Your search keyword '"embryos"' showing total 6,465 results

1. The publications of embryologist Lev V. Beloussov.

Author

Gordon R

Subjects

Animals, Birds embryology, Chickens, Fishes embryology, History, 20th Century, History, 21st Century, Hydra embryology, Mollusca embryology, Myxomycetes, Publications, Ranidae embryology, Russia, Saccharomyces cerevisiae, Sea Anemones embryology, USSR, Urodela embryology, Xenopus laevis embryology, Embryology history, Embryology methods

Abstract

A list of papers and books of the late Lev V. Beloussov was compiled and is available in Word and EndNote Supplements. The breadth of his work is briefly described., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

2. Transverse and vertical incisions affect the viability of in vitro-produced embryos submitted to a simplified microsurgery approach.

Author

Andressa Minozzo, Oliveira, Thamiris Vieira, Marsico, and Mateus José, Sudano

Subjects

*MICROSURGERY, *MONOZYGOTIC twins, *EMBRYOS, *EMBRYOLOGY, *PROTEIN analysis

Abstract

Integrating in vitro embryo production with embryonic microsurgery facilitates the generation of monozygotic twins. However, despite their potential benefits, these methods have not been widely adopted in commercial settings because of their substantial costs. Hence, there is a need to streamline the bisection procedure while ensuring efficient production of viable demi-embryos. In this study, we investigated the impact of different orientations of microsurgical incisions in relation to inner cell mass on embryonic development, morphology, viability, and expression of cell fate protein markers using a simplified microsurgery approach. Ovaries were transported from the slaughterhouse to the laboratory and aspirated to obtain oocytes that were selected and subjected to in vitro embryo production. The selected expanded blastocysts (n = 204) underwent microsurgery. The blastocysts were immobilized to facilitate incision using an adapted microblade, yielding demi-embryos (vertical incision) and viable embryonic fragments (transverse incision). The structures were then re-cultured for 12 h. Viability was assessed by measuring the re-expansion rate after re-culture, followed by immunofluorescence analysis of proteins (CDX2 and NANOG) and apoptosis analysis using terminal deoxynucleotyl transferase dUTP nick end-labeling (TUNEL). Microsurgically derived embryos exhibited remarkable plasticity, as evidenced by a slight reduction (P < 0.05) in the re-expansion rate (transverse 64.2 % and vertical 57.2 %) compared to that of the control group (blastocysts without microsurgery) (86.7 %). They also demonstrated the ability of morphological reconstitution after culturing. Despite the anticipated decrease (P < 0.05) in the total number of cells and embryo volume, microsurgery did not result in a significant increase (P > 0.05) in the number of apoptotic cells. Furthermore, microsurgery led to higher (P < 0.05) expression of markers associated with pluripotency, indicating its efficiency in preserving regenerative capacity. Moreover, microsurgery, whether followed by immunosurgery or not, made the isolation of embryonic cells easier. In conclusion, both transverse and vertical microsurgery incisions enabled the production of identical demi-embryos and served as tools for isolating embryonic cells without compromising the resumption of development and the apoptotic index. • Different microsurgical incision orientations on embryonic viability. • Cellular and molecular blastocyst reconstitution characterization. • Re-expansion rates after microsurgery demonstrate incredible embryonic plasticity. • Embryonic microsurgery is a tool for obtaining demi-embryos and embryonic cells. [ABSTRACT FROM AUTHOR]

Published

2024

3. Involvement of METTL3-mediated m6A methylation in the early development of porcine cloned embryos.

Author

Zhang, Mengya, Wu, Xiaoqing, Guo, Tenglong, Xia, Yi, Wang, Zhichao, Shi, Zhenhu, Hu, Kunlong, Zhu, Xinyue, Zhu, Ruiqing, Yue, Yingying, Zhang, Yunhai, and Cao, Zubing

Subjects

*EMBRYOS, *SOMATIC cell nuclear transfer, *EMBRYOLOGY, *EMBRYO transfer, *BLASTOCYST, *METHYLATION, *ADENOSINES

Abstract

METTL3-mediated N6-methyladenosine (m6A) modification is critical for gametogenesis and early embryonic development. However, the function of METTL3-mediated m6A modification in the early development of somatic nuclear transfer embryos (SCNT) remains unclear. Here, we found that METTL3 mRNA and protein levels exhibit dynamic changes during the early development of porcine SCNT embryos. The levels of METTL3 mRNA and protein in SCNT embryos at specific developmental stages differ from those in parthenogenetic activation (PA) counterparts. SiRNA injection effectively reduced the levels of METTL3 mRNA and protein in 4-cell embryos and blastocysts. METTL3 knockdown significantly reduced the cleavage and blastocyst rates of SCNT embryos. METTL3 knockdown significantly reduced the number of total cells and trophectoderm (TE) cells in the resulting blastocysts and perturbed cell lineage allocation. In addition, METTL3 knockdown reduced the levels of m6A modification in 4-cell embryos and blastocysts. Importantly, METTL3 knockdown decreased the expression levels of CDX2 , GATA3 , NANOG and YAP , and increased the expression levels of SOX2 and OCT4. Taken together, these results demonstrate that METTL3-mediated m6A modification regulates early development and lineage differentiation of porcine SCNT embryos. [ABSTRACT FROM AUTHOR]

Published

2024

4. The coculture of in vitro produced porcine embryos and oviductal epithelial cells improves blastocyst formation and modify embryo quality.

Author

Lorenzo, Maria Soledad, Teplitz, Gabriela Maia, Luchetti, Carolina Griselda, Cruzans, Paula Romina, Bertonazzi, Analia, and Lombardo, Daniel Marcelo

Subjects

*EPITHELIAL cells, *EMBRYOS, *EMBRYOLOGY, *BLASTOCYST, *HORMONE receptors, KERATINOCYTE differentiation

Abstract

The efficiency of in vitro embryo production in mammals is influenced by variables associated with culture conditions during maturation, fertilization, and embryonic development. The embryos obtained often exhibit low quality due to suboptimal in vitro culture conditions compared to the in vivo environment. Co-culturing gametes and embryos with somatic cells has been developed to enhance in vitro culture conditions. This study aimed to assess the impact of coculturing in vitro-produced porcine embryos with porcine oviductal epithelial cells (POEC) on embryo development and quality. Firstly, a pure culture of POEC suitable for coculture systems was established. The epithelial origin of the cells was confirmed by the expression of E-cadherin and cytokeratin. The expression pattern of hormone receptors aligned with the diestrous oviduct, and POEC also secreted oviductal glycoprotein type 1 (OVGP-1). Secondly, POEC from passage 1 (POEC-1) were used to coculture with in vitro-produced porcine embryos. A successful coculture system was established without the addition of fetal bovine serum as a supplement. Coculturing POEC-1 in monolayers with in vitro-produced porcine embryos during the initial two days of culture enhanced the percentage of blastocysts and their hatching. Although the coculture did not alter the number of cells in the blastocysts or apoptosis assessed by TUNEL, it significantly reduced reactive oxygen species (ROS) levels in cleaved porcine embryos. This study represents the first report evaluating the quality of porcine embryos produced by IVF in coculture systems and assessing ROS levels in cleaved porcine embryos obtained by IVF. • The presence of oviductal epithelial cells during embryo in vitro culture enhanced porcine blastocyst formation. • The oviductal epithelial cells during embryo culture decrease ROS levels in porcine in vitro produced cleaved embryos. • The porcine oviductal epithelial cells expressed OVGP-1 during in vitro culture. [ABSTRACT FROM AUTHOR]

Published

2024

5. Vitrification of pig embryos dysregulates the microRNA transcriptome profile.

Author

Cuello, Cristina, González-Plaza, Alejandro, Cambra, Josep M., Garcia-Canovas, Manuela, Parrilla, Inmaculada, Rodriguez-Martinez, Heriberto, Gil, Maria A., and Martinez, Emilio A.

Subjects

*GENE expression, *TRANSCRIPTOMES, *VITRIFICATION, *EMBRYOS, *EMBRYOLOGY, *NOTCH genes

Abstract

This study examined how the vitrification of pig blastocysts using either the superfine open pulled straw (SOPS) or Cryotop method affects the expression profile of embryonic microRNA (miRNA) transcriptomes, as well as its relation to changes in the expression of target genes (TGs). Surgically collected pig blastocysts were vitrified using either the SOPS method (n = 60; 4–6 embryos/device) or the Cryotop system (n = 60; 20 embryos/device). Embryos were cultured in vitro for 24 h after warming. Fresh blastocysts (n = 60) cultured for 24 h served as controls. After in vitro culture, five pools of eight viable blastocysts from each group were prepared for miRNA expression analysis based on a microarray approach. Then, biological interpretation of miRNAs profiles and integrative analysis of miRNA and mRNA transcriptome data were performed. Survival after 24 h of in vitro culture was similar (>96 %) for both the vitrification systems and the control group (100 %). Compared with the controls, the SOPS-vitrified blastocysts had 94 (one upregulated and 93 downregulated) differentially expressed (DE) miRNAs, and the Cryotop-vitrified blastocysts had 174 DE miRNAs (one upregulated and 173 downregulated). One DE miRNA (miR-503) in the SOPS group and three DE miRNAs (miR-7139–3p, miR-214 and miR-885–3p) in the Cryotop group were annotated for Sus scrofa. The integrative analysis showed that 27 and 61 DE TGs were regulated by the DE miRNAs in blastocysts vitrified with the SOPS and Cryotop systems, respectively. The TGs enriched one pathway (the TGF-β signaling pathway) for the SOPS system and four pathways (HIF-1, Notch, ascorbate and aldarate metabolism and glycosphingolipid biosynthesis-ganglio series) for the Cryotop system. In summary, vitrification via the SOPS and Cryotop systems dysregulates miRNAs, with slight differences between methods. The altered miRNAs identified in this study were related mainly to cell proliferation, apoptosis, and the response to cell stress. Further studies are needed to clarify the consequences of dysregulation of miRNAs involved in the TGF-β (SOPS-vitrified blastocyst) and Notch (Cryotop-vitrified blastocyst) signaling pathways, particularly if they can affect embryonic development. • Vitrification modifies miRNA expression in porcine blastocysts. • SOPS and Cryotop-vitrified embryos showed minor differences in miRNA expression. • miRNAs target genes were related to proliferation, apoptosis, and stress response. • The modified miRNAs had a regulatory function in response to vitrification. [ABSTRACT FROM AUTHOR]

Published

2024

6. Temperature and light timing effects on diapause progression in Daphnia magna.

Author

Chen, Luxi, Gómez, Rocío, Horstmann, Martin, and Weiss, Linda C.

Subjects

*EMBRYOLOGY, *DAPHNIA, *CRUSTACEA, *EMBRYOS, *FRESH water, *DAPHNIA magna

Abstract

Diapause is a survival strategy for freshwater crustaceans in the genus Daphnia that involves a genetically encoded inhibition of organism growth, development and reproduction. While the environmental triggers for Daphnia to produce diapause‐destined embryos and those that induce hatching are well documented, the influence of environmental challenges during different diapause sub‐phases remains unexplored. In this study, we exposed diapause‐destined embryos of Daphnia magna to different temperatures and light conditions during designated diapause sub‐phases. Our results underscore the importance of the maternal environment for the embryos that are in preparation for diapause. Moreover, we demonstrate a period of obligate developmental arrest during which reinitiation of development cannot be triggered. Additionally, we illustrate the embryos' ability to adjust hatching in response to environmental changes during the hatching process. This study reveals the inherent developmental pattern in Daphnia embryos as they progress through diapause and their adaptability to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Tyrosyl-DNA phosphodiesterase 2 (Tdp2) repairs DNA-protein crosslinks and protects against double strand breaks in vivo.

Author

Anticevic, Ivan, Otten, Cecile, and Popovic, Marta

Subjects

EMBRYOLOGY, DNA mismatch repair, DNA damage, BRACHYDANIO, CELL survival, DNA repair, EMBRYOS

Abstract

DNA-protein crosslinks pose a significant challenge to genome stability and cell viability. Efficient repair of DPCs is crucial for preserving genomic integrity and preventing the accumulation of DNA damage. Despite recent advances in our understanding of DPC repair, many aspects of this process, especially at the organismal level, remain elusive. In this study, we used zebrafish as a model organism to investigate the role of TDP2 (Tyrosyl-DNA phosphodiesterase 2) in DPC repair. We characterized the two tdp2 orthologs in zebrafish using phylogenetic, syntenic and expression analysis and investigated the phenotypic consequences of tdp2 silencing in zebrafish embryos. We then quantified the effects of tdp2a and tdp2b silencing on cellular DPC levels and DSB accumulation in zebrafish embryos. Our findings revealed that tdp2b is the main ortholog during embryonic development, while both orthologs are ubiquitously present in adult tissues. Notably, the tdp2b ortholog is phylogenetically closer to human TDP2. Silencing of tdp2b, but not tdp2a, resulted in the loss of Tdp2 activity in zebrafish embryos, accompanied by the accumulation of DPCs and DSBs. Our findings contribute to a more comprehensive understanding of DPC repair at the organismal level and underscore the significance of TDP2 in maintaining genome stability. [ABSTRACT FROM AUTHOR]

Published

2024

8. MCT1-mediated transport of valeric acid promotes porcine preimplantation embryo development by improving mitochondrial function and inhibiting the autophagic AMPK-ULK1 pathway.

Author

Zhang, Xiu-Li, An, Zhi-Yong, Lu, Gao-Jie, Zhang, Tuo, Liu, Cheng-Wei, Liu, Meng-Qi, Wei, Qing-Xin, Quan, Lin-Hu, and Kang, Jin-Dan

Subjects

*VALERIC acid, *MITOCHONDRIAL membranes, *CELL receptors, *G protein coupled receptors, *SHORT-chain fatty acids, *EMBRYOS, *EMBRYOLOGY

Abstract

Oocytes and embryos are highly sensitive to environmental stress in vivo and in vitro. During in vitro culture, many stressful conditions can affect embryo quality and viability, leading to adverse clinical outcomes such as abortion and congenital abnormalities. In this study, we found that valeric acid (VA) increased the mitochondrial membrane potential and ATP content, decreased the level of reactive oxygen species that the mitochondria generate, and thus improved mitochondrial function during early embryonic development in pigs. VA decreased expression of the autophagy-related factors LC3B and BECLIN1. Interestingly, VA inhibited expression of autophagy-associated phosphorylation-adenosine monophosphate-activated protein kinase (p-AMPK), phosphorylation-UNC-51-like autophagy-activated kinase 1 (p-ULK1, Ser555), and ATG13, which reduced apoptosis. Short-chain fatty acids (SCFAs) can signal through G-protein-coupled receptors on the cell membrane or enter the cell directly through transporters. We further show that the monocarboxylate transporter 1 (MCT1) was necessary for the effects of VA on embryo quality, which provides a new molecular perspective of the pathway by which SCFAs affect embryos. Importantly, VA significantly inhibited the AMPK-ULK1 autophagic signaling pathway through MCT1, decreased apoptosis, increased expression of embryonic pluripotency genes, and improved embryo quality. • VA significantly increased blastocyst formation rate, mitochondrial activity, while decreasing reactive oxygen species accumulation. • MCT1-mediated VA uptake could promote ATP production and inhibited p-AMPK in the embryo. • VA regulates the AMPK-ULK1 pathway to reduce autophagy and apoptosis and improve early embryo quality. [ABSTRACT FROM AUTHOR]

Published

2024

9. Development of an AI-Assisted Embryo Selection System Using Iberian Ribbed Newts for Embryo-Fetal Development Toxicity Testing.

Author

Naofumi Saiki, Akiko Adachi, Hiroshi Ohnishi, Atsuro Koga, Masaru Ueki, Kiyotaka Kohno, Toshinori Hayashi, and Tetsuya Ohbayashi

Subjects

EMBRYOS, FETAL development, TOXICITY testing, EMBRYOLOGY, FERTILIZATION (Biology), IMAGE analysis

Abstract

Background The 3Rs (Reduction, Refinement, Replacement) principle is driving the need for alternative methods in animal testing. Despite advancements in in vitro testing, complex systemic toxicity tests still necessitate in vivo approaches. The aim of this study was to develop a developmental toxicity test protocol using the Iberian ribbed newt (Pleurodeles waltl) as a model organism, integrating AI image analysis for embryo selection to improve test accuracy and reproducibility. Methods We established a developmental toxicity test protocol based on the zebrafish test. Gonadotropin was administered to induce ovulation, and in vitro fertilization was performed. Embryos were imaged at 5-6 and 6-7 h post-fertilization. AI image analysis was utilized to assess embryo viability. The test chemical was administered 24-48 h post-fertilization, and morphological changes were observed daily until day 8. Additionally, a time-lapse photography system was constructed to monitor embryonic development. Results Out of 24 cultured embryos, 75% developed normally to the late tail bud stage or initial hatching stage, whereas 25% experienced developmental arrest or death. AI image analysis achieved high accuracy in classifying embryos, with overall accuracies of 92.0% and 92.9% for two learning models. The AI system demonstrated higher precision in the selection of viable embryos compared to visual inspection. Conclusion The Iberian ribbed newt presents a viable alternative model for developmental toxicity testing, adhering to the 3Rs principles. The integration of AI image analysis substantially enhances the accuracy and reproducibility of embryo selection, providing a reliable method for evaluating developmental toxicity in pharmaceuticals. [ABSTRACT FROM AUTHOR]

Published

2024

10. MicroRNAomic Analysis of Spent Media from Slow- and Fast-Growing Bovine Embryos Reveal Distinct Differences.

Author

Rio, Paul Del, DiMarco, Sierra, and Madan, Pavneesh

Subjects

*GENE expression, *EMBRYOLOGY, *ZYGOTES, *EMBRYOS, *BLASTOCYST

Abstract

Simple Summary: Embryos release microRNAs (miRNAs) into their surrounding spent media during early development. Gene expression is expected to vary between embryos of good and poor developmental potential; therefore, identifying miRNAs unique to good-quality embryos can aid in embryo selection. This study aimed to characterize the miRNA expression in the spent media of embryos identified as slow- versus fast-growing, as developmental timing may be indicative of embryo quality. Distinct miRNA populations were detected in the spent media conditioned with bovine embryos growing at different developmental rates at the two-cell, eight-cell, and blastocyst stage in vitro. The results highlight the novel and non-invasive miRNA biomarkers of early embryo development. In bovine embryos, the microRNA (miRNA) expression has been profiled at each stage of early development in vitro. The miRNAomic analysis of spent media has the potential to reveal characteristics of embryo health; however, applications are limited without categorizing miRNA profiles by embryo quality. Time-lapse imaging has shown the timing of embryo development in vitro may be indicative of their developmental potential. The study aimed to characterize miRNAs in the spent media of bovine embryos with different growth rates during the pre-implantation phase. Bovine cumulus–oocyte complexes were aspirated from ovaries, fertilized, and cultured to blastocyst stage of development. At the 2-cell, 8-cell, and blastocyst stage, each microdrop of 30 presumptive zygotes were classified as slow- or fast-growing based on the percentage of embryos that had reached the desired morphological stage. A comparative analysis was performed on the spent media of slow- and fast-growing embryos using the results of a GeneChip miRNA 4.0 array hybridization. In total, 34 differentially expressed miRNAs were identified between the comparison groups: 14 miRNAs were found in the 2-cell samples, 7 in the 8-cell samples, and 12 in the blastocyst samples. The results demonstrate distinct miRNAs populations can be identified between slow- and fast-growing embryos, highlighting the novel biomarkers of developmental potential at each stage of pre-implantation development. [ABSTRACT FROM AUTHOR]

Published

2024

11. Monitoring egg fertility, embryonic morbidity, and mortality in an oviparous elasmobranch using ultrasonography.

Author

Adams, Lance, Wyffels, Jennifer T., Goodwin, Brittney, Munson, Rachel, LeBorgne, Louise, Feldheim, Kevin A., and Lyons, Kady

Subjects

EMBRYOLOGY, PARTHENOGENESIS, HUMAN abnormalities, FERTILITY, EMBRYOS

Abstract

Ultrasonography is widely used to monitor pregnancy in viviparous species, but it is underutilized as a tool to characterize embryonic development in oviparous species. Currently, a multi-institutional effort is underway to rewild the endangered zebra shark (Stegostoma tigrinum) to locations where this species was previously extirpated by leveraging the reproductive efforts of aquarium sharks as a source of brood stock. Zebra sharks are oviparous and fecund, but a large percentage of their yolked eggs do not result in hatchlings. Therefore, ultrasonography represents a potential tool for distinguishing fertile eggs with developing embryos from degrading eggs, and to diagnose changes in early embryonic development predictive of poor outcomes. The objectives of the current study were to use ultrasonography to assess egg fertility, monitor early embryonic development, and identify morphological indicators that may be predictive of early embryonic mortality. Freshly laid eggs from four female zebra sharks were collected and inventoried daily at Aquarium of the Pacific. Eggs were incubated undisturbed for 2 to 4 weeks and subsequently examined weekly via ultrasound to assess fertility and monitor embryo development. Among 120 fertile eggs, embryos were identified as early as 8 days post-oviposition, with average (±SD) time to first observation at 30 ± 7 days. Morphological and behavioral abnormalities were observed for most embryos (n = 84, 70%) as early as 16 days and up to 95 days post-oviposition. Common abnormalities included: bent or curled tails, vesicle(s) at the base of the yolk stalk, and slow or weak movement. Only one embryo survived to hatch during the study and was genetically-confirmed parthenogenetic, suggesting hatching success for parthenotes is low (<1%). Ultrasonography was demonstrated to be an effective and non-invasive method to determine egg fertility, identify embryos with developmental abnormalities, and monitor embryo growth. [ABSTRACT FROM AUTHOR]

Published

2024

12. Collective effects of rising average temperatures and heat events on oviparous embryos.

Author

Ma, Liang, Wu, Dan‐Yang, Wang, Yang, Hall, Joshua M., Mi, Chun‐Rong, Xie, Hong‐Xin, Tao, Wei‐Jie, Hou, Chao, Cheng, Kun‐Ming, Zhang, Yong‐Pu, Wang, Ji‐Chao, Lu, Hong‐Liang, Du, Wei‐Guo, and Sun, Bao‐Jun

Subjects

*EMBRYOS, *SPECIES distribution, *EMBRYOLOGY, *TEMPERATURE, *EGGS

Abstract

Survival of the immobile embryo in response to rising temperature is important to determine a species' vulnerability to climate change. However, the collective effects of 2 key thermal characteristics associated with climate change (i.e., rising average temperature and acute heat events) on embryonic survival remain largely unexplored. We used empirical measurements and niche modeling to investigate how chronic and acute heat stress independently and collectively influence the embryonic survival of lizards across latitudes. We collected and bred lizards from 5 latitudes and incubated their eggs across a range of temperatures to quantify population‐specific responses to chronic and acute heat stress. Using an embryonic development model parameterized with measured embryonic heat tolerances, we further identified a collective impact of embryonic chronic and acute heat tolerances on embryonic survival. We also incorporated embryonic chronic and acute heat tolerance in hybrid species distribution models to determine species' range shifts under climate change. Embryos' tolerance of chronic heat (T‐chronic) remained consistent across latitudes, whereas their tolerance of acute heat (T‐acute) was higher at high latitudes than at low latitudes. Tolerance of acute heat exerted a more pronounced influence than tolerance of chronic heat. In species distribution models, climate change led to the most significant habitat loss for each population and species in its low‐latitude distribution. Consequently, habitat for populations across all latitudes will shift toward high latitudes. Our study also highlights the importance of considering embryonic survival under chronic and acute heat stresses to predict species' vulnerability to climate change. [ABSTRACT FROM AUTHOR]

Published

2024

13. Sperm‐borne miR‐34c‐5p and miR‐191‐3p as markers for sperm motility and embryo developmental competence.

Author

Pinto, Soraia, Pereira, Sara C., Rocha, António, Barros, Alberto, Alves, Marco G., and Oliveira, Pedro F.

Subjects

*SPERM motility, *NUCLEAR magnetic resonance spectroscopy, *EMBRYOS, *EMBRYOLOGY, *REPRODUCTIVE technology, *NONNUTRITIVE sweeteners

Abstract

Background Objective Materials and methods Results Discussion and conclusion Sperm‐borne microRNAs play a pivotal role in influencing essential cellular processes during fertilization, impacting the quality of embryo development. Dysregulated microRNA profiles have been associated with compromised embryonic development and increased incidences of pregnancy loss.This study aimed to investigate the potential associations between the abundance of miR‐34c‐5p and miR‐191‐3p in human spermatozoa with sperm quality, as well as with embryo quality and metabolic performance during in vitro development.Thirteen couples who underwent a total of 13 cycles participated in this study. The sperm quality was assessed using conventional methods following World Health Organization guidelines. Quantitative polymerase chain reaction was employed to measure microRNA abundance in spermatozoa. Embryos were categorized as good, lagging, or bad based on morphokinetic evaluation. Evaluation of embryo metabolic performance involved tracking changes in specific metabolites within the cultured media using nuclear magnetic resonance spectroscopy. Statistical analysis was conducted to explore the correlation between microRNA abundance in human spermatozoa and all other collected data.Our findings revealed a negative correlation between the abundance of miR‐34c‐5p (but not miR‐191‐3p) and total sperm motility, potentially mediated by the modulation of key signaling pathways. Additionally, higher levels of miR‐34c‐5p in spermatozoa were strongly associated with the consumption or release of key metabolites by developing embryos, particularly those linked with lipid and glucose metabolism, suggesting enhanced metabolic performance, while miR‐191‐3p was mostly associated with glucose consumption. Concurrently, only miR‐34c‐5p content in spermatozoa correlated with higher embryo quality.This study provides evidence suggesting that the abundance of miR‐34c‐5p in spermatozoa is correlated not only with total sperm motility but also with markers of embryo developmental competence, highlighting the potential significance of this sperm microRNA content as a biomarker in assisted reproduction. [ABSTRACT FROM AUTHOR]

Published

2024

14. The maternal embrace: the protection of plant embryos.

Author

Woudenberg, Sjoerd, Hadid, Feras, Weijers, Dolf, and Borassi, Cecilia

Subjects

*PLANT protection, *EMBRYOS, *BROWN algae, *ENVIRONMENTAL protection, *EMBRYOLOGY, *MULTICELLULAR organisms

Abstract

All land plants—the embryophytes—produce multicellular embryos, as do other multicellular organisms, such as brown algae and animals. A unique characteristic of plant embryos is their immobile and confined nature. Their embedding in maternal tissues may offer protection from the environment, but also physically constrains development. Across the different land plants, a huge discrepancy is present between their reproductive structures whilst leading to similarly complex embryos. Therefore, we review the roles that maternal tissues play in the control of embryogenesis across land plants. These nurturing, constraining, and protective roles include both direct and indirect effects. In this review, we explore how the maternal surroundings affect embryogenesis and which chemical and mechanical barriers are in place. We regard these questions through the lens of evolution, and identify key questions for future research. [ABSTRACT FROM AUTHOR]

Published

2024

15. Mechanical forces orchestrate the metabolism of the developing oilseed rape embryo.

Author

Rolletschek, Hardy, Muszynska, Aleksandra, Schwender, Jörg, Radchuk, Volodymyr, Heinemann, Björn, Hilo, Alexander, Plutenko, Iaroslav, Keil, Peter, Ortleb, Stefan, Wagner, Steffen, Kalms, Laura, Gündel, André, Shi, Hai, Fuchs, Jörg, Szymanski, Jedrzej Jakub, Braun, Hans‐Peter, and Borisjuk, Ljudmilla

Subjects

*RAPESEED, *EMBRYOS, *MAGNETIC resonance imaging, *EMBRYOLOGY, *ALLOSTERIC regulation

Abstract

Summary The initial free expansion of the embryo within a seed is at some point inhibited by its contact with the testa, resulting in its formation of folds and borders. Although less obvious, mechanical forces appear to trigger and accelerate seed maturation. However, the mechanistic basis for this effect remains unclear. Manipulation of the mechanical constraints affecting either the in vivo or in vitro growth of oilseed rape embryos was combined with analytical approaches, including magnetic resonance imaging and computer graphic reconstruction, immunolabelling, flow cytometry, transcriptomic, proteomic, lipidomic and metabolomic profiling. Our data implied that, in vivo, the imposition of mechanical restraints impeded the expansion of testa and endosperm, resulting in the embryo's deformation. An acceleration in embryonic development was implied by the cessation of cell proliferation and the stimulation of lipid and protein storage, characteristic of embryo maturation. The underlying molecular signature included elements of cell cycle control, reactive oxygen species metabolism and transcriptional reprogramming, along with allosteric control of glycolytic flux. Constricting the space allowed for the expansion of in vitro grown embryos induced a similar response. The conclusion is that the imposition of mechanical constraints over the growth of the developing oilseed rape embryo provides an important trigger for its maturation. [ABSTRACT FROM AUTHOR]

Published

2024

16. High-sensitivity whole-mount in situ Hybridization of Mouse Oocytes and Embryos Visualizes the Super-resolution Structures and Distributions of mRNA Molecules.

Author

Sanada, Takahiro and Kotani, Tomoya

Subjects

*IN situ hybridization, *OVUM, *MESSENGER RNA, *EMBRYOLOGY, *EMBRYOS

Abstract

Mammalian oocytes accumulate more than ten thousand mRNAs, of which three to four thousand mRNAs are translationally repressed. The timings and sites of translational activation of these dormant mRNAs are crucial for promoting oocyte maturation and embryonic development. How these mRNAs are accumulated and distributed in oocytes is therefore a fundamental issue to be explored. A method that enables visualization of mRNA molecules with high resolution in a simple manner would be valuable for understanding how oocytes accumulate and regulate the dormant mRNAs. We have developed a highly sensitive whole-mount in situ hybridization method using in vitro-synthesized RNA probes and the tyramide signal amplification (TSA) system optimized for mouse oocytes and embryos. By using this method, Pou5f1/Oct4, Emi2, and cyclin B1 mRNAs were detected in immature oocytes and 2-cell stage embryos. Confocal microscopy showed that these mRNAs formed granular structures in the oocyte cytoplasm. The structures of Pou5f1/Oct4 and cyclin B1 mRNAs persisted in 2-cell stage embryos. Pou5f1/Oct4 RNA granules exhibited a solid-like property in immature oocytes and became liquid-like droplets in 2-cell stage embryos. Double-staining of cyclin B1 mRNA with Emi2 or Pou5f1/Oct4 mRNA revealed that these mRNAs were distributed as different RNA granules without overlapping each other and that the size of cyclin B1 RNA granules tended to be larger than that of Emi2 RNA granules. The structures and distribution patterns of these mRNAs were further analyzed by N-SIM super-resolution microscopy. This analysis revealed that the large-sized RNA granules consist of many small-sized granules, suggesting the accumulation and regulation of dormant mRNAs as basal-sized RNA granules. The method established in this study can easily visualize the structure and distribution of mRNAs accumulated in mammalian oocytes and embryos with high sensitivity and super-resolution. This method is useful for investigating the cellular and molecular mechanisms of translational control of mRNAs by which maturation and early developmental processes are promoted. [ABSTRACT FROM AUTHOR]

Published

2024

17. “Is the Embryo a Living Being?” (Aët. 5.15).

Author

Zatta, Claudia

Subjects

*EMBRYOS, *ANCIENT philosophy, *EMBRYOLOGY

Abstract

Building on previous studies, this essay discusses the use of embryological images and analogies in Anaximander, Empedocles, Democritus, and Lucretius. It pursues their intertextual connections arguing that in ancient philosophy embryology was not only relevant for conceiving the early formation of the cosmos as has been claimed so far, but that it also shaped the conception of the primeval rise of animal life and the living processes of plants. [ABSTRACT FROM AUTHOR]

Published

2024

18. Impact of reducing lipid content during in vitro embryo production: A systematic review and meta-analysis.

Author

Vasconcelos, Erlandia M., Braga, Rachel F., Leal, Gabriela R., Carvalho, Renner P.R., Machado-Neves, Mariana, Sudano, Mateus J., and Souza-Fabjan, Joanna M.G.

Subjects

*FORSKOLIN, *EMBRYOS, *EMBRYOLOGY, *LIPIDS, *LINOLEIC acid, *OVUM

Abstract

There is still no consensus regarding the role of lipid modulators during in vitro embryo production. Thus, we investigated how lipid reducers during the in vitro maturation of oocytes (IVM) or in vitro culture (IVC) of embryos impact their cryotolerance. A literature search was performed using three databases, recovering 43 articles for the systematic review, comprising 75 experiments (13 performed in IVM, 62 in IVC) and testing 13 substances. In 39 % of the experiments, an increase in oocyte and/or embryo survival after cryopreservation was reported, in contrast to 48 % exhibiting no effect, 5 % causing negative effects, and 8 % influencing in a dose-dependent manner. Of the 75 experiments extracted during IVM and IVC, 41 quantified the lipid content. Of those that reduced lipid content (n = 26), 50 % increased cryotolerance, 34 % had no effect, 8 % harmed oocyte/embryo survival, and 8 % had different results depending on the concentration used. Moreover, 28 out of the 43 studies were analyzed under a meta-analytical approach at the IVC stage in cattle. There was an improvement in the cryotolerance of bovine embryos when the lipid content was reduced. Forskolin, l -carnitine, and phenazine ethosulfate positively affected cryotolerance, while conjugated linoleic acid had no effect and impaired embryonic development. Moreover, fetal bovine serum has a positive impact on cryotolerance. SOF and CR1aa IVC media improved cryotolerance, while mSOF showed no effect. In conclusion, lipid modulators did not unanimously improve cryotolerance, especially when used in IVM, but presented positive effects on cryotolerance during IVC when reaching lipid reduction. • The role of using lipid reducers during either IVM or IVC on oocyte and embryo cryotolerance was assessed. • Reduction of lipid content improves cryotolerance in bovine embryos. • Forskolin, phenazine ethosulfate, and l -carnitine improve cryotolerance in bovine IVP embryos. • The presence of fetal bovine serum improves cryotolerance in IVP bovine embryos. [ABSTRACT FROM AUTHOR]

Published

2024

19. Application of amphiregulin in IVM culture of immature human oocytes and pre-insemination culture for COCs in IVF cycles.

Author

Yongqi Fan, Jing Wang, Tingting Ye, Dandan Yang, Qiqi Zhang, Chao Zhang, Bo Yan, Qiushuang Wang, Ding Ding, Beili Chen, Weiwei Zou, Dongmei Ji, Huijuan Zou, and Zhiguo Zhang

Subjects

HUMAN in vitro fertilization, OVUM, FERTILIZATION in vitro, AMPHIREGULIN, EMBRYOLOGY, EMBRYOS, CULTURE media (Biology)

Abstract

Background: Amphiregulin (AR) is a growth factor that resembles the epidermal growth factor (EGF) and serves various functions in different cells. However, no systematic studies or reports on the role of AR in human oocytes have currently been performed or reported. This study aimed to explore the role of AR in human immature oocytes during in vitro maturation (IVM) and in vitro fertilization (IVF) in achieving better embryonic development and to provide a basis for the development of a pre-insemination culture medium specific for cumulus oocyte complexes (COCs). Methods: First, we examined the concentration of AR in the follicular fluid (FF) of patients who underwent routine IVF and explored the correlation between AR levels and oocyte maturation and subsequent embryonic development. Second, AR was added to the IVM medium to culture immature oocytes and investigate whether AR could improve the effects of IVM. Finally, we pioneered the use of a fertilization medium supplemented with AR for the pre-insemination culture of COCs to explore whether the involvement of AR can promote the maturation and fertilization of IVF oocytes, as well as subsequent embryonic development. Results: A total of 609 FF samples were examined, and a positive correlation between AR levels and blastocyst formation was observed. In our IVM study, the development potential and IVM rate of immature oocytes, as well as the fertilization rate of IVM oocytes in the AR-added groups, were ameliorated significantly compared to the control group (All P < 0.05). Only the IVM-50 group had a significantly higher blastocyst formation rate than the control group (P < 0.05). In the final IVF study, the maturation, fertilization, high-quality embryo, blastocyst formation, and high-quality blastocyst rates of the AR-added group were significantly higher than those of the control group (All P < 0.05). Conclusion: AR levels in the FF positively correlated with blastocyst formation, and AR involvement in pre-insemination cultures of COCs can effectivelyimprove laboratory outcomes in IVF. Furthermore, AR can directly promote the in vitro maturation and developmental potential of human immature oocytes at an optimal concentration of 50 ng/ml. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of blastocyst elongation and implantation chamber formation on the alignment of the embryonic axis and uterine axis in mice.

Author

Jun Sakurai, Sanae Oka, Yoko Higuchi, Sonoko Ohsawa, and Toshihiko Fujimori

Subjects

EMBRYO implantation, BLASTOCYST, EMBRYOLOGY, MAMMAL development, EMBRYOS

Abstract

Embryo implantation involves a series of events that bring the embryo and maternal tissues into contact to support post-implantation development in mammals. During implantation, alignment of the embryonic-abembryonic (E-Ab) axis of the blastocyst with the mesometrial-antimesometrial (M-AM) axis of the uterus precedes post-implantation embryonic development and placentation. In the present study, we observed the morphological changes in blastocysts and the endometrial luminal epithelium (LE) that occur during the alignment of the embryonic and the uterine axes. We found that at the time that the blastocysts attached to the LE at the mural trophectoderm, the embryonic axis was not aligned with the uterine axis. Alignment of the embryonic E-Ab axis with the uterine M-AM axis occurred after E4.0, and the embryo was significantly elongated during the process. The depth of the implantation chamber (IC) correlated with the degree of alignment, suggesting that elongated embryos are oriented along the M-AM axis during IC formation. Transplantation of the Concanavalin A (Con A)-coated beads induced IC formation, and the alignment of two Con A-coated beads present in the same IC in the M-AM direction suggested that elongated materials can align along the M-AM axis. These data suggest that an elongated shape of the embryo and IC formation coordinate the alignment of the embryonic and uterine axes. [ABSTRACT FROM AUTHOR]

Published

2024

21. Cyclic muscle contractions reinforce the actomyosin motors and mediate the full elongation of C. elegans embryo.

Author

Dai, Anna and Amar, Martine Ben

Subjects

*ACTOMYOSIN, *CAENORHABDITIS elegans, *EMBRYOS, *MUSCLE contraction, *ENERGY dissipation, *EMBRYOLOGY, *STRETCH reflex

Abstract

The paramount importance of mechanical forces in morphogenesis and embryogenesis is widely recognized, but understanding the mechanism at the cellular and molecular level remains challenging. Because of its simple internal organization, Caenorhabditis elegans is a rewarding system of study. As demonstrated experimentally, after an initial period of steady elongation driven by the actomyosin network, muscle contractions operate a quasi-periodic sequence of bending, rotation, and torsion, that leads to the final fourfold size of the embryos before hatching. How actomyosin and muscles contribute to embryonic elongation is investigated here theoretically. A filamentary elastic model that converts stimuli generated by biochemical signals in the tissue into driving forces, explains embryonic deformation under actin bundles and muscle activity, and dictates mechanisms of late elongation based on the effects of energy conversion and dissipation. We quantify this dynamic transformation by stretches applied to a cylindrical structure that mimics the body shape in finite elasticity, obtaining good agreement and understanding of both wild-type and mutant embryos at all stages. [ABSTRACT FROM AUTHOR]

Published

2024

22. Paternal care plasticity: males care more for early- than late-developing embryos in an arboreal breeding treefrog.

Author

Cheng, Yuan-Cheng, Xie, Cai-Han, Chen, Yu-Chen, Fuh, Nien-Tse, Chuang, Ming-Feng, and Kam, Yeong-Choy

Subjects

*EMBRYOLOGY, *EMBRYOS, *MALES, *FIELD research, *INVERSE relationships (Mathematics), *ANIMAL clutches, *EGGS

Abstract

Background: Parental care benefits offspring but comes with costs. To optimize the trade-off of costs and benefits, parents should adjust care based on intrinsic and/or extrinsic conditions. The harm to offspring hypothesis suggests that parents should invest more in younger offspring than older offspring because younger offspring are more vulnerable. However, this hypothesis has rarely been comprehensively tested, as many studies only reveal an inverse correlation between parental care and offspring age, without directly testing the effects of offspring age on their vulnerability. To test this hypothesis, we studied Kurixalus eiffingeri, an arboreal treefrog with paternal care. We first performed a field survey by monitoring paternal care during embryonic development. Subsequently, we conducted a field experiment to assess the prevalence of egg predators (a semi-slug, Parmarion martensi) and the plasticity of male care. Finally, we conducted a laboratory experiment to assess how embryo age affects predation by P. martensi. Results: Our results showed that (1) male attendance and brooding frequency affected embryo survival, and (2) males attended and brooded eggs more frequently in the early stage than in the late stage. The experimental results showed that (3) males increased attendance frequency when the predators were present, and (4) the embryonic predation by the semi-slug during the early was significantly higher than in the late stage. Conclusions: Our findings highlight the importance of paternal care to embryo survival, and the care behavior is plastic. Moreover, our results provide evidence consistent with the predictions of the harm to offspring hypothesis, as males tend to care more for younger offspring which are more vulnerable. [ABSTRACT FROM AUTHOR]

Published

2024

23. Embryonic heart rate is higher in species that experience greater nest predation risk during incubation.

Author

Di Giovanni, Alexander J., Jones, Todd M., Benson, Thomas J., and Ward, Michael P.

Subjects

*PREDATION, *NEST predation, *HEART beat, *EMBRYOLOGY, *ANIMAL clutches, *BIRD eggs, *SPECIES, *EMBRYOS, *LOW temperatures

Abstract

Avian eggs develop outside of the female body, and therefore embryonic development is subject to multiple internal (physiological) and external (ecological) factors. Embryonic developmental rate has important consequences for survival. Within species, embryos that develop too quickly often experience deformities, disorders, or mortality, while embryos that develop slowly risk inviability and increase the time they are exposed to various sources of mortality in the nest. These contrasting forces may lead to interspecific variation in developmental rates. We investigated potential factors affecting embryonic heart rate (EHR), a proxy of development, across 14 passerine species in the field. More specifically, we investigated if nest predation risk, clutch size, seasonality, and egg volume influenced EHR. From previous research, we expected, and found, that EHR was positively associated with embryonic age and egg temperature. Species with greater nest predation risk had higher EHR, shorter incubation periods, and lower nest temperature variance. EHR increased as the season progressed and with egg volume, while EHR declined with clutch size. Bird species exhibit varying strategies to increase nestling and fledgling survival in response to predation risk, and these results suggest that variation in embryonic development may be related to species‐specific differences in nest predation risk. [ABSTRACT FROM AUTHOR]

Published

2024

24. RNA helicase DEAD-box-5 is involved in R-loop dynamics of preimplantation embryos.

Author

Hyeonji Lee, Dong Wook Han, Seonho Yoo, Ohbeom Kwon, Hyeonwoo La, Chanhyeok Park, Heeji Lee, Kiye Kang, Sang Jun Uhm, Hyuk Song, Jeong Tae Do, Youngsok Choi, and Kwonho Hong

Subjects

*RNA helicase, *EMBRYOLOGY, *DNA repair, *EMBRYOS, *HISTONE deacetylase, *IMMUNOPRECIPITATION, *GENETIC regulation, *DNA helicases

Abstract

Objective: R-loops are DNA:RNA triplex hybrids, and their metabolism is tightly regulated by transcriptional regulation, DNA damage response, and chromatin structure dynamics. R-loop homeostasis is dynamically regulated and closely associated with gene transcription in mouse zygotes. However, the factors responsible for regulating these dynamic changes in the R-loops of fertilized mouse eggs have not yet been investigated. This study examined the functions of candidate factors that interact with R-loops during zygotic gene activation. Methods: In this study, we used publicly available next-generation sequencing datasets, including low-input ribosome profiling analysis and polymerase II chromatin immunoprecipitation-sequencing (ChIP-seq), to identify potential regulators of R-loop dynamics in zygotes. These datasets were downloaded, reanalyzed, and compared with mass spectrometry data to identify candidate factors involved in regulating R-loop dynamics. To validate the functions of these candidate factors, we treated mouse zygotes with chemical inhibitors using in vitro fertilization. Immunofluorescence with an anti-R-loop antibody was then performed to quantify changes in R-loop metabolism. Results: We identified DEAD-box-5 (DDX5) and histone deacetylase-2 (HDAC2) as candidates that potentially regulate R-loop metabolism in oocytes, zygotes and two-cell embryos based on change of their gene translation. Our analysis revealed that the DDX5 inhibition of activity led to decreased R-loop accumulation in pronuclei, indicating its involvement in regulating R-loop dynamics. However, the inhibition of histone deacetylase-2 activity did not significantly affect R-loop levels in pronuclei. Conclusion: These findings suggest that dynamic changes in R-loops during mouse zygote development are likely regulated by RNA helicases, particularly DDX5, in conjunction with transcriptional processes. Our study provides compelling evidence for the involvement of these factors in regulating R-loop dynamics during early embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

25. Maternal Ezh1/2 deficiency impairs the function of mitochondria in mouse oocytes and early embryos.

Author

Zhang, Dan, Deng, Wenbo, Jiang, Ting, Zhao, Yinan, Bai, Dandan, Tian, Yingpu, Kong, Shuangbo, Zhang, Leilei, Wang, Haibin, Gao, Shaorong, and Lu, Zhongxian

Subjects

*OVUM, *EMBRYOS, *EMBRYOLOGY, *MITOCHONDRIA, *MAMMALIAN embryos, *MITOCHONDRIAL membranes

Abstract

Maternal histone methyltransferase is critical for epigenetic regulation and development of mammalian embryos by regulating histone and DNA modifications. Here, we reported a novel mechanism by revealing the critical effects of maternal Ezh1/2 deletion on mitochondria in MII oocytes and early embryos in mice. We found that Ezh1/2 knockout in mouse MII oocytes impaired the structure of mitochondria and decreased its number, but membrane potential and respiratory function of mitochondrion were increased. The similar effects of Ezh1/2 deletion have been observed in 2‐cell and morula embryos, indicating that the effects of maternal Ezh1/2 deficiency on mitochondrion extend to early embryos. However, the loss of maternal Ezh1/2 resulted in a severe defect of morula: the number, membrane potential, respiratory function, and ATP production of mitochondrion dropped significantly. Content of reactive oxygen species was raised in both MII oocytes and early embryos, suggesting maternal Ezh1/2 knockout induced oxidative stress. In addition, maternal Ezh1/2 ablation interfered the autophagy in morula and blastocyst embryos. Finally, maternal Ezh1/2 deletion led to cell apoptosis in blastocyst embryos in mice. By analyzing the gene expression profile, we revealed that maternal Ezh1/2 knockout affected the expression of mitochondrial related genes in MII oocytes and early embryos. The chromatin immunoprecipitation‐polymerase chain reaction assay demonstrated that Ezh1/2 directly regulated the expression of genes Fxyd6, Adpgk, Aurkb, Zfp521, Ehd3, Sgms2, Pygl, Slc1a1, and Chst12 by H3K27me3 modification. In conclusion, our study revealed the critical effect of maternal Ezh1/2 on the structure and function of mitochondria in oocytes and early embryos, and suggested a novel mechanism underlying maternal epigenetic regulation on early embryonic development through the modulation of mitochondrial status. [ABSTRACT FROM AUTHOR]

Published

2024

26. Assessment of Hatching and Emergence Success, Developmental Phases, and Pathology of Leatherback (Dermochelys coriacea) Embryos and Dead-in-Nest Hatchlings on St. Croix, US Virgin Islands.

Author

Picknell, Angela, Stewart, KImberly M., Stewart, Kelly R., and Dennis, Michelle M.

Subjects

*LEATHERBACK turtle, *EMBRYOLOGY, *EMBRYOS, *TURTLE populations, *SEA turtles, *EGGS, *DEAD trees

Abstract

Northwest Atlantic leatherback (Dermochelys coriacea) sea turtle populations are endangered and have low hatching success compared to other sea turtles. Hatchling survival is an important element of their conservation. This longitudinal study assessed developmental phase and pathology of leatherback embryos and hatchlings at Sandy Point National Wildlife Refuge (SPNWR) on St. Croix, US Virgin Islands, in 2019 to identify patterns in mortality and lesions across a nesting season, and to make regional comparisons. Hatching and emergence success averaged 63.6% and 56.6%, respectively, and both differed significantly by month. 'Breakout' analysis was conducted on 41 nests and showed a preponderance of unhatched eggs lacking grossly evident embryological development (52%). Necropsies were performed on 79 unhatched and dead in nest individuals from 34 nests, and most (58%) had lesions including inflammation associated with microorganisms (34%), renal mineralization (15%), mild multifocal skeletal muscle degeneration and necrosis (5%), and anatomic malformations (4%). Inflammatory lesions included chorioallantoitis, esophagitis, stomatitis, dermatitis, gastritis, and yolk sacculitis. These were associated with bacteria (n = 13), fungi (n = 4), or both (n = 7). Sex was determined histologically and was predominantly female (90%) with no males identified in nests laid after 3 April 2019. Although hatching success was higher in in situ relative to relocated nests, embryological development and lesion patterns were similar in both groups. Patterns of lesions observed in leatherback embryos and hatchlings did not differ across the season and are comparable to other Caribbean nesting sites. Future studies pairing 'breakout' and pathological analyses with assessments of potentially influential environmental and/or maternal factors could help develop targeted strategies for improving hatchling production. [ABSTRACT FROM AUTHOR]

Published

2024

27. Enhancing Bovine Embryo Development In Vitro Using Oil-in-Water Nanoemulsions as Specific Carriers for Essential Lipids.

Author

López Angulo, Daniel, Lourenço, Rodrigo Vinicius, Bridi, Alessandra, Chaves, Matheus Andrade, da Silveira, Juliano Coelho, and Sobral, Paulo José do Amaral

Subjects

*EMBRYOS, *CULTURE media (Biology), *ATOMIC force microscopy, *EMBRYOLOGY, *BOS, *ZONA pellucida, *ANIMAL reproduction

Abstract

Worldwide meat consumption and production have nearly quintupled in the last 60 years. In this context, research and the application of new technologies related to animal reproduction have evolved in an accelerated way. The objective of the present study was to apply nanoemulsions (NEs) as carriers of lipids to feed bovine embryos in culture media and verify their impact on the development of embryos produced in vitro. The NEs were characterized by particle size, polydispersity, size distribution, physical stability, morphology using atomic force microscopy (AFM), surface tension, density, pH, and rheological behavior. The NEs were prepared by the emulsification/evaporation technique. A central composite rotatable design (CCRD) was used to optimize the NE fabrication parameters. The three optimized formulations used in the embryo application showed an emulsion stability index (ESI) between 0.046 and 0.086, which reflects high stability. The mean droplet diameter analyzed by laser diffraction was approximately 70–80 nm, suggesting a possible transit across the embryonic zona pellucida with pores of an average 90 nm in diameter. AFM images clearly confirm the morphology of spherical droplets with a mean droplet diameter of less than 100 nm. The optimized formulations added during the higher embryonic genome activation phase in bovine embryos enhanced early embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

28. Isoforms of the Cytoskeletal LIM-Domain Protein Zyxin in the Early Embryogenesis of Xenopus laevis.

Author

Ivanova, E. D., Parshina, E. A., Zaraisky, A. G., and Martynova, N. Y.

Subjects

*CYTOSKELETAL proteins, *XENOPUS laevis, *EMBRYOLOGY, *EMBRYOS, *CELL differentiation, *WESTERN immunoblotting

Abstract

Objective: The study of highly conserved mechanosensitive proteins, such as zyxin, is essential due to their role in shaping embryos of all animals during embryogenesis through coordinated morphogenetic processes and controlled cell differentiation. This study aims to identify endogenous zyxin isoforms in Xenopus laevis and investigate changes in their abundance and intracellular localization during embryogenesis. Methods: Endogenous proteins were primarily detected using specific antibodies. Polyclonal antibodies targeting the C-terminal region of zyxin containing the NES and three LIM domains (438–663 aa), as well as antibodies against the N-terminal proline-rich region of Zyxin (1–373 aa) crucial for interactions with actinin and cytoskeletal proteins, were employed. Western blotting with these antibodies was conducted on Xenopus laevis embryo cell samples after fractionation into nuclear and cytoplasmic fractions. Results and Discussion: The study revealed multiple isoforms of zyxin in Xenopus laevis, including a full-length modified protein (105 kDa), an unmodified form (70 kDa), and two truncated forms of 45 and 37 kDa. The number and subcellular distribution of the truncated forms were found to vary based on the developmental stage, with increased levels of the 45 and 37 kDa isoforms observed in the early stages. Conclusions: This work provides novel insights into changes in the abundance and localization of zyxin isoforms during embryonic development, shedding light on the dynamics of this mechanosensitive protein in the embryo. [ABSTRACT FROM AUTHOR]

Published

2024

29. miRNAs in Follicular and Oviductal Fluids Support Global DNA Demethylation in Early-Stage Embryos.

Author

Aoki, Sogo, Inoue, Yuki, Hamazaki, Mao, Hara, Shunsuke, Noguchi, Tatsuo, Shirasuna, Koumei, and Iwata, Hisataka

Subjects

*DNA demethylation, *EMBRYOS, *EMBRYOLOGY, *MICRORNA, *GRANULOSA cells

Abstract

Global methylation levels differ in in vitro- and in vivo-developed embryos. Follicular fluid (FF) contains extracellular vesicles (EVs) containing miRNAs that affect embryonic development. Here, we examined our hypothesis that components in FF affect global DNA methylation and embryonic development. Oocytes and FF were collected from bovine ovaries. Treatment of zygotes with a low concentration of FF induced global DNA demethylation, improved embryonic development, and reduced DNMT1/3A levels. We show that embryos take up EVs containing labeled miRNA secreted from granulosa cells and the treatment of zygotes with EVs derived from FF reduces global DNA methylation in embryos. Furthermore, the methylation levels of in vitro-developed blastocysts were higher than those of in their vivo counterparts. Based on small RNA-sequencing and in silico analysis, we predicted miR-29b, -199a-3p, and -148a to target DNMTs and to induce DNA demethylation, thereby improving embryonic development. Moreover, among FF from 30 cows, FF with a high content of these miRNAs demethylated more DNA in the embryos than FF with a lower miRNA content. Thus, miRNAs in FF play a role in early embryonic development. [ABSTRACT FROM AUTHOR]

Published

2024

30. Embryos from Prepubertal Hyperglycemic Female Mice Respond Differentially to Oxygen Tension In Vitro.

Author

Predheepan, Dhakshanya, Salian, Sujith Raj, Uppangala, Shubhashree, Lakshmi R, Vani, Kalthur, Guruprasad, Kovačič, Borut, and Adiga, Satish Kumar

Subjects

*EMBRYOS, *EMBRYOLOGY, *SLEEP spindles, *HUMAN embryos, *DIABETES in children, *SPINDLE apparatus, *BLASTOCYST

Abstract

Reduced oxygen during embryo culture in human ART prevents embryo oxidative stress. Oxidative stress is also the major mechanism by which maternal diabetes impairs embryonic development. This study employed induced hyperglycemia prepubertal mice to mimic childhood diabetes to understand the effects of varying oxygen tension during in vitro embryonic development. The oocytes were fertilized and cultured at low (≈5%) oxygen (LOT) or atmospheric (≈20%) oxygen tension (HOT) for up to 96 h. Embryo development, apoptosis in blastocysts, inner cell mass (ICM) outgrowth proliferation, and Hif1α expression were assessed. Though the oocyte quality and meiotic spindle were not affected, the fertilization rate (94.86 ± 1.18 vs. 85.17 ± 2.81), blastocyst rate (80.92 ± 2.92 vs. 69.32 ± 2.54), and ICM proliferation ability (51.04 ± 9.22 vs. 17.08 ± 3.05) of the hyperglycemic embryos were significantly higher in the LOT compared to the HOT group. On the other hand, blastocysts from the hyperglycemic group, cultured at HOT, had a 1.5-fold increase in apoptotic cells compared to the control and lower Hif1α transcripts in ICM outgrowths compared to the LOT. Increased susceptibility of embryos from hyperglycemic mice to higher oxygen tension warrants the need to individualize the conditions for embryo culture systems in ART clinics, particularly when an endogenous maternal pathology affects the ovarian environment. [ABSTRACT FROM AUTHOR]

Published

2024

31. In ovo injection of AZD6244 suppresses feather follicle development by the inhibition of ERK and Wnt/β-catenin pathways in goose embryos (Anser cygnoides).

Author

Wang, Y., Wang, S., Mabrouk, I., Zhou, Y., Fu, X., Song, Y., Ma, J., Hu, X., Yang, Z., Liu, F., Hou, J., Yu, J., and Sun, Y.

Subjects

*WNT signal transduction, *GEESE, *EMBRYOS, *FEATHERS, *EMBRYOLOGY, *SMALL molecules

Abstract

1. Feathers are an important product from poultry, and the state of feather growth and development plays an important role in their economic value. 2. In total, 120 eggs were selected for immunoblotting and immunolocalisation experiments of ERK and β-catenin proteins in different developmental stages of goose embryos. The ERK protein was highly expressed in the early stage of goose embryo development, while β-catenin protein was highly expressed in the middle stage of embryo development. 3. The 120 eggs were divided into four treatment groups, including an uninjected group (BLANK), a group injected with 100 µl of cosolvent (CK), a group injected with 100 µl of AZD6244 containing cosolvent in a dose of 5 mg/kg AZD6244 containing cosolvent (AZD5) and a group injected with 100 µl of AZD6244 containing cosolvent in a dose of 15 mg/kg AZD6244 containing cosolvent (AZD15). The eggs were injected on the ninth day of embryonic development (E9). Samples were collected at E21.5 to observe feather width, feather follicle diameter, ERK and Wnt/β-catenin pathway protein expression. 4. The AZD5 and AZD15 doses were within the embryonic safety range compared to the BLANK and CK groups and had no significant effect on the survival rate and weight at the inflection point, but significantly reduced the feather width and feather follicle diameter (p < 0.05). The AZD6244 treatment inhibited ERK protein phosphorylation levels and blocked the Wnt/β-catenin pathway, which in turn significantly down-regulated the expression levels of FZD4, β-catenin, TCF4 and LEF1 (p < 0.05), with an inhibitory effect in the AZD15 group being more significant. The immunohistochemical results of β-catenin and p-ERK were consistent with Western blot results. 5. The small molecule inhibitor AZD6244 regulated the growth and development of feather follicles in goose embryos by the ERK and Wnt/β-catenin pathways. [ABSTRACT FROM AUTHOR]

Published

2024

32. A comprehensive review: synergizing stem cell and embryonic development knowledge in mouse and human integrated stem cell-based embryo models.

Author

Dupont, Cathérine

Subjects

EMBRYONIC stem cells, EMBRYOLOGY, EMBRYOS, CYTOLOGY, HUMAN embryos

Abstract

Mammalian stem cell-based embryo models have emerged as innovative tools for investigating early embryogenesis in both mice and primates. They not only reduce the need for sacrificing mice but also overcome ethical limitations associated with human embryo research. Furthermore, they provide a platform to address scientific questions that are otherwise challenging to explore in vivo. The usefulness of a stem cell-based embryo model depends on its fidelity in replicating development, efficiency and reproducibility; all essential for addressing biological queries in a quantitative manner, enabling statistical analysis. Achieving such fidelity and efficiency requires robust systems that demand extensive optimization efforts. A profound understanding of preand post-implantation development, cellular plasticity, lineage specification, and existing models is imperative for making informed decisions in constructing these models. This review aims to highlight essential differences in embryo development and stem cell biology between mice and humans, assess how these variances influence the formation of partially and fully integrated stem cell models, and identify critical challenges in the field. [ABSTRACT FROM AUTHOR]

Published

2024

33. Schisandrin B enhances embryo competence and potentially mitigates endoplasmic reticulum stress during porcine preimplantation development.

Author

Li, Chuang, Ji, Kuk Bin, Choi, Ho Yong, Liu, Haixing, and Kim, Minkyu

Subjects

*ENDOPLASMIC reticulum, *EMBRYOS, *EMBRYOLOGY, *REACTIVE oxygen species, *MEMBRANE potential

Abstract

Endoplasmic reticulum (ER) stress induced by agents such as tunicamycin (TM) substantially impedes the developmental progression of porcine embryos. Lignan compounds such as Schisandrin B (Sch-B), may have the potential to mitigate this stress. However, there are few studies on the effects of Sch-B on embryo development. To address this research gap, this study evaluates the protective efficacy of Sch-B against TM-induced ER stress during pivotal stages of porcine embryogenesis. Notably, embryos treated with Sch-B exhibited pronounced resistance to TM-induced developmental arrest, particularly at the 4-cell stage, facilitating progression to the 8-cell stage and subsequent blastocyst formation. It was also observed that Sch-B effectively reduced reactive oxygen species (ROS) levels and improved mitochondrial membrane potential (MMP). Furthermore, Sch-B positively influenced the expression of several stress-related genes. These findings highlight the promising role of Sch-B in improving porcine embryo development and mitigating ER stress. • Schisandrin B promotes porcine embryonic development by mitigating Tunicamycin-induced 4-cell stage arrest and reducing apoptosis levels in blastocysts. • Schisandrin B mitigates the elevation of reactive oxygen species levels in porcine embryos treated with tunicamycin. • Schisandrin B improves mitochondrial membrane potential in porcine embryos treated with tunicamycin. • Schisandrin B positively influences the expression of several stress-related genes. [ABSTRACT FROM AUTHOR]

Published

2024

34. Megasporogenesis, megagametogenesis and embryogenesis of Liparis elliptica (Orchidaceae), with special note to the development of unique unitegmal ovule.

Author

Ryabchenko, Andrey S., Kolomeitseva, Galina L., Babosha, Alexander V., and Koval, Vladimir A.

Subjects

*EMBRYOLOGY, *ORCHIDS, *OVULES, *EMBRYOS, *POLYGONUM, *TRIBES

Abstract

Megasporogenesis, megagametogenesis and embryogenesis of Liparis elliptica (family Orchidaceae, tribe Malaxideae, subtribe Malaxidinae) have been studied. It was shown that the L. elliptica embryo sac is monosporic and develops from the chalazal cell of the megaspore triad according to the modified Polygonum type. The embryo sacs are reduced to four–six nuclei. The suspensor is unicellular, spherical in shape, originating from the basal cell (cb). A unique feature of L. elliptica is the unitegmal ovule, which distinguishes this species from other members of the tribe Malaxideae. The seed coat is formed by an outer layer of the single internal integument. Reduction of the outer integument is a rare feature for epiphytic orchid species with photosynthetic leaves. [ABSTRACT FROM AUTHOR]

Published

2024

35. Dynamics of transcription is affected by oxygen tension and developmental speed during in vitro production of bovine embryos.

Author

de Lima, Camila Bruna, do Amaral, Danilo Trabuco, Ispada, Jéssica, dos Santos, Érika Cristina, Fontes, Patrícia Kubo, Nogueira, Marcelo Fábio Gouveia, and Milazzotto, Marcella Pecora

Subjects

*GENETIC transcription, *EMBRYOS, *CATTLE, *EMBRYOLOGY, *GENETIC transcription regulation

Abstract

This study examines the impact of oxygen tension and embryo kinetics on gene transcription dynamics in pathways crucial for embryonic preimplantation development, including lipid metabolism, carbohydrate transport and metabolism, mitochondrial function, stress response, apoptosis and transcription regulation. Bovine embryos were generated in vitro and allocated into two groups based on oxygen tension (20% or 5%) at 18 h post insemination (hpi). At 40 hpi, embryos were categorized into Fast (≥4 cells) or Slow (2 cells) groups, resulting in four experimental groups: FCL20, FCL5, SCL20 and SCL5. Embryo collection also occurred at 72 hpi (16‐cell stage; groups FMO20, FMO5, SMO20 and SMO5) and at 168 hpi (expanded blastocyst (BL) stage; groups FBL20, FBL5, SBL20 and SBL5). Pools of three embryos per group were analysed in four replicates using inventoried TaqMan assays specific for Bos taurus, targeting 93 genes. Gene expression patterns were analysed using the K‐means algorithm, revealing three main clusters: genes with low relative abundance at the cleavage (CL) and 16‐cell morula (MO) stages but increased at the BL stage (cluster 1); genes with higher abundances at CL but decreasing at MO and BL (cluster 2); and genes with low levels at CL, higher levels at MO and decreased levels at BL (cluster 3). Within each cluster, genes related to epigenetic mechanisms, cell differentiation events and glucose metabolism were particularly influenced by differences in developmental kinetics and oxygen tension. Fast‐developing embryos, particularly those cultured under low oxygen tension, exhibited transcript dynamics more closely resembling that reported in vivo‐produced embryos. [ABSTRACT FROM AUTHOR]

Published

2024

36. Oviduct and endometrial epithelium improve in vitro produced bovine embryo developmental kinetics.

Author

Senn, L. Kirsten, Peterson, Katheryn D., Edwards, J. Lannett, Payton, Rebecca R., and Mathew, Daniel J.

Subjects

OVIDUCT, EMBRYOS, EMBRYOLOGY, BOS, EPITHELIUM

Abstract

In vitro embryo production in cattle greatly impacts blastomere biochemistry, embryo rate of development and pre- and post-transfer survival. In vivo, the bovine embryo migrates through the oviduct isthmus before entering the uterus on approximately day 4 of development where it remains unattached within the uterine lumen until day 20 of gestation. During this time, the embryo is sequentially exposed to oviduct followed by endometrial secretions that support embryonic development. Considering this, we tested the effect of culturing in vitro produced (IVP) bovine embryos sequentially in oviduct epithelial- (OEp; days 1-3) followed by endometrial epithelial- (EEp) or EEp and fibroblast cell (EEp/F; days 4-8)-conditioned media on embryonic development using a time-lapse monitoring system. Compared to control, culturing IVP embryos in EEp- or EEp/F-conditioned media without prior culture in OEpconditioned media increased blastocyst formation (P < 0.05) and reduced the time to blastocyst formation (P < 0.05). Culturing IVP bovine embryos in OEp-conditioned media followed by EEp- or EEp/F-conditioned media, however, had the greatest impact on embryo developmental kinetics and increased morula and blastocyst formation (P < 0.05) and reduced time to formation (P < 0.05). Day 8 blastocyst cell numbers, diameter and quality were not significantly different, although, blastocyst quality scores were less (indicative of better quality) for all cell-conditioned media compared to control. In conclusion, IVP bovine embryo development may be improved using a sequential embryo culture system involving bovine oviduct followed by endometrial cell-conditioned media. [ABSTRACT FROM AUTHOR]

Published

2024

37. Better than What?: Embryo Selection, Gene Editing, and Evaluative Counterfactuals.

Author

Lloyd, Harry R.

Subjects

*EMBRYOS, *EMBRYOLOGY, *GENOME editing, *MEDICAL ethics

Abstract

A commentary on the 2024 article "Reasons and Reproduction: Gene Editing and Genetic Selection," by J. McMahan and J. Savulescu is presented. Topics covered include the authors' two-tier view about gene editing, the reason why gene editing is better for the edited person than its normatively relevant alternatives and the comments on the authors' claim that the impersonal view is implausible.

Published

2024

38. Development of Ethical COVID-19 Antibody Testing that Adheres to Pro-Life Principles.

Author

Rohall, Michael, Kissinger, Daniel, Evans, Matthew, Wright, Elizabeth, Nick, Evelyn, Calkins, Monica, Burton, David, and McKenna, Kyle C.

Subjects

VIRAL antibodies, FETAL research, IMMUNIZATION, EMBRYOS, STATISTICAL significance, RESEARCH funding, COVID-19 testing, IMMUNOGLOBULINS, EMBRYOLOGY, ENZYME-linked immunosorbent assay, COVID-19 vaccines, BIOETHICS, CHURCH buildings, SEROCONVERSION, DESCRIPTIVE statistics, CELL lines, RECOMBINANT proteins, DRUG development, SERODIAGNOSIS, DATA analysis software, COVID-19, ABORTION, RIGHT to life (International law)

Abstract

The use of cell lines derived from elective abortions in the development and production of COVID vaccines was opposed by the Catholic church who encouraged pharmaceutical companies and governmental health agencies to produce and distribute ethical vaccines that do not create problems of conscience for healthcare providers or those requiring vaccination. In response to the church's call for ethical alternatives in research and development of COVID vaccines, we present an approach for the measurement of Anti–SARS-CoV-2 Ig antibodies in blood plasma (COVID-19 Antibody test) that does not utilize any products produced in aborted fetal cell lines. The SARS-CoV-2 RBD protein used in this test was produced in Chinese Hamster Ovary (CHO) cells and test performance for determination of SARS-CoV-2 seroconversion was equivalent to a commercially available COVID-19 antibody test that utilized RBD protein and other reagents produced in embryonic cell lines. [ABSTRACT FROM AUTHOR]

Published

2024

39. Study on the relationship between the changes in polyamine content and seedless grapes embryo rescue breeding.

Author

Guirong Li, Kaiwei Li, Feifei Han, Huanchao Gao, and Ling Wang

Subjects

EMBRYOS, GRAPES, EMBRYOLOGY, OVULES, POLYAMINES, CULTIVARS, BERRIES

Abstract

This study was envisaged to investigate the physiological reasons affecting the embryo development and abortion of seedless grapes on the basis of the previous embryo rescue breeding techniques of seedless grapes. Specifically, the relationship between the embryo rescue breeding of seedless grapes and the change of polyamine content was evaluated, in order to provide hybrid germplasm in the breeding of new seedless grape cultivars. Four ovules of 4 naturally pollinated Eurasian seedless grape cultivars, including 'Thompson Seedless' grape (hereinafter referred to as 'Seedless White' grape), 'Flame Seedless' grape, 'Heshi Seedless' grape and 'Ruby Seedless' grape were employed for the study. Changes in the endogenous polyamine content, exogenous polyamine content, and the suitable combination of exogenous polyamines in the seedless grape berries and isolated ovules were determined during the best embryo rescue period. Furthermore, the effect of different exogenous polyamine contents on the germination and seedling rate of different seedless grape embryos was analyzed. In the best embryo rescue period, the number of ovules had different effects on the content of polyamines. For seedless grape cultivars with 4 ovules, a high content of polyamines was found to be more beneficial in the embryonic development. The existence of embryos had different effects on the development of embryos. In the ovules with embryo, an increase in the content of polyamine was beneficial to the growth and development of the ovule. Different ratios of exogenous polyamines had varying effects on the embryonic development. Putrescine (Put) exhibited the greatest effect on the embryonic development. Further, correlation analysis showed that different combinations of exogenous polyamines had varying effects on the embryonic development. A maximal ovule development was observed in the combination of exogenous polyamines of putrescine2 +spermidine2+spermine1. For maximal embryo germination and seeding formation, the optimal combination was putrescine2+spermidine2+spermine2. Irrespective to the number of ovules or the existence of embryos, the results indicated that a high content of endogenous polyamines promoted the growth and development of embryos. The embryo rescue efficiency of different exogenous polyamines was different, and the appropriate combination of exogenous polyamines was beneficial to the growth and development of ovules, with a high development rate of the ovule and seedling. [ABSTRACT FROM AUTHOR]

Published

2024

40. Transcriptome analysis of porcine embryos derived from oocytes vitrified at the germinal vesicle stage.

Author

Jia, Baoyu, Xiang, Decai, Yang, Han, Liang, Jiachong, Lv, Chunrong, Yang, Qige, Huang, Xinyu, Quan, Guobo, and Wu, Guoquan

Subjects

*GERMINAL vesicles, *OVUM, *EMBRYOLOGY, *EMBRYOS, *CELL migration, *SOMATIC embryogenesis, *CELL adhesion

Abstract

Vitrification of porcine immature oocytes at the germinal vesicle (GV) stage reduces subsequent embryo yield and changes at the molecular level may occur during embryonic development. Therefore, the present study used porcine parthenogenetic embryos as a model to investigate the effect of GV oocyte vitrification on the transcriptional profiles of the resultant embryos at the 4-cell and blastocyst stages using the Smart-seq2 RNA-seq technique. We identified 743 (420 up-regulated and 323 down-regulated) and 994 (554 up-regulated and 440 down-regulated) differentially expressed genes (DEGs) from 4-cell embryos and blastocysts derived from vitrified GV oocytes, respectively. Functional enrichment analysis of DEGs in 4-cell embryos showed that vitrification of GV oocytes influenced regulatory mechanisms related to transcription regulation, apoptotic process, metabolism and key pathways such as the MAPK signaling pathway. Moreover, DEGs in blastocysts produced from vitrified GV oocytes were enriched in critical biological functions including cell adhesion, cell migration, AMPK signaling pathway, GnRH signaling pathway and so on. In addition, the transcriptomic analysis and quantitative real-time PCR results were consistent. In summary, the present study revealed that the vitrification of porcine GV oocytes could alter gene expression patterns during subsequent embryonic developmental stages, potentially affecting their developmental competence. • This study provided transcriptional profiles of 4-cell embryos and blastocysts derived from vitrified porcine GV oocytes. • We identified 743 and 994 differentially expressed genes in resultant 4-cell embryos and blastocysts, respectively. • The results could help us understand the molecular mechanisms of oocyte cryodamages from embryonic transcriptome perspective. [ABSTRACT FROM AUTHOR]

Published

2024

41. Epigen enhances the developmental potential of in vitro fertilized embryos by improving cytoplasmic maturation.

Author

Biswas, Dibyendu, Yoon, Junchul David, Mishra, Birendra, and Hyun, Sang Hwan

Subjects

*GERMINAL vesicles, *EMBRYOLOGY, *EPIDERMAL growth factor, *EMBRYOS, *GRANULOSA cells

Abstract

Numerous growth factors contribute to oocyte maturation and embryonic development in vivo; however, only a few are understood. One such factor is epigen, a new member of the epidermal growth factor (EGF) family that is secreted by the granulosa cells of immature oocytes. We hypothesized that epigen may play a role in oocyte maturation, specifically in the nuclear and cytoplasmic aspects. This study aimed to investigate the effects of epigen on porcine oocyte maturation and embryo development in vitro. In this study, three different concentrations of epigen (3, 6, and 30 ng/mL) were added to tissue culture medium-199 (TCM-199) during in vitro maturation of porcine oocytes. A control group that did not receive epigen supplementation was also included. Mature porcine oocytes were fertilized, and the resulting zygotes were cultured until day 7. The levels of intracellular glutathione (GSH) and reactive oxygen species (ROS) were measured in the in vitro matured oocytes. At the same time, the expression patterns of genes related to apoptosis were detected in day 7 blastocysts (BLs) using real-time quantitative PCR Apoptosis was detected by annexin-V assays in mature oocytes. Data were analyzed using ANOVA and Duncan's test on SPSS, and results are presented as mean ± SEM. The group that received 6 ng/mL epigen had a significantly lower rate of germinal vesicle breakdown (GVBD) than the control group without affecting the nuclear maturation among the experimental groups. Among the treatment groups, the 6 ng/mL epigen group showed significantly higher levels of intracellular GSH and lower ROS production. Supplementation with 6 ng/mL epigen significantly improved blastocyst (BL) formation rates compared to those in the control and 3 ng/mL groups. Additionally, the blastocyst expansion rate was significantly higher with epigen supplementation (6 ng/mL). In the fertilization experiment, the group supplemented with 6 ng/mL epigen exhibited significantly higher levels of monospermy and fertilization efficiency and lower levels of polyspermy than the control group. This study indicated that adding epigen at a concentration of 6 ng/mL can significantly enhance the developmental potential of porcine oocytes fertilized in vitro. Specifically, the study found that epigen improves cytoplasmic maturation, which helps prevent polyspermy and emulates monospermic penetration. • Epigen in the porcine maturation medium enhanced the developmental potential of blastocysts formation. • Epigen enhanced cytoplasmic maturation and preventing polyspermic penetration. • Epigen influenced antiapoptotic gene expression in the developing embryos thus decreased the incidence of apoptosis. [ABSTRACT FROM AUTHOR]

Published

2024

42. Generation of Artificial Blastoids Combining miR-200-Mediated Reprogramming and Mechanical Cues.

Author

Pennarossa, Georgia, Arcuri, Sharon, Gandolfi, Fulvio, and Brevini, Tiziana A. L.

Subjects

*SOMATIC cells, *REPRODUCTIVE technology, *CELLULAR aging, *EMBRYOLOGY, *EMBRYOS, *POLYTEF, *SOMATIC cell nuclear transfer

Abstract

In vitro-generated blastocyst-like structures are of great importance since they recapitulate specific features or processes of early embryogenesis, thus avoiding ethical concerns as well as increasing scalability and accessibility compared to the use of natural embryos. Here, we combine cell reprogramming and mechanical stimuli to create 3D spherical aggregates that are phenotypically similar to those of natural embryos. Specifically, dermal fibroblasts are reprogrammed, exploiting the miR-200 family property to induce a high plasticity state in somatic cells. Subsequently, miR-200-reprogrammed cells are either driven towards the trophectoderm (TR) lineage using an ad hoc induction protocol or encapsulated into polytetrafluoroethylene micro-bioreactors to maintain and promote pluripotency, generating inner cell mass (ICM)-like spheroids. The obtained TR-like cells and ICM-like spheroids are then co-cultured in the same micro-bioreactor and, subsequently, transferred to microwells to encourage blastoid formation. Notably, the above protocol was applied to fibroblasts obtained from young as well as aged donors, with results that highlighted miR-200′s ability to successfully reprogram young and aged cells with comparable blastoid rates, regardless of the donor's cell age. Overall, the approach here described represents a novel strategy for the creation of artificial blastoids to be used in the field of assisted reproduction technologies for the study of peri- and early post-implantation mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

43. Mangiferin improves early porcine embryonic development by reducing oxidative stress.

Author

He-Wei Ji, Chao-Rui Wang, Xiu-Wen Yuan, Jing Wang, Lin Wang, Qi-Long Cao, Ying-Hua Li, Yong-Nan Xu, and Nam-Hyung Kim

Subjects

*EMBRYOLOGY, *MANGIFERIN, *OXIDANT status, *CANCER prevention, *EMBRYOS, *PORCINE reproductive & respiratory syndrome, *OXIDATIVE stress

Abstract

Mangiferin (MGN) is primarily found in the fruits, leaves, and bark of plants of the Anacardiaceae family, including mangoes. MGN exhibits various pharmacological effects, such as protection of the liver and gallbladder, anti-lipid peroxidation, and cancer prevention. This study aimed to investigate the effects of MGN supplementation during in vitro culture (IVC) on the antioxidant capacity of early porcine embryos and the underlying mechanisms involved. Porcine parthenotes in the IVC medium were exposed to different concentrations of MGN (0, 0.01, 0.1, and 1 µM). The addition of 0.1 µM MGN significantly increased the blastocyst formation rate of porcine embryos while reducing the apoptotic index and autophagy. Furthermore, the expression of antioxidation-related (SOD2, GPX1, NRF2, UCHL1), cell pluripotency (SOX2, NANOG), and mitochondria-related (TFAM, PGC1a) genes was upregulated. In contrast, the expression of apoptosis-related (CAS3, BAX) and autophagy-related (LC3B, ATG5) genes decreased after MGN supplementation. These findings suggest that MGN improves early porcine embryonic development by reducing oxidative stress-related genes. [ABSTRACT FROM AUTHOR]

Published

2024

44. GDF-8 improves in vitro implantation and cryo-tolerance by stimulating the ALK5-SMAD2/3 signaling in bovine IVF embryo development.

Author

Seon-Min Kang, Idrees, Muhammad, Dilshani Perera, Chalani, Seo-Hyun Lee, Mingjun Zhang, Xianfeng Yu, Yongxun Jin, and Il-Keun Kong

Subjects

EMBRYO implantation, FERTILIZATION in vitro, EMBRYOLOGY, EMBRYOS, BOS, TRANSFORMING growth factors, CULTURE media (Biology)

Abstract

Transforming growth factor-beta (TGF-β) plays a critical role in regulating trophoblast invasion and proliferation. Growth differentiation factor-8 (GDF-8) is a member of the TGF-β superfamily and is categorized as a myostatin subtype. It is primarily a secreted protein synthesized in skeletal muscle cells. It is expressed in the placenta, reproductive tissues, and cells. In this study, we investigated the role of GDF-8 in the development and hatching rate of bovine embryos. We noted a notable elevation (p < 0.05) in the development and hatching rates compared to the control embryos. Furthermore, the GDF-8 group showed a significantly improved total cell number (p < 0.05) and an increase in trophectoderm ratio inner cell mass (trophectoderm: inner cell mass) cells (p < 0.001) compared to the control group. Additionally, blastocysts treated with GDF-8 exhibited significantly higher mRNA levels of caudal-type homeobox 2 (CDX2) (p < 0.05). The trophoblast invasion area was significantly larger in the GDF-8 group than in the control group (p < 0.01). Furthermore, qRT-PCR analysis revealed significantly higher mRNA levels (p < 0.05) of matrix metalloproteinases 9 (MMP9) and follistatin-like 3(FSTL3), both of which are associated with the ALK5-SMAD2/3 signaling pathway, in the GDF-8 group than those in the control group. The mRNA expression levels of genes related to tight junctions (TJ) and adherent junctions were higher in the GDF-8 group than those in the control group (p < 0.05). After 24 h of thawing, blastocysts were analyzed using 4-kDa FITC-dextran, which revealed a higher TJ integrity in the GDF-8 group (p < 0.01). Thus, GDF-8 plays a crucial role in bovine embryonic development, in vitro implantation, and cryotolerance. [ABSTRACT FROM AUTHOR]

Published

2024

45. Paternal protein provisioning to embryos during male seahorse pregnancy.

Author

Skalkos, Zoe M. G., Van Dyke, James U., Dowland, Samson N., and Whittington, Camilla M.

Subjects

SEA horses, EMBRYOS, EMBRYOLOGY, PREGNANCY, PROTEIN transport, FERTILITY clinics

Abstract

Syngnathid embryos (seahorses, pipefishes and seadragons) develop on or in the male in a specialised brooding structure (brood pouch). Seahorse brood pouches supply nutrients, including lipids, to developing embryos (patrotrophy). We tested the hypothesis that proteins, vital for gene regulation and tissue growth during embryogenesis, are also transported from father to embryos, using the Australian pot-bellied seahorse, Hippocampus abdominalis. We used dry masses and total nitrogen content to estimate the total protein content of newly fertilised egg and neonate H. abdominalis. Neonates contained significantly greater protein mass than newly fertilised eggs. This result indicates that paternal protein transport to developing embryos occurs during H. abdominalis pregnancy. This study is the first to show paternal protein transport during pregnancy in seahorses, and furthers our understanding of paternal influence on embryonic development in male pregnant vertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

46. Aspartame Causes Developmental Defects and Teratogenicity in Zebra Fish Embryo: Role of Impaired SIRT1/FOXO3a Axis in Neuron Cells.

Author

Pandaram, Athiram, Paul, Jeyakumari, Wankhar, Wankupar, Thakur, Abhimanyu, Verma, Sakshi, Vasudevan, Karthick, Wankhar, Dapkupar, Kammala, Ananth Kumar, Sharma, Priyanshu, Jaganathan, Ravindran, Iyaswamy, Ashok, and Rajan, Ravindran

Subjects

FORKHEAD transcription factors, ASPARTAME, CHONDROGENESIS, SIRTUINS, NONNUTRITIVE sweeteners, EMBRYOLOGY, EMBRYOS

Abstract

Aspartame, a widely used artificial sweetener, is present in many food products and beverages worldwide. It has been linked to potential neurotoxicity and developmental defects. However, its teratogenic effect on embryonic development and the underlying potential mechanisms need to be elucidated. We investigated the concentration- and time-dependent effects of aspartame on zebrafish development and teratogenicity. We focused on the role of sirtuin 1 (SIRT1) and Forkhead-box transcription factor (FOXO), two proteins that play key roles in neurodevelopment. It was found that aspartame exposure reduced the formation of larvae and the development of cartilage in zebrafish. It also delayed post-fertilization development by altering the head length and locomotor behavior of zebrafish. RNA-sequencing-based DEG analysis showed that SIRT1 and FOXO3a are involved in neurodevelopment. In silico and in vitro analyses showed that aspartame could target and reduce the expression of SIRT1 and FOXO3a proteins in neuron cells. Additionally, aspartame triggered the reduction of autophagy flux by inhibiting the nuclear translocation of SIRT1 in neuronal cells. The findings suggest that aspartame can cause developmental defects and teratogenicity in zebrafish embryos and reduce autophagy by impairing the SIRT1/FOXO3a axis in neuron cells. [ABSTRACT FROM AUTHOR]

Published

2024

47. Acidosis defense mechanisms in the preimplantation stages of embryos in BALB/c strain mice.

Author

Dagilgan, Senay, Dundar-Yenilmez, Ebru, Tuli, Abdullah, Urunsak, Ibrahim Ferhat, and Erdogan, Seref

Subjects

*EMBRYOS, *EMBRYOLOGY, *MOLECULAR biology, *GERMINAL vesicles, *ACIDOSIS

Abstract

Regulation of intracellular pH (pH i) is an important homeostatic function of cells. There are three major pH i regulatory mechanisms: the HCO 3 −/Cl− exchanger (AE), which alleviates alkalosis, and the Na+/H+ exchanger (NHE) and Na+,HCO 3 −/Cl− exchanger (NDBCE), both of which counteract acidosis. NHE activity, which is high at the germinal vesicle stage of oocyte, is inhibited during meiotic maturation, while this inhibition is abolished when the oocyte reaches the pronuclear (PN) stage of the zygote. On the other hand, we have previously found that NDBCE performs complementary regulation against acidosis during meiotic maturation. Additionally, we found that AE activity, which is a defense mechanism against alkalosis, gradually decreases during preimplantation period of embryonic development. Considering that NHE activity is inhibited during meiotic maturation and AE activity gradually decreases during embryonic development stages, we investigated whether NHE and NDBCE activities, both of which act against acidosis, functionally change from the PN zygote to the blastocyst stage of the embryo and identified these pH-regulating proteins at the molecular level in mice of the Balb/c strain. PN zygotes, two-cell (2-c), four-cell (4-c), morula and blastocyst stage embryos were obtained from 5-8-week-old, sexually mature female Balb/c mice by using the classical superovulation procedure. pH i was recorded by using the microspectrofluorometric technique on zygotes and embryos simultaneously loaded with the pH-sensitive fluorophore, 2′,7′-Bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF). The activities of NHE and NDBCE were determined from the recovery curve of induced-acidosis in bicarbonate-free and bicarbonate-containing media, respectively. Specific inhibitors such as cariporide (1 μM), S3226 (1 and 10 μM), EIPA (1, 5, and 25 μM), and amiloride (1 mM) were used to functionally identify NHE isoforms, and the nonspecific inhibitor 4,4′–diisocyanatostilbene-2,2′ disulphonic acid, disodium salt (DIDS) was used to confirm NDBCE activity. The isoforms of the pH i -regulatory proteins were also identified by molecular biology using real-time PCR. We found that NHE activity was high at all embryonic stages, and differences between stages were not significant. Functional and molecular findings indicated that isoforms of NHE 1 and 5 are present in the blastocyst, whereas isoforms of NHE 1, 3, and 4 are functional at earlier embryonic stages. Although the contribution of NDBCE activity to recovery from induced-acidosis was detected at all embryonic stages, it was significant only in the PN zygote and the 2-c embryo. This finding was confirmed by molecular analysis, which detected the expression of SLC4A8 encoding NDBCE at all embryonic stages. In conclusion, NHE is an active and important defense mechanism against acidosis and is encoded by at least two protein isoforms in all stages of the Balb/c strain of mice. NDBCE has a supportive function in all embryonic stages, especially in the PN zygote and the 2-c embryo. Preimplantation stage embryos have effective mechanisms to defend against acidosis in response to their metabolic end products (increased acid load) and the acidic environment in utero. [ABSTRACT FROM AUTHOR]

Published

2024

48. Morphological and Transcriptomic Analyses Reveal the Toxicological Mechanism and Risk of Nitrate Exposure in Bufo gargarizans Embryos.

Author

Xie, Lei, Niu, Ziyi, Xiao, Shimin, Wang, Hongyuan, and Zhang, Yongpu

Subjects

*TOXICITY testing, *EMBRYOS, *EMBRYOLOGY, *RISK exposure, *CHOLESTEROL metabolism, *MORPHOGENESIS

Abstract

Simple Summary: The ingestion of excessive nitrate can affect the thyroid gland and cause thyroid dysfunction in humans. In the present study, amphibian embryos were exposed to nitrate, thyroxine and methimazole (a thyroid peroxidase inhibitor) during embryonic development to further explore the effects of nitrate on the thyroid. The results showed that nitrate, thyroxine and methimazole inhibited embryo growth and development. Additionally, methimazole and high concentrations of nitrate downregulated the genes related to thyroid morphogenesis and cholesterol metabolism, while upregulating the genes related to inflammation and apoptosis. These suggested that nitrate not only damaged the thyroid gland, but also affected the formation of the thyroid, thus affecting embryonic development. In recent years, nitrate (NO3-N) pollution in water bodies has been increasing due to the excessive use of nitrogen-based fertilizers. Exposure to NO3-N during the development of amphibian embryos may have lasting effects on the growth and development of individuals and even threaten their survival, but the toxicity mechanism of NO3-N in amphibian embryos prior to thyroid morphogenesis remains unclear. In the present study, Bufo gargarizans was selected as the model organism to investigate the toxic effects of 10 mg/L and 100 mg/L NO3-N exposure (N10 and N100) on amphibian embryos using methimazole (MMI) and exogenous thyroxine (T4) as the reference groups. We found that T4, MMI, N10 and N100 inhibited B. gargarizans embryo growth and development, with MMI and N100 showing the earliest and strongest effects. Transcriptome analysis revealed that MMI and NO3-N (especially N100) significantly downregulated genes related to thyroid morphogenesis and cholesterol metabolism, while upregulating genes related to inflammation and apoptosis. Together, these results contribute to a deeper understanding of the complex mechanisms by which NO3-N disrupts B. gargarizans embryonic development, reveal the potential risks of NO3-N pollution to other aquatic organisms, and provide insights into the conservation of a broader ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

49. The Origin and Regulation of Neuromesodermal Progenitors (NMPs) in Embryos.

Author

Kondoh, Hisato and Takemoto, Tatsuya

Subjects

*EMBRYOLOGY, *FETAL tissues, *EMBRYOS, *MORPHOGENESIS, *EPIBLAST

Abstract

Neuromesodermal progenitors (NMPs), serving as the common origin of neural and paraxial mesodermal development in a large part of the trunk, have recently gained significant attention because of their critical importance in the understanding of embryonic organogenesis and the design of in vitro models of organogenesis. However, the nature of NMPs at many essential points remains only vaguely understood or even incorrectly assumed. Here, we discuss the nature of NMPs, focusing on their dynamic migratory behavior during embryogenesis and the mechanisms underlying their neural vs. mesodermal fate choice. The discussion points include the following: (1) How the sinus rhomboidals is organized; the tissue where the neural or mesodermal fate choice of NMPs occurs. (2) NMPs originating from the broad posterior epiblast are associated with Sox2 N1 enhancer activity. (3) Tbx6-dependent Sox2 repression occurs during NMP-derived paraxial mesoderm development. (4) The nephric mesenchyme, a component of the intermediate mesoderm, was newly identified as an NMP derivative. (5) The transition of embryonic tissue development from tissue-specific progenitors in the anterior part to that from NMPs occurs at the forelimb bud axial level. (6) The coexpression of Sox2 and Bra in NMPs is conditional and is not a hallmark of NMPs. (7) The ability of the NMP pool to sustain axial embryo growth depends on Wnt3a signaling in the NMP population. Current in vitro models of NMPs are also critically reviewed. [ABSTRACT FROM AUTHOR]

Published

2024

50. Physics of incubation.

Author

Meijerhof, R.

Subjects

*EGG incubation, *ANIMAL clutches, *PHYSICS, *HUMIDITY, *CARBON dioxide, *EGG quality, *EMBRYOS

Abstract

Incubation, the process of successfully transferring the content of an egg into a living day old chick, and it is difficult to even imagine the complexity of the processes that are required inside of the egg to make it happen. However, the success of incubation is, next to the quality of the hatching egg to start with, highly determined by our ability to create the required climatic conditions around the eggs. To be able to successfully incubate, we have to first of all understand the requirements of the embryo, and then design, set and operate our machines in a way that meets the requirements of the embryo in the most adequate way. To create this optimum environment around the egg, we have to understand the physics that are involved in the process, as physics will determine the environment in the machines. To understand the requirements of the embryo, in theory we can simply look at the way mother hen does her incubation. With her millions of years of experience, she without any question will know the best what the embryo requires. However, this not necessarily guide us in the way to develop and set the machines, as she uses some different methods to create those conditions compared to our machines with many thousands of eggs. Within our machines, several factors are interacting with each other that are determining the outcome in a way that mother hen doesn't have to worry about. But nevertheless, we can learn some important lessons from her, especially lessons about the importance of conditions for the embryo versus importance of factors that are involved in an adequate functioning of the machines. If we look at the way mother hen incubates her eggs, it is clear that she only cares about temperature and turning. She doesn't even care about storage conditions, as the first egg from a clutch of 10 eggs will have to wait at least 10 days before she decides that incubation will start, and in that period she doesn't control conditions like storage temperature or humidity. But once incubation starts, she focusses on keeping the temperature on the required level and turning the eggs on a regular base. In fact, its not only mother hen that regulates the temperature, also the embryo plays an active role by directing more or less blood towards the cooler nest side of the egg (TZSCHENTKE and RUMPF, 2011), in that way finetuning the temperature inside of the egg. But mother hen doesn't control factors that are important in our process of artificial incubation like relative humidity (RH) and carbon dioxide (CO2). This suggests that controlling RH and CO might have more relation with the functioning of the machines than with the requirements of the embryo by itself (MEIJERHOF, 2009; OWEN, 1991). [ABSTRACT FROM AUTHOR]

Published

2024