scholarly journals Molecular characterization of a congenital overgrowth syndrome induced by assisted reproduction

2017 ◽  
Author(s):  
◽  
Zhiyuan Chen
Keyword(s):  
Molecular Mechanisms ◽  
Assisted Reproductive Technologies ◽  
Epigenetic Modification ◽  
Reproductive Technologies ◽  
Imprinted Genes ◽  
Aberrant Expression ◽  
Regulate Gene Expression ◽  
Loss Of Imprinting ◽  
Regulate Gene

Beckwith-Wiedemann syndrome (BWS) is a congenital overgrowth condition with increased likelihood to develop childhood tumors. Children conceived with the use of assisted reproductive technologies (ART) have an increased frequency to have BWS compared to naturally conceived individuals. In ruminants, the use of ART can induce a similar overgrowth condition that phenotypically recapitulates BWS, which is referred to as large offspring syndrome (LOS). It is believed that these two overgrowth conditions are the result of misregulation of a set of genes that are expressed only from the maternally- or paternally-inherited chromosomes. These genes are known as imprinted genes. In this dissertation, we demonstrate that multiple imprinted genes are misregulated in LOS, as in a subset of BWS. Further, we show that global misregulation of non-imprinted genes in addition to loss-of-imprinting characterizes LOS. Importantly, most of the genes with aberrant expression are not associated with differential DNA methylation, an epigenetic modification that can regulate gene expression. Our results lay the foundation to predict the occurrence of LOS and help understand the molecular mechanisms of these congenital overgrowth conditions.

scholarly journals Molecular Mechanisms Responsible for Increased Vulnerability of the Ageing Oocyte to Oxidative Damage

2017 ◽  
Vol 2017 ◽  
pp. 1-22 ◽  
Author(s):  
Bettina P. Mihalas ◽  
Kate A. Redgrove ◽  
Eileen A. McLaughlin ◽  
Brett Nixon
Keyword(s):  
Oxidative Damage ◽  
Molecular Mechanisms ◽  
Spindle Assembly Checkpoint ◽  
Assisted Reproductive Technologies ◽  
Reproductive Technologies ◽  
Oocyte Quality ◽  
Protein Repair ◽  
Protective Mechanisms ◽  
Pronounced Increase ◽  
Age Related

In their midthirties, women experience a decline in fertility, coupled to a pronounced increase in the risk of aneuploidy, miscarriage, and birth defects. Although the aetiology of such pathologies are complex, a causative relationship between the age-related decline in oocyte quality and oxidative stress (OS) is now well established. What remains less certain are the molecular mechanisms governing the increased vulnerability of the aged oocyte to oxidative damage. In this review, we explore the reduced capacity of the ageing oocyte to mitigate macromolecular damage arising from oxidative insults and highlight the dramatic consequences for oocyte quality and female fertility. Indeed, while oocytes are typically endowed with a comprehensive suite of molecular mechanisms to moderate oxidative damage and thus ensure the fidelity of the germline, there is increasing recognition that the efficacy of such protective mechanisms undergoes an age-related decline. For instance, impaired reactive oxygen species metabolism, decreased DNA repair, reduced sensitivity of the spindle assembly checkpoint, and decreased capacity for protein repair and degradation collectively render the aged oocyte acutely vulnerable to OS and limits their capacity to recover from exposure to such insults. We also highlight the inadequacies of our current armoury of assisted reproductive technologies to combat age-related female infertility, emphasising the need for further research into mechanisms underpinning the functional deterioration of the ageing oocyte.

scholarly journals Endometrial receptivity: the molecularmechanisms regulation of implantation

2013 ◽  
Vol 62 (2) ◽  
pp. 63-74 ◽  
Author(s):  
Yuliya Sergeyevna Krylova ◽  
Igor Moiseyevich Kvetnoy ◽  
Eduard Karpovich Aylamazyan
Keyword(s):  
Parameter Estimation ◽  
Molecular Mechanisms ◽  
Assisted Reproductive Technologies ◽  
Reproductive Technologies ◽  
Signaling Molecules ◽  
Endometrial Receptivity

Presents current views on endometrial receptivity and the molecular mechanisms regulation of implantation. Examines the signaling molecules as potential markers of parameter estimation window of implantation in assisted reproductive technologies.

scholarly journals Reproductive fluids, used for the in vitro production of pig embryos, result in healthy offspring and avoid aberrant placental expression of PEG3 and LUM.

2020 ◽  
Author(s):  
Evelynne Paris-Oller ◽  
Sergio Navarro-Serna ◽  
Cristina Soriano-Úbeda ◽  
Jordana Sena Lopes ◽  
Carmen Matas ◽  
...  
Keyword(s):  
Reproductive Performance ◽  
Assisted Reproductive Technologies ◽  
Culture Media ◽  
Reproductive Technologies ◽  
In Vitro Production ◽  
Aberrant Expression ◽  
Low Efficiency ◽  
The Impact

Abstract Background: In vitro embryo production (IVP) and embryo transfer (ET) are two very common assisted reproductive technologies (ART) in human and cattle. However, in pig, the combination of either procedures, or even their use separately, is still considered suboptimal due to the low efficiency of IVP plus the difficulty of performing ET in the long and contorted uterus of the sow. In addition, the potential impact of these two ART on the health of the offspring is unknown. We investigated here if the use of a modified IVP system, with natural reproductive fluids (RF) as supplements to the culture media, combined with a minimally invasive surgery to perform ET, affects the output of the own IVP system as well as the reproductive performance of the mother and placental molecular traits.Results: The blastocyst rates obtained by both in vitro systems, conventional (C-IVP) and modified (RF-IVP), were similar. Pregnancy and farrowing rates were also similar. However, when compared to in vivo control (artificial insemination, AI), litter sizes of both IVP groups were lower, while placental efficiency was higher in AI than in RF-IVP. Gene expression studies revealed aberrant expression levels for PEG3 and LUM in placental tissue for C-IVP group when compared to AI, but not for RF-IVP group.Conclusions: The use of reproductive fluids as additives for the culture media in pig IVP does not improve reproductive performance of recipient mothers but could mitigate the impact of artificial procedures in the offspring.

scholarly journals Characterization of global loss of imprinting in fetal overgrowth syndrome induced by assisted reproduction

2015 ◽  
Vol 112 (15) ◽  
pp. 4618-4623 ◽  
Author(s):  
Zhiyuan Chen ◽  
Darren E. Hagen ◽  
Christine G. Elsik ◽  
Tieming Ji ◽  
Collin James Morris ◽  
...  
Keyword(s):  
Bos Taurus ◽  
Reproductive Technologies ◽  
Imprinted Genes ◽  
Specific Expression ◽  
Allele Specific Expression ◽  
F1 Hybrid ◽  
Biallelic Expression ◽  
Loss Of Imprinting ◽  
Overgrowth Syndrome ◽  
Allele Specific

Embryos generated with the use of assisted reproductive technologies (ART) can develop overgrowth syndromes. In ruminants, the condition is referred to as large offspring syndrome (LOS) and exhibits variable phenotypic abnormalities including overgrowth, enlarged tongue, and abdominal wall defects. These characteristics recapitulate those observed in the human loss-of-imprinting (LOI) overgrowth syndrome Beckwith–Wiedemann (BWS). We have recently shown LOI at the KCNQ1 locus in LOS, the most common epimutation in BWS. Although the first case of ART-induced LOS was reported in 1995, studies have not yet determined the extent of LOI in this condition. Here, we determined allele-specific expression of imprinted genes previously identified in human and/or mouse in day ∼105 Bos taurus indicus × Bos taurus taurus F1 hybrid control and LOS fetuses using RNAseq. Our analysis allowed us to determine the monoallelic expression of 20 genes in tissues of control fetuses. LOS fetuses displayed variable LOI compared with controls. Biallelic expression of imprinted genes in LOS was associated with tissue-specific hypomethylation of the normally methylated parental allele. In addition, a positive correlation was observed between body weight and the number of biallelically expressed imprinted genes in LOS fetuses. Furthermore, not only was there loss of allele-specific expression of imprinted genes in LOS, but also differential transcript amounts of these genes between control and overgrown fetuses. In summary, we characterized previously unidentified imprinted genes in bovines and identified misregulation of imprinting at multiple loci in LOS. We concluded that LOS is a multilocus LOI syndrome, as is BWS.

scholarly journals Sperm oxidative stress: clinical significance and management

2021 ◽  
pp. 19-27
Author(s):  
S. I. Gamidov ◽  
T. V. Shatylko ◽  
A. Yu. Popova ◽  
N. G. Gasanov ◽  
R. S. Gamidov
Keyword(s):  
Oxidative Stress ◽  
Reactive Oxygen Species ◽  
Reproductive System ◽  
Molecular Mechanisms ◽  
Assisted Reproductive Technologies ◽  
Reactive Oxygen ◽  
Reproductive Technologies ◽  
Male Reproductive System ◽  
Antioxidant Systems ◽  
Oxygen Species

Oxidative stress is one of the leading causes of sperm dysfunction. Excessive amounts of reactive oxygen species can damage sperm membranes and disrupt their DNA integrity, which affects not only the likelihood of getting pregnant naturally, but also the clinical outcomes of assisted reproductive technologies and the risk of miscarriage. Sperm cells are extremely vulnerable to oxidative stress, given the limited functional reserve of their antioxidant systems and the DNA repair apparatus. Lifestyle factors, most of which are modifiable, often trigger generation of reactive oxygen species.  Both the lifestyle modification and use of antioxidant dietary supplements are adequate and compatible ways to combat male oxidative stress-associated infertility. The search for other internal and external sources of reactive oxygen species, the identification of the etiology of oxidative stress and treatment of respective diseases are necessary for the successful regulation of redox processes in the male reproductive system in clinical practice, which is required not only to overcome infertility, but also to prevent induced epigenetic disorders in subsequent generations. The article presents the analysis of the molecular mechanisms of male idiopathic infertility. The authors provide an overview of how to prevent oxidative stress as one of the causes of subfebrile fever. The article provides an overview of modern therapeutics, as well as the options for eliminating the consequences of the effect of reactive oxygen species on spermatogenesis and male reproductive system in general.

scholarly journals Sensing, Signaling, and Secretion: A Review and Analysis of Systems for Regulating Host Interaction in Wolbachia

Genes ◽  
2020 ◽  
Vol 11 (7) ◽  
pp. 813 ◽  
Author(s):  
Amelia R. I. Lindsey
Keyword(s):  
Gene Expression ◽  
Gene Regulation ◽  
Molecular Mechanisms ◽  
Host Cells ◽  
Promising Candidate ◽  
Regulate Gene Expression ◽  
Host Interaction ◽  
Female Germline ◽  
Intracellular Infections ◽  
Regulate Gene

Wolbachia (Anaplasmataceae) is an endosymbiont of arthropods and nematodes that resides within host cells and is well known for manipulating host biology to facilitate transmission via the female germline. The effects Wolbachia has on host physiology, combined with reproductive manipulations, make this bacterium a promising candidate for use in biological- and vector-control. While it is becoming increasingly clear that Wolbachia’s effects on host biology are numerous and vary according to the host and the environment, we know very little about the molecular mechanisms behind Wolbachia’s interactions with its host. Here, I analyze 29 Wolbachia genomes for the presence of systems that are likely central to the ability of Wolbachia to respond to and interface with its host, including proteins for sensing, signaling, gene regulation, and secretion. Second, I review conditions under which Wolbachia alters gene expression in response to changes in its environment and discuss other instances where we might hypothesize Wolbachia to regulate gene expression. Findings will direct mechanistic investigations into gene regulation and host-interaction that will deepen our understanding of intracellular infections and enhance applied management efforts that leverage Wolbachia.

scholarly journals Reproductive technologies, female infertility, and the risk of imprinting-related disorders

2020 ◽  
Vol 12 (1) ◽  
Author(s):  
Patricia Fauque ◽  
Jacques De Mouzon ◽  
Aviva Devaux ◽  
Sylvie Epelboin ◽  
Marie-José Gervoise-Boyer ◽  
...  
Keyword(s):  
Molecular Mechanisms ◽  
Assisted Reproductive Technologies ◽  
Intrauterine Insemination ◽  
Reproductive Technologies ◽  
Female Infertility ◽  
Global Risk ◽  
Vitro Fertilization ◽  
Increased Risk ◽  
Genomic Imprints

Abstract Background Epidemiological studies suggest that singletons born from assisted reproductive technologies (ART) have a high risk of adverse perinatal outcomes, specifically for imprinting disorders. Because ART processes take place at times when epigenetic reprogramming/imprinting are occurring, there is concern that ART can affect genomic imprints. However, little is currently known about the risk of imprinting defects according to the type of ART or the type of underlying female infertility. From the French national health database, a cohort of 3,501,495 singletons born over a 5-year period (2013–2017) following fresh embryo or frozen embryo transfers (fresh-ET or FET from in vitro fertilization), intrauterine insemination, or natural conception was followed up to early childhood. Based on clinical features, several syndromes/diseases involving imprinted genes were monitored. The effects of ART conception and the underlying cause of female infertility were assessed. Results Compared with infants conceived naturally, children born after fresh-ET had a higher prevalence of imprinting-related diseases, with an aOR of 1.43 [95% CI 1.13–1.81, p = 0.003]. Namely, we observed an increased risk of neonatal diabetes mellitus (1.96 aOR [95% CI 1.43–2.70], p < 0.001). There was an overall independent increase in risk of imprinting diseases for children with mothers diagnosed with endometriosis (1.38 aOR [95% CI 1.06–1.80], p = 0.02). Young and advanced maternal age, primiparity, obesity, smoking, and history of high blood pressure or diabetes were also associated with high global risk. Conclusions This prospective epidemiological study showed that the risk of clinically diagnosed imprinting-related diseases is increased in children conceived after fresh embryo transfers or from mothers with endometriosis. The increased perturbations in genomic imprinting could be caused by controlled ovarian hyperstimulation and potentially endometriosis through the impairment of endometrial receptivity and placentation, leading to epigenetic feto-placental changes. Further studies are now needed to improve understanding of the underlying molecular mechanisms (i.e. genetic or epigenetic causes).

scholarly journals A multiplexed, automated evolution pipeline enables scalable discovery and characterization of biosensors

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Brent Townshend ◽  
Joy S. Xiang ◽  
Gabriel Manzanarez ◽  
Eric J. Hayden ◽  
Christina D. Smolke
Keyword(s):  
Small Molecules ◽  
Biosynthetic Pathway ◽  
De Novo ◽  
Living Cells ◽  
Regulate Gene Expression ◽  
Liquid Handling ◽  
Regulate Gene

AbstractBiosensors are key components in engineered biological systems, providing a means of measuring and acting upon the large biochemical space in living cells. However, generating small molecule sensing elements and integrating them into in vivo biosensors have been challenging. Here, using aptamer-coupled ribozyme libraries and a ribozyme regeneration method, de novo rapid in vitro evolution of RNA biosensors (DRIVER) enables multiplexed discovery of biosensors. With DRIVER and high-throughput characterization (CleaveSeq) fully automated on liquid-handling systems, we identify and validate biosensors against six small molecules, including five for which no aptamers were previously found. DRIVER-evolved biosensors are applied directly to regulate gene expression in yeast, displaying activation ratios up to 33-fold. DRIVER biosensors are also applied in detecting metabolite production from a multi-enzyme biosynthetic pathway. This work demonstrates DRIVER as a scalable pipeline for engineering de novo biosensors with wide-ranging applications in biomanufacturing, diagnostics, therapeutics, and synthetic biology.

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