mouse oocytes at meiosis I (38.7%). Conclusion Two TUBB8 mutations (p.A54V and p.R320H) were identified and their pathogeny was confirmed by in-vitro functional assays.

Published

2021

18. An oocyte meiotic midbody cap is required for developmental competence in mice.

Author

Jung GI, Londoño-Vásquez D, Park S, Skop AR, Balboula AZ, and Schindler K

Subjects

Animals, Mice, Cytokinesis genetics, Polar Bodies, Embryonic Development genetics, Mammals, Meiosis, Oocytes metabolism

Abstract

Embryo development depends upon maternally derived materials. Mammalian oocytes undergo extreme asymmetric cytokinesis events, producing one large egg and two small polar bodies. During cytokinesis in somatic cells, the midbody and subsequent assembly of the midbody remnant, a signaling organelle containing RNAs, transcription factors and translation machinery, is thought to influence cellular function or fate. The role of the midbody and midbody remnant in gametes, in particular, oocytes, remains unclear. Here, we examined the formation and function of meiotic midbodies (mMB) and mMB remnants using mouse oocytes and demonstrate that mMBs have a specialized cap structure that is orientated toward polar bodies. We show that that mMBs are translationally active, and that mMB caps are required to retain nascent proteins in eggs. We propose that this specialized mMB cap maintains genetic factors in eggs allowing for full developmental competency., (© 2023. The Author(s).)

Published

2023

19. Focusing on the accumulation of chromatin/chromosomes around nucleoli and optimizing the timing of ICSI to facilitate the rescue in vitro maturation of denuded GV stage oocytes.

Author

Asama H, Kamibayashi D, Hashizume A, Michikura Y, and Otsuki J

Subjects

Humans, Retrospective Studies, Oocytes metabolism, Polar Bodies, Chromatin, Sperm Injections, Intracytoplasmic methods

Abstract

Purpose: This study aims to achieve the methodological improvement of rescue IVM by predicting germinal vesicle breakdown (GVBD) and optimizing the timing of ICSI., Methods: Time lapse analysis was performed retrospectively to evaluated the relationship between the presence of AC around the nucleoli and GVBD. To find the optimal timing of ICSI, the time from the initiation of the first polar body extrusion to ICSI were measured, and the rates of fertilization at each point were calculated., Results: The GVBD rate of GV stage oocytes with AC around the nucleoli was significantly higher than that of GV stage oocytes without AC. The GV stage oocytes required more time for nuclear maturation after polar body extrusion than MI oocytes, with GV stage oocytes taking 400-600 min from polar body extrusion to the optimal timing of ICSI, while the MI stage oocytes took 200-400 min. The GV stage oocytes resulted in the birth of healthy babies with the appropriate timing of ICSI., Conclusion: It was found that GV stage oocytes with AC around nucleoli can initiate GVBD and reach the MII stage with a high rate, and that GV stage oocytes required more time than MI stage oocytes to reach the optimal timing of ICSI. Considering these factors, ART laboratories may employ immature GV stage oocytes in routine ART procedures rather than discarding them., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

20. Microtubules oppose cortical actomyosin-driven membrane ingression during C. elegans meiosis I polar body extrusion.

Author

Quiogue AR, Sumiyoshi E, Fries A, Chuang CH, and Bowerman B

Subjects

Animals, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Polar Bodies, Cytokinesis genetics, Spindle Apparatus genetics, Spindle Apparatus metabolism, Microtubules genetics, Microtubules metabolism, Meiosis genetics, Oocytes metabolism, Paclitaxel, Microtubule-Associated Proteins genetics, Actomyosin genetics, Actomyosin metabolism, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism

Abstract

During C. elegans oocyte meiosis I cytokinesis and polar body extrusion, cortical actomyosin is locally remodeled to assemble a contractile ring that forms within and remains part of a much larger and actively contractile cortical actomyosin network. This network both mediates contractile ring dynamics and generates shallow ingressions throughout the oocyte cortex during polar body extrusion. Based on our analysis of requirements for CLS-2, a member of the CLASP family of proteins that stabilize microtubules, we recently proposed that a balance of actomyosin-mediated tension and microtubule-mediated stiffness limits membrane ingression throughout the oocyte during meiosis I polar body extrusion. Here, using live cell imaging and fluorescent protein fusions, we show that CLS-2 is part of a group of kinetochore proteins, including the scaffold KNL-1 and the kinase BUB-1, that also co-localize during meiosis I to structures called linear elements, which are present within the assembling oocyte spindle and also are distributed throughout the oocyte in proximity to, but appearing to underlie, the actomyosin cortex. We further show that KNL-1 and BUB-1, like CLS-2, promote the proper organization of sub-cortical microtubules and also limit membrane ingression throughout the oocyte. Moreover, nocodazole or taxol treatment to destabilize or stabilize oocyte microtubules leads to, respectively, excess or decreased membrane ingression throughout the oocyte. Furthermore, taxol treatment, and genetic backgrounds that elevate the levels of cortically associated microtubules, both suppress excess membrane ingression in cls-2 mutant oocytes. We propose that linear elements influence the organization of sub-cortical microtubules to generate a stiffness that limits cortical actomyosin-driven membrane ingression throughout the oocyte during meiosis I polar body extrusion. We discuss the possibility that this regulation of sub-cortical microtubule dynamics facilitates actomyosin contractile ring dynamics during C. elegans oocyte meiosis I cell division., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Quiogue et al. 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 credited.)

Published

2023

21. Monopronucleated ( <scp>1PN</scp> ) and tripronuclear ( <scp>3PN</scp> ) zygotes formation during assisted reproduction in <scp>POSEIDON</scp> group 4 patients: Emphasizing on polar bodies

Author

Yu-Ju Lin, Ni-Chin Tsai, Hsuan-Wei Huang, Fu-Tsai Kung, Fu-Jen Huang, Yu-Ting Su, Kuo-Chung Lan, and Hsin-Ju Chiang

Subjects

Adult, Zygote, medicine.medical_treatment, media_common.quotation_subject, Fertilization in Vitro, Polar Bodies, Digyny, Insemination, Intracytoplasmic sperm injection, Andrology, 03 medical and health sciences, Polar body, 0302 clinical medicine, Human fertilization, Humans, Medicine, reproductive and urinary physiology, Retrospective Studies, media_common, 030219 obstetrics & reproductive medicine, In vitro fertilisation, urogenital system, business.industry, Obstetrics and Gynecology, Embryo, 030220 oncology & carcinogenesis, Female, Reproduction, business

Abstract

Aim Abnormal fertilization (1PN/3PN) and its accompanying polar body (PB) conditions have been less discussed in poor ovarian responders. By observing the PBs, we analyzed the mechanisms of abnormal fertilization and aimed to explore the role of intracytoplasmic sperm injection/in vitro fertilization (ICSI/IVF) in POSEIDON group 4 patients. Methods An observational study. All fresh IVF/ICSI cycles from January 2018 to December 2019 were evaluated. The inclusion criteria were POSEIDON group 4. Fertilization and PB conditions were assessed 16-18 h post-insemination. Primary observation endpoints including normal fertilization, abnormal fertilization, and total fertilization failure rate. Results A total of 351 cycles involving 180 patients met the inclusion criteria. Of these, 15 cycles reported no retrieved oocytes. Finally, 336 cycles (IVF, n = 267; ICSI, n = 69) were included. A total of 1005 oocytes and 939 embryos were assessed. The mean female age was 40.8 years, and the mean AMH level was 0.6 ng/mL. The normal fertilization rate was 69.7%. The zygote distribution was 18.7% 0PN, 3.9% 1PN, 66.9% 2PN, 9.5% 3PN, and 1.0% ≥4PN. For 1PN zygotes, 59% were denoted as 1PN2PB. The mean 3PN rate was 8.9%. Conclusions In POSEIDON group 4, most of the monopronucleated zygotes were 1PN2PB. Digyny (3PN1PB), due to failure to extrude the second PB, was the major cause of triploidy in which ICSI could not circumvent. The distribution of abnormally fertilized zygotes was similar in IVF and ICSI. To investigate the mechanisms of abnormal fertilization and assess whether ICSI is necessary, analysis of PB will provide important clues.

Published

2021

22. No universal differences between female and male eukaryotes: anisogamy and asymmetrical female meiosis.

Author

GORELICK, ROOT, CARPINONE, JESSICA, and DERRAUGH, LINDSAY JACKSON

Subjects

*ANGIOSPERM genetics, *EUKARYOTIC genomes, *DIPLOIDY, *EUKARYOTIC evolution, *NUCLEAR pore complex

Abstract

We previously showed that, across eukaryotes, universal differences do not exist between diploid females and males; hence, in the present study, we examine haploid stages. Unlike animal sperm, flowering plant sperm have nuclear pores, and so cannot be used to distinguish haploid females from males. Female and male gametes are not complementary: eggs and can fertilize eggs, whereas sperm can fertilize sperm, in some taxa. One sex of gametes is not universally parasitic on the other. Commonly held differences between eggs and sperm (e.g. only eggs, and not sperm, are large, long-lived, and immobile) do not apply to many eukaryotes. Many or all angiosperms have small eggs, sperm without flagella, and long-lived pollen. In many plants, we supposedly can distinguish females from males, although they have similar sized gametes. Theories of anisogamy are based on less energy being required to produce small sperm than large eggs. However any selective advantage of smaller sperm is nullified by sequestering most cytoplasmic biomass as residual bodies following meiosis in metazoa. Moreover, zoidogamous gymnosperms have numerous huge sperm. In both animals and plants, sperm are not the immediate products of meiosis but, instead, develop afterwards via haploid cell divisions. Consequently, we examined whether the most promising universal sexual difference in animals applies to plants and stramenopiles, namely asymmetrical female meiosis vs. symmetrical male meiosis. A few angiosperms (and some animals) have asymmetrical male meiosis, whereas many plants have symmetrical female meiosis. All bryophytes and stramenopiles with UV chromosomes do not have asymmetrical female meiosis insofar as meiosis produces two female and two male gametophytes. Homosporous monilophytes, lycophytes, and anthocerotophytes lack female vs. male meiosis, although they have distinct eggs and sperm. Therefore, currently, there are no universal criteria for distinguishing females from males across all animals, across all plants or across all stramenopiles, let alone across all eukaryotes. [ABSTRACT FROM AUTHOR]

Published

2017

23. A novel approach toward the generation of oocytes by direct diploid cell haploidization.

Author

Setton R, Xie P, Rosenwaks Z, and Palermo GD

Subjects

Male, Female, Mice, Animals, Cell Nucleus genetics, Polar Bodies, Blastocyst, Mammals, Diploidy, Oocytes physiology

Abstract

Oocyte-mediated somatic cell haploidization is a process in which a diploid cell halves its chromosomal content by segregating its homologue within the ooplasm. Replacing the donor oocyte nucleus with a patient's female diploid somatic nucleus can generate patient-genotyped oocytes. Insemination of these resulting constructs enables their activation and induces a reductive meiotic division, haploidizing the diploid female donor cell that can subsequently support syngamy with the male genome and create a zygote. So far, experimental data for this method have been limited and have not consistently proven the generation of chromosomally normal embryos. Overall, we achieved reconstruction of murine oocytes with a micromanipulation survival rate of 56.5%, and a correct haploidization and fertilization rate of 31.2%, resulting in a 12.7% blastocyst rate. Time-lapse analysis revealed that reconstructed embryos underwent a timely polar body extrusion and pronuclear appearance followed by a satisfactory embryonic cleavage, comparable with the control. Whole genome sequencing of the analyzed embryos indicated that 27.3% (6/22) were properly diploid. Our findings suggest that diploid cell haploidization may be a feasible technique for creating functional gametes in mammals.

Published

2023

24. The role of ORC4 in enucleation of Murine Erythroleukemia (MEL) cells is similar to that in oocyte polar body extrusion

Author

W. Steven Ward, Anna Ung, and Hieu Nguyen

Subjects

DNA Replication, 0301 basic medicine, Erythroblasts, Urology, Enucleation, Origin Recognition Complex, Polar Bodies, Heterocyclic Compounds, 4 or More Rings, Oogenesis, Article, Mice, 03 medical and health sciences, Polar body, 0302 clinical medicine, Erythroblast, Cell Line, Tumor, hemic and lymphatic diseases, Erythrocyte enucleation, medicine, Animals, Cell Nucleus, 030219 obstetrics & reproductive medicine, Chemistry, DNA replication, Oocyte, Chromatin, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Reproductive Medicine, Leukemia, Erythroblastic, Acute

Abstract

The Origin Replication Complex subunit 4 (ORC4) is one in six subunits of the Origin Replication Complexes (ORCs) which is essential for initiating licensing at DNA replication origins and recruiting adaptor molecules necessary for various cellular processes. Previously, we reported that ORC4 also plays a vital role in polar body extrusion (PBE) during oogenesis in which half the chromosomes are extruded from the oocyte. We hypothesized that ORC4 might play a broader role in chromatin elimination. We tested its role in enucleation during the development of erythrocytes. Murine erythroleukemia (MEL) cells can be propagated in culture indefinitely and can be induced to enucleate their DNA by treatment with Vacuolin-1, thereby mimicking normal erythrocyte enucleation. We found that ORC4 appeared around the nuclei of the MEL cells with Vacuolin-1 treatment, gradually increasing in thickness before enucleation. We then tested whether ORC4 was required for MEL enucleation by down regulating ORC4 with siRNA-ORC4 during Vacuolin-1 treatment and found that this prevented MEL enucleation. These data are consistent with the model that ORC4 is required for erythroblast enucleation just as it is for oocyte PBE. They suggest a new model in which ORC4 expression is a marker for the initiation to the enucleation pathway.

Published

2020

25. Mitochondrial replacement in macaque monkey offspring by first polar body transfer

Author

Qiang Sun, Zhen Liu, Naihe Jing, Qiming Liu, Yanhong Nie, Yong Lu, Yuzhuo Li, Tikui Zhang, Yan Wang, Xianfa Yang, Xiaotong Zhang, Yuting Xu, and Zhanyang Wang

Subjects

Mitochondrial Diseases, biology, Offspring, Embryonic Development, Polar Bodies, Cell Biology, DNA, Mitochondrial, Macaque, Mitochondrial Replacement Therapy, Mitochondria, Cell biology, Treatment Outcome, Pregnancy, biology.animal, Models, Animal, Mutation, Animals, Macaca, First polar body, Female, Letter to the Editor, Molecular Biology

Published

2020

26. Identification novel mutations in TUBB8 in female infertility and a novel phenotype of large polar body in oocytes with TUBB8 mutations

Author

Wenjing Wang, Juanzi Shi, Jie Dong, Zhihua Zhang, Xiaoxi Sun, Li Jin, Zhou Zhou, Shiru Xu, Qing Sang, Qiaoli Li, Yanping Kuang, Rong Shi, Jian Mu, Yichun Guan, Jing Fu, Bin Li, Lin He, Jing Du, Lin Zhao, Biaobang Chen, Lei Wang, Zheng Yan, and Ling Wu

Subjects

Adult, 0301 basic medicine, Embryonic Development, Polar Bodies, Biology, Andrology, 03 medical and health sciences, symbols.namesake, Polar body, Oogenesis, 0302 clinical medicine, Pregnancy, Tubulin, Gamete Biology, Genetics, medicine, Humans, Embryo Implantation, Genetics (clinical), Sanger sequencing, 030219 obstetrics & reproductive medicine, Embryogenesis, Female infertility, Obstetrics and Gynecology, General Medicine, Oocyte, medicine.disease, Embryonic stem cell, Phenotype, Human genetics, 030104 developmental biology, medicine.anatomical_structure, Reproductive Medicine, Mutation, Oocytes, symbols, Female, Infertility, Female, Developmental Biology

Abstract

PURPOSE: We aimed to identify novel variants in TUBB8 and corresponding new abnormal phenotypes in oocytes/fertilization/ embryonic development responsible for female infertility. METHODS: Sanger sequencing of TUBB8 was performed in infertile women with abnormalities in oocyte maturation or embryonic development. The effects of the variants were evaluated in patients’ oocytes by morphological observations and immunofluorescence. RESULTS: We identified 34 novel variants of TUBB8 in 51 patients who were diagnosed with abnormalities in oocyte maturation or early embryonic development. We found a novel phenotype in which large polar bodies were present in three independent patients possibly associated with a recurrent variant. Moreover, we identified a novel type of TUBB8 variant consisting of an in-frame deletion-insertion, which has not been previously reported. CONCLUSIONS: Our present study identified 34 novel variants in TUBB8 in 51 patients. These patients show oocyte maturation arrest, oocytes with large polar body, fertilization failure, early embryonic arrest or embryonic implantation failure. These results expand the kinds of variants and phenotypic spectrum of TUBB8 variants with regard to female infertility. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s10815-020-01830-6) contains supplementary material, which is available to authorized users.

Published

2020

27. Production of mouse androgenetic embryos using spindle perturbation

Author

Takaya Totsuka and Miho Ohsugi

Subjects

Male, Cell biology, Cell division, Zygote, Embryonic Development, lcsh:Medicine, Fertilization in Vitro, Polar Bodies, Spindle Apparatus, Biology, Models, Biological, Article, Chromosome segregation, chemistry.chemical_compound, Meiosis, Microtubule, Developmental biology, medicine, Animals, lcsh:Science, Cytokinesis, Multidisciplinary, Genome, Nocodazole, Biological techniques, lcsh:R, Oocyte, Embryo, Mammalian, Chromosomes, Mammalian, Chromatin, Mice, Inbred C57BL, medicine.anatomical_structure, chemistry, Embryogenesis, Oocytes, Female, lcsh:Q, PRC1

Abstract

To study the functional differences between maternal and paternal genomes in mammalian development, embryos with only one parental genome are often used. Androgenetic embryos are produced by the removal of maternal chromosomes before or after fertilization by techniques that require specialized skills and are associated with high risk of cellular damage. Here, we developed a novel method for producing androgenetic mouse embryos without the invasive enucleation process. We found that during in vitro fertilization in the presence of low-dose nocodazole, a microtubule destabilizing drug, whole oocyte chromosomes were extruded into the second polar body resulting in the production of androgenetic embryos. We further demonstrated that low-dose nocodazole decreased the spindle size and prevented chromosome segregation but did not compromise oocyte meiotic resumption. This led to the formation of a protrusion around the chromosomes, accumulation of protein regulator of cytokinesis 1 (PRC1) to the microtubules around the chromosomes, and assembly of a contractile ring at the neck region of the protrusion. Our method uses the intrinsic cytokinetic mechanism to exclude maternal chromatin from zygotes and may be applicable to other mammals.

Published

2020

28. An economic analysis of preimplantation genetic testing for aneuploidy by polar body biopsy in advanced maternal age

Author

J.P.M. Geraedts, Wolfgang Rudolph-Rothfeld, V. Goossens, K van der Ven, Mònica Parriego, Andreas G. Schmutzler, K Neumann, Georg Griesinger, Patrick M.M. Bossuyt, Joanne Traeger-Synodinos, Karen Sermon, Reinhard Vonthein, Epidemiology and Data Science, APH - Methodology, APH - Personalized Medicine, Basic (bio-) Medical Sciences, Reproduction and Genetics, Materials and Chemistry, Faculty of Physical Education and Physical Therapy, Klinische Genetica, and RS: FHML non-thematic output

Subjects

Adult, medicine.medical_specialty, Cost effectiveness, Cost-Benefit Analysis, Population, Polar Bodies, ESTEEM trial, Miscarriage, Genetic Testing/economics, Polar Bodies/transplantation, medicine, Humans, array CGH, TROPHECTODERM, Polar body biopsy, Abortion, Spontaneous/genetics, Genetic Testing, Advanced maternal age, education, cost-effectiveness, Preimplantation Diagnosis, health care economics and organizations, Genetic testing, education.field_of_study, medicine.diagnostic_test, Obstetrics, business.industry, Obstetrics and Gynecology, Aneuploidy, medicine.disease, abortion, Abortion, Spontaneous, EXPECTANT, Pregnancy rate, polar body biopsy, PREGNANCY, IVF, Preimplantation Diagnosis/economics, Female, preimplantation genetic testing, business, Live birth, Maternal Age

Abstract

Objective: What are the cost per live birth and the incremental cost of preventing a miscarriage with preimplantation genetic testing for aneuploidy (PGT-A) by polar body biopsy and array-based comprehensive genome hybridisation (aCGH) versus regular IVF/ICSI without PGT-A for infertility treatment in women 36–40 years of age?. Design: Decision tree model. Population: A randomised clinical trial on PGT-A (ESTEEM study). Methods: Two treatment strategies were compared: one cycle of IVF/ICSI with or without PGT-A. Costs and effects were analysed with this model for four different cost scenarios: high-, higher medium, lower medium and low-cost. Base case, sensitivity, threshold, and probabilistic sensitivity analyses were used to examine the cost-effectiveness implications of PGT-A. Results: PGT-A increased the cost per live birth by approximately 15% in the high-cost scenario to approximately 285% in the low-cost scenario. Threshold analysis revealed that PGT-A would need to be associated with an absolute increase in pregnancy rate by 6% to >39% or, alternatively, would need to be US$2,969 (high-cost scenario) to US$4,888 (low-cost scenario) cheaper. The incremental cost to prevent one miscarriage by PGT-A using the base case assumptions was calculated to be US$34,427 (high-cost scenario) to US$51,146 (low-cost scenario). A probabilistic sensitivity analysis showed cost-effectiveness for PGT-A from 1.9% (high-cost scenario) to 0.0% (low-cost scenario) of calculated samples. Conclusions: While avoiding unnecessary embryo transfers and miscarriages are important goals, patients and doctors need to be aware of the high-cost implications of applying PGT-A using aCGH on polar bodies. Tweetable abstract: PGT-A by polar body biopsy and comprehensive genome hybridisation increases cost per live birth and requires high financial spending per miscarriage averted.

Published

2020

29. Phospholipase C inhibits apoptosis of porcine oocytes cultured in vitro

Author

Boyang Liu, Lin Wu, Xiao Han Jiang, Li Yang, Jian Yong Cheng, Qingwang Li, Hua Li Chen, Jiaxin Duan, Yuan Li, Xiaoya Li, Youfu Yang, and Meihong Shi

Subjects

0301 basic medicine, NFATC2, Swine, Phospholipase C beta, Apoptosis, Polar Bodies, In Vitro Techniques, Biochemistry, Gene Expression Regulation, Enzymologic, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, RNA, Messenger, Estrenes, Molecular Biology, Cell Nucleus, Messenger RNA, Phospholipase C, Activator (genetics), Chemistry, Gene Expression Profiling, Ovary, Gene Expression Regulation, Developmental, Cell Biology, Oocyte, Pyrrolidinones, In vitro, Cell biology, Blastocyst, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Oocytes, Calcium, Female, Intracellular, Signal Transduction

Abstract

Oocyte apoptosis can be used as an indicator of oocyte quality and development competency. Phospholipase C (PLC) is a critical enzyme that participates in phosphoinositide metabolic regulation and performs many functions, including the regulation of reproduction. In this study, we aimed to explore whether PLC participates in the regulation of apoptosis in porcine oocytes and investigated its possible mechanism. In porcine oocytes, 0.5 μM U73122 (the PLC inhibitor) was considered to be the best concentration to facilitate maturation, and 0.5 μM m-3M3FBS (the PLC activator) was regarded as the most appropriate concentration to inhibit maturation. The percentage of cleavage and blastocysts treated with 0.5 μM U73122 was lower than that of the control group. Furthermore, the percentage of cleavage and blastocysts treated with 0.5 μM m-3M3FBS was higher than that of the control group. The relative PLC messenger RNA (mRNA) expression tested by a quantitative real-time polymerase chain reaction was found to be inhibited by 0.5 μM U73122 or activated by 0.5 μM m-3M3FBS. The relative mRNA abundance of BAK, BAX, CASP3, CASP8, and TP53 and protein abundance of Bak, cleaved caspase-3, caspase-8, and P53 was activated by U73122 or inhibited by m-3M3FBS, while the relative mRNA and protein level of BCL6 showed the opposite trend. The intracellular Ca2+ concentration increased and the expression of PLCB1 protein also increased in porcine oocytes when they were cultured with 0.5 μM m-3M3FBS for 44 hours. The abundance of proteins PKCβ and CAMKIIα and the expression of several downstream genes (CDC42, NFATc1, NFATc2, NFκB, and NLK) were activated by m-3M3FBS or inhibited by U73122. Our findings indicate that PLC inhibits apoptosis and maturation in porcine oocytes. The intracellular Ca2+ concentration, two Ca2+ -sensitive proteins, and several downstream genes were positively regulated by PLC.

Published

2020

30. Cell Repolarization: A Bifurcation Study of Spatio-Temporal Perturbations of Polar Cells

Author

Andreas Buttenschön and Leah Edelstein-Keshet

Subjects

Pharmacology, rho GTP-Binding Proteins, Computational Theory and Mathematics, General Mathematics, General Neuroscience, Immunology, Cell Polarity, Mathematical Concepts, Polar Bodies, General Agricultural and Biological Sciences, Models, Biological, General Biochemistry, Genetics and Molecular Biology, General Environmental Science

Abstract

The intrinsic polarity of migrating cells is regulated by spatial distributions of protein activity. Those proteins (Rho-family GTPases, such as Rac and Rho) redistribute in response to stimuli, determining the cell front and back. Reaction-diffusion equations with mass conservation and positive feedback have been used to explain initial polarization of a cell. However, the sensitivity of a polar cell to a reversal stimulus has not yet been fully understood. We carry out a PDE bifurcation analysis of two polarity models to investigate routes to repolarization: (1) a single-GTPase ("wave-pinning") model and (2) a mutually antagonistic Rac-Rho model. We find distinct routes to reversal in (1) vs. (2). We show numerical simulations of full PDE solutions for the RD equations, demonstrating agreement with predictions of the bifurcation results. Finally, we show that simulations of the polarity models in deforming 1D model cells are consistent with biological experiments.

Published

2021

31. The Lon protease temporally restricts polar cell differentiation events during the

Author

Deike J, Omnus, Matthias J, Fink, Klaudia, Szwedo, and Kristina, Jonas

Subjects

Microbiology and Infectious Disease, proteolysis, Protease La, FliK, Lon protease, Cell Differentiation, Polar Bodies, Cell Biology, bacterial cell cycle, Bacterial Proteins, Caulobacter crescentus, bacteria, flagella, Other, Research Article

Abstract

The highly conserved protease Lon has important regulatory and protein quality control functions in cells from the three domains of life. Despite many years of research on Lon, only a few specific protein substrates are known in most organisms. Here, we used a quantitative proteomics approach to identify novel substrates of Lon in the dimorphic bacterium Caulobacter crescentus. We focused our study on proteins involved in polar cell differentiation and investigated the developmental regulator StaR and the flagella hook length regulator FliK as specific Lon substrates in detail. We show that Lon recognizes these proteins at their C-termini, and that Lon-dependent degradation ensures their temporally restricted accumulation in the cell cycle phase when their function is needed. Disruption of this precise temporal regulation of StaR and FliK levels in a Δlon mutant contributes to defects in stalk biogenesis and motility, respectively, revealing a critical role of Lon in coordinating developmental processes with cell cycle progression. Our work underscores the importance of Lon in the regulation of complex temporally controlled processes by adjusting the concentrations of critical regulatory proteins. Furthermore, this study includes the first characterization of FliK in C. crescentus and uncovers a dual role of the C-terminal amino acids of FliK in protein function and degradation.

Published

2021

32. Genome transfer technique for bovine embryo production using the metaphase plate and polar body.

Author

Dode MAN, Caixeta FMC, Vargas LN, Leme LO, Kawamoto TS, Fidelis AAG, and Franco MM

Subjects

Humans, Male, Animals, Cattle, Mice, Metaphase genetics, Cryopreservation methods, Semen, Oocytes, Blastocyst, Polar Bodies, Fertilization in Vitro methods

Abstract

Despite many studies in humans and mice using genome transfer (GT), there are few reports using this technique in oocytes of wild or domestic animals. Therefore, we aimed to establish a GT technique in bovine oocytes using the metaphase plate (MP) and polar body (PB) as the sources of genetic material. In the first experiment, GT was established using MP (GT-MP), and a sperm concentration of 1 × 10 6 or 0.5 × 10 6 spermatozoa/ml gave similar fertilization rates. The cleavage rate (50%) and blastocyst rate (13.6%) in the GT-MP group was lower than that of the in vitro production control group (80.2% and 32.6%, respectively). The second experiment evaluated the same parameters using PB instead of MP; the GT-PB group had lower fertilization (82.3% vs. 96.2%) and blastocyst (7.7% vs. 36.8%) rates than the control group. No differences in the amount of mitochondrial DNA (mtDNA) were observed between groups. Finally, GT-MP was performed using vitrified oocytes (GT-MPV) as a source of genetic material. The cleavage rate of the GT-MPV group (68.4%) was similar to that of the vitrified oocytes (VIT) control group (70.0%) and to that of the control IVP group (81.25%, P < 0.05). The blastocyst rate of GT-MPV (15.7) did not differ neither from the VIT control group (5.0%) nor from the IVP control group (35.7%). The results suggested that the structures reconstructed by the GT-MPV and GT-PB technique develop in embryos even if vitrified oocytes are used., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

33. Corpolarities: produced bodies on a cared for antarctica

Abstract

Antarctica is a peculiar territory: with extremely low temperatures, light patterns different from other continents, governed by experimental geopolitics, without indigenous population but nevertheless inhabited year by year by logistic stuff and researchers. Antarctica requires specific bodies, capable of dealing with harsh conditions. What bodies are fit enough to go to Antarctica? How do they resist? This article summarizes the results of a master's thesis in sociocultural anthropology, which attempts to address care practices as a technology that sustains the continent: environmental, physical, emotional, institutional, interpersonal and labour care, which provides scientific productivity and the continuation of the Antarctic project. Through an ethnographic approach to Julio Escudero Scientific Station in Antarctica and Punta Arenas in Chile in 2019, I travelled with scientific workers of the Antarctic Scientific Expedition (ECA55 in Spanish), concluding that Antarctic workers deploy practices of caring for themselves, others, their projects and Antarctica itself. These workers, selected and produced, Antarctica-makers, are characterized here as “cor(polar)ities”., La Antártica es un territorio particular: con temperaturas extremas, regímenes de luz distintos a otros continentes, gobernado de maneras experimentales, sin población originaria y sin embargo habitado año a año por investigadores y logísticos/as. Antártica requiere cuerpos específicos, capaces de lidiar con sus duras condiciones ¿qué cuerpos habitan el continente? ¿cómo resisten? Este artículo presenta los resultados de una tesis de antropología sociocultural que aborda prácticas de cuidado como tecnología sostenedora del continente; cuidados ambientales, físicos, emocionales, institucionales, interpersonales y laborales, que garantizan la productividad científica y la continuación del proyecto antártico. Mediante un acercamiento etnográfico a la base científica Julio Escudero, Antártica y Punta Arenas, Chile, viajo con trabajadores científicos en la Expedición Científica Antártica (ECA55) en 2019. Estos trabajadores antárticos especializados despliegan prácticas para la mantención de sí, del otro, de su trabajo y de Antártica misma. Trabajadores seleccionados y marcados por el proyecto antártico, productores de Antártica, se caracterizados aquí como “cor(polar)idades”.

Published

2021

34. Corpolaridades: cuerpos producidos en una cuidadosa antártica

Author

Vergara Escobar, Florencia Paz and Vergara Escobar, Florencia Paz

Abstract

Antarctica is a peculiar territory: with extremely low temperatures, light patterns different from other continents, governed by experimental geopolitics, without indigenous population but nevertheless inhabited year by year by logistic stuff and researchers. Antarctica requires specific bodies, capable of dealing with harsh conditions. What bodies are fit enough to go to Antarctica? How do they resist? This article summarizes the results of a master's thesis in sociocultural anthropology, which attempts to address care practices as a technology that sustains the continent: environmental, physical, emotional, institutional, interpersonal and labour care, which provides scientific productivity and the continuation of the Antarctic project. Through an ethnographic approach to Julio Escudero Scientific Station in Antarctica and Punta Arenas in Chile in 2019, I travelled with scientific workers of the Antarctic Scientific Expedition (ECA55 in Spanish), concluding that Antarctic workers deploy practices of caring for themselves, others, their projects and Antarctica itself. These workers, selected and produced, Antarctica-makers, are characterized here as “cor(polar)ities”., La Antártica es un territorio particular: con temperaturas extremas, regímenes de luz distintos a otros continentes, gobernado de maneras experimentales, sin población originaria y sin embargo habitado año a año por investigadores y logísticos/as. Antártica requiere cuerpos específicos, capaces de lidiar con sus duras condiciones ¿qué cuerpos habitan el continente? ¿cómo resisten? Este artículo presenta los resultados de una tesis de antropología sociocultural que aborda prácticas de cuidado como tecnología sostenedora del continente; cuidados ambientales, físicos, emocionales, institucionales, interpersonales y laborales, que garantizan la productividad científica y la continuación del proyecto antártico. Mediante un acercamiento etnográfico a la base científica Julio Escudero, Antártica y Punta Arenas, Chile, viajo con trabajadores científicos en la Expedición Científica Antártica (ECA55) en 2019. Estos trabajadores antárticos especializados despliegan prácticas para la mantención de sí, del otro, de su trabajo y de Antártica misma. Trabajadores seleccionados y marcados por el proyecto antártico, productores de Antártica, se caracterizados aquí como “cor(polar)idades”.

Published

2021

35. Corpolarities: produced bodies on a cared for antarctica

Abstract

Antarctica is a peculiar territory: with extremely low temperatures, light patterns different from other continents, governed by experimental geopolitics, without indigenous population but nevertheless inhabited year by year by logistic stuff and researchers. Antarctica requires specific bodies, capable of dealing with harsh conditions. What bodies are fit enough to go to Antarctica? How do they resist? This article summarizes the results of a master's thesis in sociocultural anthropology, which attempts to address care practices as a technology that sustains the continent: environmental, physical, emotional, institutional, interpersonal and labour care, which provides scientific productivity and the continuation of the Antarctic project. Through an ethnographic approach to Julio Escudero Scientific Station in Antarctica and Punta Arenas in Chile in 2019, I travelled with scientific workers of the Antarctic Scientific Expedition (ECA55 in Spanish), concluding that Antarctic workers deploy practices of caring for themselves, others, their projects and Antarctica itself. These workers, selected and produced, Antarctica-makers, are characterized here as “cor(polar)ities”., La Antártica es un territorio particular: con temperaturas extremas, regímenes de luz distintos a otros continentes, gobernado de maneras experimentales, sin población originaria y sin embargo habitado año a año por investigadores y logísticos/as. Antártica requiere cuerpos específicos, capaces de lidiar con sus duras condiciones ¿qué cuerpos habitan el continente? ¿cómo resisten? Este artículo presenta los resultados de una tesis de antropología sociocultural que aborda prácticas de cuidado como tecnología sostenedora del continente; cuidados ambientales, físicos, emocionales, institucionales, interpersonales y laborales, que garantizan la productividad científica y la continuación del proyecto antártico. Mediante un acercamiento etnográfico a la base científica Julio Escudero, Antártica y Punta Arenas, Chile, viajo con trabajadores científicos en la Expedición Científica Antártica (ECA55) en 2019. Estos trabajadores antárticos especializados despliegan prácticas para la mantención de sí, del otro, de su trabajo y de Antártica misma. Trabajadores seleccionados y marcados por el proyecto antártico, productores de Antártica, se caracterizados aquí como “cor(polar)idades”.

Published

2021

36. Fertilization and Cleavage Axes Differ In Primates Conceived By Conventional (IVF) Versus Intracytoplasmic Sperm Injection (ICSI)

Author

Carrie Hartnett, Gerald Schatten, Calvin Simerly, Carlos A. Castro, Laura Hewitson, Ethan Jacoby, Diana Takahashi, and Christopher S. Navara

Subjects

0301 basic medicine, Male, Primates, Embryology, Zygote, medicine.medical_treatment, Science, Parthenogenesis, Mitosis, Video microscopy, Reproductive technology, Fertilization in Vitro, Polar Bodies, Spindle Apparatus, Biology, Microtubules, Intracytoplasmic sperm injection, Article, 03 medical and health sciences, Polar body, 0302 clinical medicine, medicine, Animals, Humans, Sperm Injections, Intracytoplasmic, reproductive and urinary physiology, Cell Nucleus, Centrosome, 030219 obstetrics & reproductive medicine, Multidisciplinary, Pronucleus, urogenital system, Male pronucleus, Sperm, Macaca mulatta, Spermatozoa, Cell biology, Spindle apparatus, Macaca fascicularis, 030104 developmental biology, Fertilization, embryonic structures, Oocytes, Medicine, Female

Abstract

With nearly ten million babies conceived globally, using assisted reproductive technologies, fundamental questions remain; e.g., How do the sperm and egg DNA unite? Does ICSI have consequences that IVF does not? Here, pronuclear and mitotic events in nonhuman primate zygotes leading to the establishment of polarity are investigated by multidimensional time-lapse video microscopy and immunocytochemistry. Multiplane videos after ICSI show atypical sperm head displacement beneath the oocyte cortex and eccentric para-tangential pronuclear alignment compared to IVF zygotes. Neither fertilization procedure generates incorporation cones. At first interphase, apposed pronuclei align obliquely to the animal-vegetal axis after ICSI, with asymmetric furrows assembling from the male pronucleus. Furrows form within 30° of the animal pole, but typically, not through the ICSI injection site. Membrane flow drives polar bodies and the ICSI site into the furrow. Mitotic spindle imaging suggests para-tangential pronuclear orientation, which initiates random spindle axes and minimal spindle:cortex interactions. Parthenogenetic pronuclei drift centripetally and assemble astral spindles lacking cortical interactions, leading to random furrows through the animal pole. Conversely, androgenotes display cortex-only pronuclear interactions mimicking ICSI. First cleavage axis determination in primates involves dynamic cortex-microtubule interactions among male pronuclei, centrosomal microtubules, and the animal pole, but not the ICSI site.

Published

2019

37. Actin-microtubule interplay coordinates spindle assembly in human oocytes

Author

Johannes Roeles and Georgios Tsiavaliaris

Subjects

0301 basic medicine, Science, General Physics and Astronomy, Aneuploidy, Polar Bodies, Spindle Apparatus, macromolecular substances, Biology, Microtubules, General Biochemistry, Genetics and Molecular Biology, Article, Chromosome segregation, 03 medical and health sciences, Polar body, 0302 clinical medicine, Meiosis, Microtubule, Tubulin, Chromosome Segregation, medicine, Humans, Cytoskeleton, lcsh:Science, Actin, Multidisciplinary, General Chemistry, medicine.disease, Oocyte, Actins, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Oocytes, Female, lcsh:Q, 030217 neurology & neurosurgery

Abstract

Mammalian oocytes assemble a bipolar acentriolar microtubule spindle to segregate chromosomes during asymmetric division. There is increasing evidence that actin in the spindle interior not only participates in spindle migration and positioning but also protects oocytes from chromosome segregation errors leading to aneuploidy. Here we show that actin is an integral component of the meiotic machinery that closely interacts with microtubules during all major events of human oocyte maturation from the time point of spindle assembly till polar body extrusion and metaphase arrest. With the aid of drugs selectively affecting cytoskeleton dynamics and transiently disturbing the integrity of the two cytoskeleton systems, we identify interdependent structural rearrangements indicative of a close communication between actin and microtubules as fundamental feature of human oocytes. Our data support a model of actin-microtubule interplay that is essential for bipolar spindle assembly and correct partitioning of the nuclear genome in human oocyte meiosis., Actin and microtubules contribute to successful oocyte maturation, but if and how these two networks communicate in human oocytes is unclear. Here the authors show that actin-microtubule interactions are essential for correct segregation of human nuclear genomic content.

Published

2019

38. Allicin protects porcine oocytes against damage during aging in vitro

Author

Eun Young Kim, Seung-Eun Lee, Jae-Wook Yoon, Se-Pill Park, and Yun-Gwi Park

Subjects

0301 basic medicine, Antioxidant, Swine, Autophagic Cell Death, medicine.medical_treatment, Parthenogenesis, Apoptosis, Polar Bodies, Biology, Andrology, 03 medical and health sciences, Polar body, chemistry.chemical_compound, 0302 clinical medicine, Genetics, medicine, Animals, Disulfides, Blastocyst, Cellular Senescence, 030219 obstetrics & reproductive medicine, Allicin, Autophagy, Cell Biology, Sulfinic Acids, Oocyte, In vitro, 030104 developmental biology, medicine.anatomical_structure, chemistry, Developmental Biology

Abstract

Allicin, a chemical component of garlic, has strong antioxidant activity and is thought to exert antiaging effects in vitro. We investigated whether allicin treatment would protect porcine oocytes and embryos from postovulatory aging mediated by apoptosis and autophagy. The rates of oocyte survival and polar body extrusion in samples treated with 1 µM allicin (1 AL) were significantly higher than in untreated samples (0 AL). In addition, 1 AL prevented defects in spindle formation and chromosome alignment, as well as decreases in the expression of maturation markers, during in vitro aging. In this study, we considered allicin to be a regulator of autophagy rather than an antioxidant or antiapoptotic agent. At the embryo level, although the cleavage rate after parthenogenetic activation was similar in all groups, the blastocyst formation rate was higher in the 1 AL group than in the 0 AL group. Our findings demonstrate that allicin effectively prevents the deterioration of porcine oocytes during aging in vitro, and could therefore be used to improve the quality of aged oocytes used in in vitro experiments.

Published

2019

39. Preimplantation genetic diagnosis (PGD) and genetic testing for aneuploidy (PGT-A): status and future challenges

Author

Romualdo Sciorio, James Catt, and Luca Tramontano

Subjects

Blastomeres, Biopsy, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Aneuploidy, 030209 endocrinology & metabolism, Fertilization in Vitro, Polar Bodies, Biology, Bioinformatics, Preimplantation genetic diagnosis, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Embryo Culture Techniques, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, medicine, Humans, In Situ Hybridization, Fluorescence, Preimplantation Diagnosis, reproductive and urinary physiology, Oligonucleotide Array Sequence Analysis, Genetic testing, Comparative Genomic Hybridization, 030219 obstetrics & reproductive medicine, In vitro fertilisation, medicine.diagnostic_test, urogenital system, High-Throughput Nucleotide Sequencing, Obstetrics and Gynecology, medicine.disease, female genital diseases and pregnancy complications, Trophoblasts, Blastocyst, Multiplex Polymerase Chain Reaction, therapeutics, hormones, hormone substitutes, and hormone antagonists

Abstract

The world's first in vitro fertilization (IVF) baby was born in July 1978 in the UK. Since then, more than 7 million infants have been born worldwide as a result of IVF. Preimplantation genetic dia...

Published

2019

40. Loss of PKC mu function induces cytoskeletal defects in mouse oocyte meiosis

Author

Yu Zhang, Shao-Chen Sun, Xiao-Han Li, Hong-Hui Wang, Xiang Wan, Lan-Lan Wu, and Zhen-Nan Pan

Subjects

0301 basic medicine, Physiology, Clinical Biochemistry, Polar Bodies, Spindle Apparatus, macromolecular substances, 03 medical and health sciences, Polar body, 0302 clinical medicine, Tubulin, Microtubule, medicine, Animals, Phosphorylation, Cytoskeleton, Protein Kinase C, Protein kinase C, Actin, Mice, Inbred ICR, Chemistry, Acetylation, Cell Differentiation, Cell Biology, Cofilin, Oocyte, Actins, Cell biology, Meiosis, 030104 developmental biology, medicine.anatomical_structure, Actin Depolymerizing Factors, 030220 oncology & carcinogenesis, Oocytes, Spindle organization, Female

Abstract

Cytoskeleton which includes microtubule and actin filaments plays important roles during mammalian oocyte maturation. In the present study, we showed that protein kinase C mu (PKC mu) was one potential key molecule which affected cytoskeleton dynamics in mouse oocytes. Our results showed that PKC mu expressed and localized at the poles of the spindle during oocyte maturation, and PKC mu expression reduced in the oocytes from 6-month-old mice or 24 hr in vitro culture. We knocked down the expression of PKC mu in oocytes using morpholino injection to explore the relationship between PKC mu and subcellular structure defects. The loss of PKC mu reduced oocyte maturation competence, showing with decreased polar body extrusion rate and increased rate of symmetric division. Further analysis indicated that PKC mu decrease caused the spindle organization defects, and this could be confirmed by the decreased tubulin acetylation level. Moreover, we found that PKC mu affected the phosphorylation level of cofilin for actin assembly, which further affected cytoplasmic actin distribution and spindle positioning. In summary, our data indicated that PKC mu is one key factor for oocyte maturation through its roles on the spindle organization and actin filament distribution.

Published

2019

41. PKCβ1 regulates meiotic cell cycle in mouse oocyte

Author

Chun-Hui Zhang, Yi Hou, Ying-Chun Ouyang, Heide Schatten, Ming-Zhe Dong, Qiu-Xia Liang, Zi-Yun Yi, Tie-Gang Meng, Qing-Yuan Sun, Jian Li, Wei-Ping Qian, and Jie Qiao

Subjects

0301 basic medicine, Cytoplasm, Microinjections, Polar Bodies, Spindle Apparatus, Biology, Chromosomes, Spindle pole body, Mice, 03 medical and health sciences, 0302 clinical medicine, CDC2 Protein Kinase, Protein Kinase C beta, medicine, Animals, RNA, Messenger, Telophase, Cyclin B1, RNA, Small Interfering, Molecular Biology, Metaphase, Mice, Inbred ICR, Cyclin-dependent kinase 1, Germinal vesicle, urogenital system, Cell Biology, Oocyte, Cell biology, Midbody, Spindle checkpoint, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, M Phase Cell Cycle Checkpoints, Female, RNA Interference, Plasmids, Research Paper, Developmental Biology

Abstract

PKCβI, a member of the classical protein kinase C family, plays key roles in regulating cell cycle transition. Here, we report the expression, localization and functions of PKCβI in mouse oocyte meiotic maturation. PKCβI and p-PKCβI (phosphor-PKCβI) were expressed from germinal vesicle (GV) stage to metaphase II (MII) stage. Confocal microscopy revealed that PKCβI was localized in the GV and evenly distributed in the cytoplasm after GV breakdown (GVBD), and it was concentrated at the midbody at telophase in meiotic oocytes. While, p-PKCβI was concentrated at the spindle poles at the metaphase stages and associated with midbody at telophase. Depletion of PKCβI by specific siRNA injection resulted in defective spindles, accompanied with spindle assembly checkpoint activation, metaphase I arrest and failure of first polar body (PB1) extrusion. Live cell imaging analysis also revealed that knockdown of PKCβI resulted in abnormal spindles, misaligned chromosomes, and meiotic arrest of oocytes arrest at the Pro-MI/MI stage. PKCβI depletion did not affect the G2/M transition, but its overexpression delayed the G2/M transition through regulating Cyclin B1 level and Cdc2 activity. Our findings reveal that PKCβI is a critical regulator of meiotic cell cycle progression in oocytes. Abbreviations: PKC, protein kinase C; COC, cumulus-oocyte complexes; GV, germinal vesicle; GVBD, germinal vesicle breakdown; Pro-MI, first pro-metaphase; MI, first metaphase; Tel I, telophase I; MII, second metaphase; PB1, first polar body; SAC, spindle assembly checkpoint.

Published

2019

42. Ribonucleic Acid Export 1 Is a Kinetochore-Associated Protein That Participates in Chromosome Alignment in Mouse Oocytes

Author

Jia-Jun Xiong, Fei Meng, Fan Chen, Xiao-Fei Jiao, Yi-Liang Miao, Zhi-Ming Ding, Li-Jun Huo, and Yong-Sheng Wang

Subjects

Nucleocytoplasmic Transport Proteins, QH301-705.5, Aneuploidy, Polar Bodies, Article, Catalysis, Inorganic Chemistry, Mice, Polar body, Mitotic cell cycle, Nuclear Matrix-Associated Proteins, Meiosis, meiotic maturation, medicine, Animals, RNA, Messenger, aneuploidy, RNA, Small Interfering, Physical and Theoretical Chemistry, Biology (General), Kinetochores, Molecular Biology, QD1-999, Spectroscopy, Gene knockdown, Chemistry, Kinetochore, Organic Chemistry, chromosome alignment, securin, General Medicine, mouse oocyte, medicine.disease, Oocyte, In Vitro Oocyte Maturation Techniques, Computer Science Applications, Cell biology, medicine.anatomical_structure, Securin, Gene Knockdown Techniques, Oocytes, Rae1, Microtubule-Associated Proteins

Abstract

Ribonucleic acid export 1 (Rae1) is an important nucleoporin that participates in mRNA export during the interphase of higher eukaryotes and regulates the mitotic cell cycle. In this study, small RNA interference technology was used to knockdown Rae1, and immunofluorescence, immunoblotting, and chromosome spreading were used to study the role of Rae1 in mouse oocyte meiotic maturation. We found that Rae1 is a crucial regulator of meiotic maturation of mouse oocytes. After the resumption of meiosis (GVBD), Rae1 was concentrated on the kinetochore structure. The knockdown of Rae1 by a specific siRNA inhibited GVBD progression at 2 h, finally leading to a decreased 14 h polar body extrusion (PBE) rate. However, a comparable 14 h PBE rate was found in the control, and the Rae1 knockdown groups that had already undergone GVBD. Furthermore, we found elevated PBE after 9.5 h in the Rae1 knockdown oocytes. Further analysis revealed that Rae1 depletion significantly decreased the protein level of securin. In addition, we detected weakened kinetochore–microtubule (K-MT) attachments, misaligned chromosomes, and an increased incidence of aneuploidy in the Rae1 knockdown oocytes. Collectively, we propose that Rae1 modulates securin protein levels, which contribute to chromosome alignment, K-MT attachments, and aneuploidy in meiosis.

Published

2021

43. Parthenogenetic mosaicism: generation via second polar body retention and unmasking of a likely causative PER2 variant for hypersomnia

Author

Yohei Masunaga, Kazushi Aoto, Hirotomo Saitsu, Masayo Kagami, Kazuo Mishima, Takako Yonemoto, Takeshi Usui, Fumiko Kato, Maki Fukami, and Tsutomu Ogata

Subjects

Adult, Lineage (genetic), Genotype, Parthenogenesis, Disorders of Excessive Somnolence, Polar Bodies, Biology, Unmasked variant, Asian People, Genetics, Endoreduplication, Humans, Genetic Predisposition to Disease, Allele, Molecular Biology, Genetics (clinical), Female pronucleus, Pronucleus, Mosaicism, Research, Genetic Variation, PER2, Period Circadian Proteins, Second polar body retention, Differentially methylated regions, Microsatellite, Female, Idiopathic hypersomnia, Developmental Biology

Abstract

Background Parthenogenetic mosaicism is an extremely rare condition identified only in five subjects to date. The previous studies indicate that this condition is mediated by parthenogenetic activation and is free from a specific phenotype ascribed to unmaking of a maternally inherited recessive variant in the parthenogenetic cell lineage. Results We examined a 28-year-old Japanese 46,XX female with Silver-Russell syndrome and idiopathic hypersomnia. The results revealed (1) predominance of maternally derived alleles for all the differentially methylated regions examined; (2) no disease-related copy-number variant; (3) two types of regions for all chromosomes, i.e., four BAF (B-allele frequency) band regions with single major microsatellite peaks of maternal origin and single minor microsatellite peaks of non-maternal (paternal) origin, and six BAF band regions with single major microsatellite peaks of maternal origin and two minor microsatellite peaks of maternal and non-maternal (paternal) origin; (4) an unmasked extremely rare PER2 variant (c.1403G>A:p.(Arg468Gln)) with high predicted pathogenicity; (5) mildly affected local structure with altered hydrogen bonds of the p.Arg468Gln-PER2 protein; and (6) nucleus-dominant subcellular distribution of the p.Arg468Gln-PER2 protein. Conclusions The above findings imply that the second polar body retention occurred around fertilization, resulting in the generation of the parthenogenetic cell lineage by endoreplication of a female pronucleus and the normal cell lineage by fusion of male and female pronuclei, and that the homozygous PER2 variant in the parthenogenetic cells is the likely causative factor for idiopathic hypersomnia.

Published

2021

44. FASCIN regulates actin assembly for spindle movement and polar body extrusion in mouse oocyte meiosis

Author

Xiang Lu, Zi-Ao Zong, Meng-Hao Pan, Feng Tang, Jun-Li Wang, Lin-Lin Hu, Shao-Chen Sun, Yan-Ping Ren, Zhen-Nan Pan, and Feng-Lian Yang

Subjects

0301 basic medicine, rho GTP-Binding Proteins, Physiology, Clinical Biochemistry, macromolecular substances, Polar Bodies, Spindle Apparatus, 03 medical and health sciences, Polar body, 0302 clinical medicine, Meiosis, medicine, Animals, Actin, Protein kinase C, Cells, Cultured, Protein Kinase C, Fascin, DAAM1, Mice, Inbred ICR, biology, Chemistry, Microfilament Proteins, Cell Biology, Oocyte, Cell biology, Actin Cytoskeleton, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, biology.protein, Oocytes, Female, Carrier Proteins, Cytokinesis

Abstract

During mouse oocyte meiotic maturation, actin filaments play multiple roles in meiosis such as spindle migration and cytokinesis. FASCIN is shown to be an actin-binding and bundling protein, making actin filaments tightly packed and parallel-aligned, and FASCIN is involved in several cellular processes like adhesion and migration. FASCIN is also a potential prognostic biomarker and therapeutic target for the treatment of metastatic disease. However, little is known about the functions of FASCIN in oocyte meiosis. In the present study, we knocked down the expression of FASCIN, and our results showed that FASCIN was essential for oocyte maturation. FASCIN was all expressed in the different stages of oocyte meiosis, and it mainly localized at the cortex of oocytes from the GV stage to the MII stage and showed a similar localization pattern with actin and DAAM1. Depletion of FASCIN affected the extrusion of the first polar body, and we also observed that some oocytes extruded from the large polar bodies. This might have resulted from the defects of actin assembly, which further affected the meiotic spindle positioning. In addition, we showed that inhibition of PKC activity decreased FASCIN expression, indicating that FASCIN might be regulated by PKC. Taken together, our results provided evidence for the important role of FASCIN on actin filaments for spindle migration and polar body extrusion in mouse oocyte meiosis.

Published

2021

45. Topoisomerase II dysfunction causes metaphase I arrest by activating Aurora B, SAC and MPF and prevents PB1 abscission in mouse oocytes†

Author

Jie Zhang, Hong-Jie Yuan, Jiang Zhu, Shuai Gong, Ming-Jiu Luo, and Jing-He Tan

Subjects

Maturation-Promoting Factor, Cell Biology, General Medicine, Polar Bodies, Spindle Apparatus, Chromatin, Meiosis, Mice, DNA Topoisomerases, Type II, Reproductive Medicine, Oocytes, Animals, Aurora Kinase B, M Phase Cell Cycle Checkpoints, Topoisomerase II Inhibitors, Female, Metaphase, Etoposide

Abstract

Oocyte aneuploidy is caused mainly by chromosome nondisjunction and/or unbalanced sister chromatid pre-division. Although studies in somatic cells have shown that topoisomerase II (TOP2) plays important roles in chromosome condensation and timely separation of centromeres, little is known about its role during oocyte meiosis. Furthermore, because VP-16, which is a TOP2 inhibitor and induces DNA double strand breaks, is often used for ovarian cancer chemotherapy, its effects on oocytes must be studied for ovarian cancer patients to recover ovarian function following chemotherapy. This study showed that inhibiting TOP2 with either ICRF-193 or VP-16 during meiosis I impaired chromatin condensation, chromosome alignment, TOP2α localization, and caused metaphase I (MI) arrest and first polar body (PB1) abscission failure. Inhibiting or neutralizing either spindle assembly checkpoint (SAC), Aurora B or maturation-promoting factor (MPF) significantly abolished the effect of ICRF-193 or VP-16 on MI arrest. Treatment with ICRF-193 or VP-16 significantly activated MPF and SAC but the effect disappeared when Aurora B was inhibited. Most of the oocytes matured in the presence of ICRF-193 or VP-16 were arrested at MI, and only 11–27% showed PB1 protrusion. Furthermore, most of the PB1 protrusions formed in the presence of ICRF-193 or VP-16 were retracted after further culture for 7 h. In conclusion, TOP2 dysfunction causes MI arrest by activating Aurora B, SAC, and MPF, and it prevents PB1 abscission by promoting chromatin bridges.

Published

2021

46. STABILITY OF THE REVERSE BLASCHKE-SANTALÓ INEQUALITY FOR UNCONDITIONAL CONVEX BODIES.

Author

KIM, JAEGIL and ZVAVITCH, ARTEM

Subjects

*MATHEMATICAL inequalities, *CONVEX bodies, *HYPERPLANES, *LEBESGUE measure, *CONCAVE functions

Abstract

Mahler's conjecture asks whether the cube is a minimizer for the volume product of a body and its polar in the class of symmetric convex bodies in R n . The inequality corresponding to the conjecture is sometimes called the reverse Blaschke-Santalo inequality. The conjecture is known to be true in R2 and for several special cases. In the class of unconditional convex bodies, Saint-Raymond confirmed the conjecture, and Meyer and Reisner, independently, characterized the equality case. In this paper we present a stability version of these results and also show that any symmetric convex body, which is sufficiently close to an unconditional body, satisfies the reverse Blaschke-Santalo inequality. [ABSTRACT FROM AUTHOR]

Published

2015

47. MOS mutation causes female infertility with large polar body oocytes.

Author

Jiao G, Lian H, Xing J, Chen L, Du Z, and Liu X

Subjects

Humans, Female, Polar Bodies, Meiosis, Proto-Oncogene Proteins c-mos genetics, Proto-Oncogene Proteins c-mos metabolism, Oocytes physiology, Mutation, Infertility, Female metabolism, Sarcoma metabolism

Abstract

The Moloney sarcoma oncogene ( MOS) encodes a protein serine/threonine kinase and MOS is expressed at high levels in oocytes undergoing meiotic maturation. The MOS/MAPK pathway is normally required for the maintenance of microtubules and chromatin in a metaphasic state during the meiotic divisions. To determine the pathogenic genes in a female infertile patient due to large polar body oocytes, whole-exome sequencing was performed on the patient and available family members. We identified a novel homozygous missense mutation c.591T > G in MOS . Bioinformatics analysis showed that the mutation is harmful. These findings suggest that MOS mutation results in oocytes with a large polar body and poor embryonic development in patients. The MOS variant may regulate oocyte asymmetric division by MAPK/WAVE2/Arp2/3/actin signaling pathway. This will help to understand the comprehensive role of MOS in early human reproductive process and provide genetic markers for future genetic counseling for more individualized treatments.

Published

2022

48. Detection of the Polar Body After Fertilization

Author

Hua, Ruan, Xiaogui, Yi, and Honghui, Huang

Subjects

Cell Nucleus, Male, Actin Cytoskeleton, Meiosis, Fertilization, Oocytes, Animals, Female, Fertilization in Vitro, Polar Bodies, Zebrafish

Abstract

The polar body, with haploid DNA, is a small cell produced during the meiosis of an oocyte. Here, we describe the detailed procedures for the detection of the second polar body in zebrafish (Danio rerio) embryos after 10 min post fertilization. A polar body can be easily distinguished as a small dot with a DAPI-stained nucleus surrounded by Phalloidin-labeled F-actin in each fertilized zebrafish embryo.

Published

2021

49. TUBB8 Mutations Cause Female Infertility with Large Polar Body Oocyte and Fertilization Failure

Author

Xianqin Zhang, Zhou Li, Yalin Luo, Dazhi Zhang, Xuejie Peng, Zhenxing Liu, Xiaopei Zhou, Qingsong Xi, Lixia Zhu, Jiarui Wang, Tao Zhang, Xue Yang, and Lei Jin

Subjects

0301 basic medicine, Adult, Mutation, Missense, Polar Bodies, Biology, medicine.disease_cause, Protein Structure, Secondary, Andrology, 03 medical and health sciences, Polar body, 0302 clinical medicine, Human fertilization, Tubulin, Exome Sequencing, medicine, Missense mutation, Humans, Mutation, 030219 obstetrics & reproductive medicine, Female infertility, Obstetrics and Gynecology, Embryo, Oocyte, medicine.disease, Isotype, Pedigree, 030104 developmental biology, medicine.anatomical_structure, HEK293 Cells, Fertilization, Oocytes, Female, Infertility, Female, HeLa Cells

Abstract

Tubulin beta 8 class VIII (TUBB8) is a special β-tubulin isotype that mainly expressed in primate oocytes and early embryos and identified as the disease-causing gene of human oocyte maturation arrest. To identify the disease-causing genes in 2 patients with female infertility due to large polar body oocyte or fertilization failure, whole-exome sequencing was performed on the patients and available family members. We identified a novel heterozygous missense mutation c.817C>G (p.L273V) and a recently reported heterozygous missense mutation c.608A>G (p.D203G) in TUBB8 from two patients, respectively. We found oocyte with a large polar body in the patient who carried the p.D203G mutation in TUBB8. Bioinformatics analysis showed that these two mutations are harmful. The results of western blot and RT-PCR experiments showed that the D203G mutation caused a significant decrease in the expression of TUBB8, and immunostaining showed that the TUBB8 mutation caused abnormal microtubule morphology. These findings suggest that TUBB8 mutations resulted in oocyte with a large polar body and fertilization failure in patients.

Published

2020

50. Polar body based aneuploidy screening is poorly predictive of embryo ploidy and reproductive potential.

Author

Salvaggio, C., Forman, E., Garnsey, H., Treff, N., and Scott, R.

Subjects

*REPRODUCTIVE technology, *ANEUPLOIDY, *EMBRYOS, *CHROMOSOMES, *PREIMPLANTATION genetic diagnosis, *BLASTOCYST

Abstract

Purpose: Polar body (polar body) biopsy represents one possible solution to performing comprehensive chromosome screening (CCS). This study adds to what is known about the predictive value of polar body based testing for the genetic status of the resulting embryo, but more importantly, provides the first evaluation of the predictive value for actual clinical outcomes after embryo transfer. Methods: SNP array was performed on first polar body, second polar body, and either a blastomere or trophectoderm biopsy, or the entire arrested embryo. Concordance of the polar body-based prediction with the observed diagnoses in the embryos was assessed. In addition, the predictive value of the polar body -based diagnosis for the specific clinical outcome of transferred embryos was evaluated through the use of DNA fingerprinting to track individual embryos. Results: There were 459 embryos analyzed from 96 patients with a mean maternal age of 35.3. The polar body-based predictive value for the embryo based diagnosis was 70.3 %. The blastocyst implantation predictive value of a euploid trophectoderm was higher than from euploid polar bodies (51 % versus 40 %). The cleavage stage embryo implantation predictive value of a euploid blastomere was also higher than from euploid polar bodies (31 % versus 22 %). Conclusion: Polar body based aneuploidy screening results were less predictive of actual clinical outcomes than direct embryo assessment and may not be adequate to improve sustained implantation rates. In nearly one-third of cases the polar body based analysis failed to predict the ploidy of the embryo. This imprecision may hinder efforts for polar body based CCS to improve IVF clinical outcomes. [ABSTRACT FROM AUTHOR]

Published

2014