Your search keyword '"transgenerational effects"' showing total 1,046 results

1. Long-term exposure to Emamectin benzoate impairs reproductive health in adult zebrafish and alters neurodevelopment in their offspring

Author

Guo, Liguo, Gu, Jie, Yuan, Wen, Hu, Jie, Zhang, Xinyu, and Ji, Guixiang

Published

2025

2. Transgenerational combined toxicity effects of neonicotinoids and triazole pesticides at environmentally relevant concentrations on D. magna: From individual to population level

Author

Wu, Chi, He, Kai, Li, Huizhen, Zhang, Lan, Mao, Liangang, Zhu, Lizhen, Jiang, Jinhua, and Liu, Xingang

Published

2025

3. Multigenerational toxic effects in Daphnia pulex are induced by environmental concentrations of tire wear particle leachate

Author

Liu, Zhiqun, Wang, Guanghui, Ye, Xindi, Zhang, Xiaofang, Jiang, Yu, Han, Yu, Lu, Liping, Liu, Zhiquan, and Zhang, Hangjun

Published

2025

4. Implications of cyantraniliprole sublethal doses on the population dynamics and gene expression of Aphis gossypii Glover (Hemiptera: Aphididae)

Author

Qiu, Yuepeng, Song, Xianpeng, Wang, Dan, Hu, Hongyan, Wu, Changcai, Shan, Yongpan, Ma, Yajie, Ren, Xiangliang, and Ma, Yan

Published

2025

5. Chronic and transgenerational effects of silver nanoparticles in freshwater gastropod Lymnaea stagnalis

Author

Wang, Ting and Liu, Wei

Published

2023

6. Perfluorooctane sulfonate (PFOS) induces several behavioural defects in Caenorhabditis elegans that can also be transferred to the next generations

Author

Chowdhury, Manjurul Islam, Sana, Tanmoy, Panneerselvan, Logeshwaran, Sivaram, Anithadevi Kenday, and Megharaj, Mallavarapu

Published

2022

7. Transgenerational effects of paternal exposures: the role of germline de novo mutations.

Author

Dehghanbanadaki, Hojat, Jimbo, Masaya, Fendereski, Kiarad, Kunisaki, Jason, Horns, Joshua J, Ramsay, Joemy M., Gross, Kelli X., Pastuszak, Alexander W., and Hotaling, James M.

Subjects

*SEMEN analysis, *PREGNANCY outcomes, *GERM cells, *MATERNAL exposure, *SPERMATOZOA, *PATERNAL age effect

Abstract

Germline de novo mutations (DNMs) refer to spontaneous mutations arising during gametogenesis, resulting in genetic changes within germ cells that are subsequently transmitted to the next generation. While the impact of maternal exposures on germline DNMs has been extensively studied, more recent studies have begun to highlight the increasing importance of the effects of paternal factors. In this review, we have summarized the existing literature on how various exposures experienced by fathers affect the germline DNM burden in their spermatozoa, as well as their consequences for semen analysis parameters, pregnancy outcomes, and offspring health. A growing body of literature supports the conclusion that advanced paternal age (APA) correlates with a higher germline DNM rate in offspring. Furthermore, lifestyle choices, environmental toxins, assisted reproductive techniques (ART), and chemotherapy are associated with the accumulation of paternal DNMs in spermatozoa, with deleterious consequences for pregnancy outcomes and offspring health. Ultimately, our review highlights the clear importance of the germline DNM mode of inheritance, and the current understanding of how this is affected by various paternal factors. In addition, we explore conflicting reports or gaps of knowledge that should be addressed in future research. [ABSTRACT FROM AUTHOR]

Published

2025

8. Life table analysis and RNA‐Seq reveal hormesis and transgenerational effects of deltamethrin on Aphis gossypii.

Author

Huangfu, Ningbo, Shang, Jiao, Guo, Lixiang, Zhu, Xiangzhen, Zhang, Kaixin, Niu, Ruichang, Li, Dongyang, Gao, Xueke, Wang, Li, Ji, Jichao, Luo, Junyu, and Cui, Jinjie

Subjects

COTTON aphid, HOMOLOGOUS recombination, DELTAMETHRIN, AGRICULTURAL pests, INTEGRATED pest control

Abstract

Background: Deltamethrin, as a highly effective and broad‐spectrum insecticide, has been widely used for agricultural pest control such as Aphis gossypii worldwide. Increasing evidence has shown that despite great economic benefits brought by it, deltamethrin has also non‐negligible side effects. However, the potential risks and related molecular mechanisms remain largely unclear. Results: Herein, the life table parameters and transcriptome sequencing analyses of the four successive aphid generations were performed to investigate the hormesis and transgenerational effects of deltamethrin on A. gossypii. The life table analysis showed that although the exposure of G0 aphid to 30% lethal concentration (LC30) deltamethrin significantly reduced the net reproduction rate (R0), intrinsic rate of increase (r), and fecundity of G0, but it significantly enhanced the R0 and fecundity of subsequent two generations (G1 and G2) of A. gossypii. Moreover, transcriptomic analyses showed that the signaling pathways related to posttranscriptional regulation (spliceosome), protein processing, longevity regulating, and cell proliferation (DNA replication, homologous recombination and non‐homologous end‐joining) were significantly up‐regulated in G1 or G2 under LC30 deltamethrin treatment. Additionally, we also found that the deltamethrin–sulfoxaflor rotation of G0 and G1 still induced reproductive stimulation, but the reproductive stimulation induced by insecticides rotation treatment was significantly lower than that in the deltamethrin exposure alone. Conclusion: Our study demonstrates that sublethal concentrations of deltamethrin significantly enhanced the offspring fecundity of cotton aphid. In addition, our study also reveals the transcriptional response mechanism of hormesis‐induced fecundity increase, providing valuable reference for optimizing the application of deltamethrin in integrated pest management. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2025

9. History of exposure to copper influences transgenerational gene expression responses in Daphnia magna.

Author

Jeremias, Guilherme, Muñiz-González, Ana-Belén, Mendes Gonçalves, Fernando José, Martínez-Guitarte, José-Luis, Asselman, Jana, and Luísa Pereira, Joana

Subjects

COPPER, DAPHNIA magna, GENE expression, ECOSYSTEM health, DNA damage, CIRCADIAN rhythms

Abstract

The establishment of transgenerational effects following chemical exposure is a powerful phenomenon, capable of modulating ecosystem health beyond exposure periods. This study assessed the transgenerational effects occurring due to copper exposure in the invertebrate D. magna at the transcriptional level, while evaluating the role of exposure history on such responses. Thus, daphnids acclimated for several generations in a copper vs. clean medium were then exposed for one generation (F0) to this metal, and monitored for the following non-exposed generations (F1, F2 and F3). Organisms differing in exposure histories showed remarkably different transcriptional profiles at the F0, with naïve organisms being more profoundly affected. These trends were confirmed for F3 treatments, which presented different transcriptional patterns for genes involved in detoxification, oxidative stress, DNA damage repair, circadian clock functioning and epigenetic regulation. Furthermore, regardless of exposure history, a great number of histone modifier genes were always found transcriptionally altered, thus suggesting the involvement of histone modifications in the response of Daphnia to metal exposure. Lastly, remarkably distinct transgenerational transcriptional responses were found between naïve and non-naïve organisms, thereby highlighting the influence of exposure history on gene expression and confirming the capacity of metals to determine transgenerational transcriptional effects across non-exposed generations. [ABSTRACT FROM AUTHOR]

Published

2024

10. Multifaceted paternal exposures before conception and their epigenetic impact on offspring.

Author

Wu, Xiaojing, Zhang, Weiping, Chen, Huijun, and Weng, Jianfei

Subjects

*GENETIC regulation, *LIFE sciences, *HISTONE methylation, *DNA methylation, *ENVIRONMENTAL exposure

Abstract

As scientific research progresses, there is an increasing understanding of the importance of paternal epigenetics in influencing the health and developmental path of offspring. Prior to conception, the environmental exposures and lifestyle choices of fathers can significantly influence the epigenetic state of sperm, including DNA methylation and histone changes, among other factors. These alterations in epigenetic patterns have the potential for transgenerational transmission potential and may exert profound effects on the biological characteristics of descendants. Paternal epigenetic changes not only affect the regulation of gene expression patterns in offspring but also increase the risk to certain diseases. It is crucial to comprehend the conditions that fathers are exposed to before conception and the potential outcomes of these conditions. This understanding is essential for assessing personal reproductive decisions and anticipating health risks for future generations. This review article systematically summarizes and analyzes current research findings regarding how paternal pre-pregnancy exposures influence offspring as well as elucidates underlying mechanisms, aiming to provide a comprehensive perspective for an enhanced understanding of the impact that paternal factors have on offspring health. [ABSTRACT FROM AUTHOR]

Published

2024

11. Impacts of the cyromazine emergence inhibition procedure of Bactrocera dorsalis on Fopius arisanus: implications for the biological control of diptera pest.

Author

Lin, Jia, Yue, Guoqing, Chen, Jun, Xiao, Kang, and Ji, Qing'e

Subjects

BIOLOGICAL pest control, PARASITIC wasps, DIPTERA, BIOCHEMICAL substrates, WASPS, ORIENTAL fruit fly

Abstract

Background: Fopius arisanus (Sonan) is an important egg–pupal endoparasitic wasp of Bactrocera dorsalis (Hendel). As traditional method of sorting nonparasitic B. dorsalis from parasitic wasps is labor‐intensive, requires specific equipment and poses the risk of spreading fertile hosts, the development of a more convenient, economical and safe sorting procedure is important. Results: The optimal cyromazine emergence inhibition procedure (CEIP) involved facilitating the pupation of B. dorsalis mature larvae (Bdml) in 3 mg kg−1 cyromazine sand substrate (CSS) for 48 h. When the Bdml that had been exposed to F. arisanus during the egg stage were treated with 3–7 mg kg−1 CSS for 48 h, no negative effects on the emergence parameters of parasitoids were observed. Treatment with 3–4 mg kg−1 CSS had insignificant effects on the biological and behavioral parameters of F. arisanus. However, treatment with 5–6 mg kg−1 CSS adversely affected the fecundity and antennating activity of the wasps; specifically, 6 mg kg−1 CSS negatively affected the lifespan and flight ability of wasps. Fortunately, no transgenerational effects on these parameters were observed in the progeny. Regarding the nutrient reserves of both sexes of F. arisanus, significant dose‐dependent effects were observed. Moreover, 5–6 mg kg−1 CSS significantly reduced the protein and carbohydrate content in F. arisanus; in particular, 6 mg kg−1 CSS notably reduced the lipid content. Conclusion: CEIP provides a more flexible, economical and safe mass‐release program for F. arisanus. In addition, it has profound implications for the biological control of other dipteran pests. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

12. The effect of major abiotic stressors on honey bee (Apis mellifera L.) queens and potential impact on their progeny: Abiotic stressors and honey bee queens: E. Amiri et al.

Author

Amiri, Esmaeil, Abou-Shaara, Hossam, and McAfee, Alison

Abstract

Queen health and quality play a significant role in the survival, expansion, and productivity of honey bee colonies. Nevertheless, modern beekeeping practices, intensified agriculture, and climate change can leave queens vulnerable to diverse stressors. These stressors can exert a negative impact on queens, resulting in a range of morphological and physiological abnormalities. The repercussions of queen stress may not only cause direct impacts on her survival and performance, but it may also extend to the offspring of surviving queens through transgenerational mechanisms. Here, we review the current knowledge regarding the effects of major abiotic stressors (namely, nutrition, pesticides, and extreme temperatures) on queen health and their potential impacts on the queen’s progeny. Gaining insight into the effects of these factors across individual and colony levels is vital for prioritizing further research on queen and colony health. [ABSTRACT FROM AUTHOR]

Published

2025

13. Hyphantria cunea-mediated inducible defense in low-fitness host plant Tilia amurensis: An arthropod–plant interaction perspective: Hyphantria cunea–mediated inducible defense in low-fitness host plant Tilia amurensis: R. Wang et al.

Author

Wang, Ruiqi, Zhou, Yantao, Zhang, Aoying, Wang, Ying, Ding, Kexin, Tan, Mingtao, Jiang, Dun, and Yan, Shanchun

Abstract

Inducible defense is an important anti-insect strategy in plants. This study investigated whether larval feeding by Hyphantria cunea at low-density and high-density levels can initiate inducible defense responses in the low-fitness host plant Tilia amurensis on the 7th- and 21th-day post-feeding. The results revealed significant alterations in the nutrient composition (e.g., amino acids, soluble sugars, and total proteins) within T. amurensis, with notable decreases observed on the 7th-day post-feeding, followed by increases on the 21st day, respectively. Specifically, the low-density feeding group prompted significant increases in tannin, total phenols, and total flavonoids on the 7th day, whereas the high-density feeding group induced significant decreases in these compounds. Conversely, total alkaloid levels exhibited an inverse pattern, with lignin contents notably decreasing. By the 21st-day post-feeding, all secondary metabolites demonstrated significant increases. Expression analysis of flavonoid biosynthetic genes mirrors the changes observed in the total flavonoid content. Furthermore, larval feeding activates the α-linoleic acid metabolism pathway consistently across all time points. Subsequent generations of H. cunea larvae in low-density feeding and high-density feeding groups demonstrated decreased growth, along with downregulation of growth regulatory genes and key genes involved in energy metabolism, digestion, and detoxification. Notably, the expression of digestive gene LIP10 and detoxification genes GST18 and CARE14 exhibits adaptive regulation in response to T. amurensis’ inducible defense. Overall, larval feeding by H. cunea elicits a robust and enduring inducible defense response in T. amurensis, ultimately decreasing the fitness of the subsequent generations of H. cunea larvae on T. amabilis. [ABSTRACT FROM AUTHOR]

Published

2025

14. Effect of environmental air pollutants on placental function and pregnancy outcomes: a molecular insight.

Author

Singh, Sunil, Goel, Isha, Tripathi, Smita, Ahirwar, Ashok, Kumar, Megha, Rana, Anubhuti, Dhar, Ruby, and Karmakar, Subhradip

Subjects

AIR pollutants, PREGNANCY complications, POLLUTANTS, NEWBORN infants, PREGNANCY outcomes, PREMATURE labor, PREGNANCY

Abstract

Air pollution has become a major health concern, particularly for vulnerable populations such as the elderly, children, and pregnant women. Studies have reported a strong association between prenatal exposure to air pollutants and adverse pregnancy outcomes, including lower birth weight, reduced fetal growth, and an increased frequency of preterm births. This review summarizes the harmful effects of air pollutants, such as particulate matter, on pregnancy and outlines the mechanistic details associated with these adverse outcomes. Particulate pollutant matter may be able to cross the placenta barrier, and alterations in placental functions are central to the detrimental effects of these pollutants. In addition to associations with preeclampsia and gestational hypertension, air pollutants also induce oxidative stress, inflammation, and epigenetic alteration in the placenta. These pollutants can also affect placental homeostasis and endocrine function, contributing to pregnancy complications and possible transgenerational effects. Prenatal air pollution exposure has been linked to reduced cognitive and motor function in infants and newborns, increasing the predisposition to autism spectrum disorders and other neuropsychiatric disorders. This review also summarizes the use of various animal models to study the harmful effects of air pollution on pregnancy and postnatal outcomes. These findings provide valuable insight into the molecular events associated with the process and can aid in risk mitigation and adopting safety measures. Implementing effective environmental protocols and taking appropriate steps may reduce the global disease burden, particularly for developing nations with poor regulatory compliance and large populations of pregnant women. [ABSTRACT FROM AUTHOR]

Published

2024

15. Transgenerational effects of mycorrhiza are stronger in sexual than in clonal offspring of Fragaria vesca and are partly adaptive.

Author

Latzel, Vít, Mizgur‐Hribar, Danej, Sammarco, Iris, and Janoušková, Martina

Subjects

*PLANT colonization, *PLANT performance, *ECOSYSTEM dynamics, *MYCORRHIZAS, *PLANT growth

Abstract

Whilst transgenerational effects (TGE) of abiotic conditions are becoming generally accepted in plants, those of biotic interactions remain largely unexplored. We therefore investigated the influence of TGE due to arbuscular mycorrhiza, the most widespread mutualistic interaction of plants with microorganisms, on clonal and sexual offspring of Fragaria vesca. We hypothesized that the ecological and evolutionary significance of TGE will vary between clonal and sexual offspring based on mycorrhizal status and phosphorus (P) availability experienced by the parent. In a two‐generation greenhouse experiment, parental plants were exposed to full‐factorial combinations of mycorrhizal status and high or low P availability. TGE on mycorrhiza establishment and plant performance were evaluated in their clonal and sexual offspring, which experienced the parental or all non‐parental environments. Consistently in both generations, mycorrhiza improved plant growth at low P availability, but had no or even negative effect at high P availability, concomitantly with decreased root colonization by the arbuscular mycorrhizal (AM) fungus. TGE due to mycorrhiza was generally stronger in sexually derived offspring, both on mycorrhiza formation and plant growth. In sexual offspring, parental mycorrhizal status was adaptive if the offspring's mycorrhizal status was of disadvantage: for mycorrhizal offspring growing in high P availability and for non‐mycorrhizal offspring at low P availability. Synthesis: Our results suggest that clonal and sexual reproduction are under different evolutionary pressures, leading to the development of stronger TGE mechanisms in response to mycorrhizal symbiosis in the latter. The complexity of the observed effects highlights the need for disentangling the mechanisms contributing to the TGE in clonal and sexual reproduction. Our study underlines the importance of considering reproductive strategies and the interplay between environmental factors and TGE in understanding the ecological and evolutionary dynamics of plant–symbiotic interactions. [ABSTRACT FROM AUTHOR]

Published

2024

16. History of exposure to copper influences transgenerational gene expression responses in Daphnia magna

Author

Guilherme Jeremias, Ana-Belén Muñiz-González, Fernando José Mendes Gonçalves, José-Luis Martínez-Guitarte, Jana Asselman, and Joana Luísa Pereira

Subjects

Metals, invertebrates, molecular responses, RT-PCR, transgenerational effects, epigenetics, Genetics, QH426-470

Abstract

The establishment of transgenerational effects following chemical exposure is a powerful phenomenon, capable of modulating ecosystem health beyond exposure periods. This study assessed the transgenerational effects occurring due to copper exposure in the invertebrate D. magna at the transcriptional level, while evaluating the role of exposure history on such responses. Thus, daphnids acclimated for several generations in a copper vs. clean medium were then exposed for one generation (F0) to this metal, and monitored for the following non-exposed generations (F1, F2 and F3). Organisms differing in exposure histories showed remarkably different transcriptional profiles at the F0, with naïve organisms being more profoundly affected. These trends were confirmed for F3 treatments, which presented different transcriptional patterns for genes involved in detoxification, oxidative stress, DNA damage repair, circadian clock functioning and epigenetic regulation. Furthermore, regardless of exposure history, a great number of histone modifier genes were always found transcriptionally altered, thus suggesting the involvement of histone modifications in the response of Daphnia to metal exposure. Lastly, remarkably distinct transgenerational transcriptional responses were found between naïve and non-naïve organisms, thereby highlighting the influence of exposure history on gene expression and confirming the capacity of metals to determine transgenerational transcriptional effects across non-exposed generations.

Published

2024

17. The evolutionary consequences of interactions between the epigenome, the genome and the environment.

Author

Baduel, Pierre, Sammarco, Iris, Barrett, Rowan, Coronado‐Zamora, Marta, Crespel, Amélie, Díez‐Rodríguez, Bárbara, Fox, Janay, Galanti, Dario, González, Josefa, Jueterbock, Alexander, Wootton, Eric, and Harney, Ewan

Subjects

*GENOMES, *GENETIC variation, *GENOTYPE-environment interaction, *ECOLOGICAL disturbances, *GENETIC regulation, *PHENOTYPIC plasticity, *EPIGENOMICS

Abstract

The epigenome is the suite of interacting chemical marks and molecules that helps to shape patterns of development, phenotypic plasticity and gene regulation, in part due to its responsiveness to environmental stimuli. There is increasing interest in understanding the functional and evolutionary importance of this sensitivity under ecologically realistic conditions. Observations that epigenetic variation abounds in natural populations have prompted speculation that it may facilitate evolutionary responses to rapid environmental perturbations, such as those occurring under climate change. A frequent point of contention is whether epigenetic variants reflect genetic variation or are independent of it. The genome and epigenome often appear tightly linked and interdependent. While many epigenetic changes are genetically determined, the converse is also true, with DNA sequence changes influenced by the presence of epigenetic marks. Understanding how the epigenome, genome and environment interact with one another is therefore an essential step in explaining the broader evolutionary consequences of epigenomic variation. Drawing on results from experimental and comparative studies carried out in diverse plant and animal species, we synthesize our current understanding of how these factors interact to shape phenotypic variation in natural populations, with a focus on identifying similarities and differences between taxonomic groups. We describe the main components of the epigenome and how they vary within and between taxa. We review how variation in the epigenome interacts with genetic features and environmental determinants, with a focus on the role of transposable elements (TEs) in integrating the epigenome, genome and environment. And we look at recent studies investigating the functional and evolutionary consequences of these interactions. Although epigenetic differentiation in nature is likely often a result of drift or selection on stochastic epimutations, there is growing evidence that a significant fraction of it can be stably inherited and could therefore contribute to evolution independently of genetic change. [ABSTRACT FROM AUTHOR]

Published

2024

18. Grandfathers-to-Grandsons Transgenerational Transmission of Exercise Positive Effects on Cognitive Performance.

Author

Cintado, Elisa, Tezanos, Patricia, De las Casas, Manuela, Muela, Pablo, McGreevy, Kerry R., Fontán-Lozano, Ángela, Sacristán-Horcajada, Eva, Pignatelli, Jaime, de Ceballos, María L., del Hierro, María Jesús, Fernández-Punzano, Julia, Montoliu, Lluís, and Luis Trejo, José

Subjects

*COGNITIVE ability, *RECOLLECTION (Psychology), *EXERCISE therapy, *MICRORNA, *HEREDITY

Abstract

Physical exercise is a robust lifestyle intervention known for its enhancement of cognitive abilities. Nevertheless, the extent to which these benefits can be transmitted across generations (intergenerational inheritance to F1, and transgenerational to F2 and beyond) remains a topic of limited comprehension. We have already shown that cognitive improvements resulting from physical exercise can be inherited from parents to their offspring, proving intergenerational effects. So, we set out to explore whether these enhancements might extend transgenerationally, impacting the F2 generation. In this study, we initially examined the behavioral traits of second generation (F2) male mice, whose grandfathers (F0) had an exercise intervention. Our findings revealed that F2 mice with physically active grandpaternal F0 progenitors displayed significantly improved memory recall, encompassing both spatial and non-spatial information when compared to their counterparts from sedentary F0 progenitors, and proving for the first time the transgenerational inheritance of physical exercise induced cognitive enhancement. Surprisingly, while F2 memory improved (as was the case with F1), adult hippocampal neurogenesis remained unchanged between experimental and control groups (unlike in F1). Additionally, our analysis of small RNA sequences in the hippocampus identified 35 differentially expressed miRNAs linked to important brain function categories. Notably, two of these miRNAs, miRNA-144 and miRNA-298, displayed a robust negative correlation with cognitive performance. These findings highlight the enduring transgenerational transmission of cognitive benefits associated with exercise, even after two generations, suggesting that moderate exercise training can have lasting positive effects, possibly orchestrated by a specific set of miRNAs that exert their influence across multiple generations. [ABSTRACT FROM AUTHOR]

Published

2024

19. Predator densities alter the influence of non‐consumptive effects on the population dynamics of an agricultural pest.

Author

Mutz, Jessie, Thaler, Jennifer S., Ugine, Todd A., Inouye, Brian D., and Underwood, Nora

Subjects

*AGRICULTURAL pests, *COLORADO potato beetle, *POPULATION dynamics, *RURAL population, *PREDATORY animals, *BIOLOGICAL pest control agents

Abstract

Augmentative release of predators is used in agriculture to suppress pest populations and minimise crop damage. However, predators affect prey populations not only through consumption but by inducing changes to prey morphology, physiology, behaviour and life history. These risk‐induced trait responses can increase prey fitness, potentially reducing the efficacy of certain predators as biocontrol agents.We investigated how non‐consumptive effects contribute to the overall influence of predators by modelling the effect of the predator Podisus maculiventris on the population dynamics of a major agricultural pest, the Colorado potato beetle (Leptinotarsa decemlineata). We developed a demographic model incorporating both consumption and non‐consumptive Podisus‐induced shifts in beetle reproductive strategy. Our model combines data from multiple mechanistic experiments showing that predator‐exposed beetles produce fewer offspring but increase offspring provisioning, and that provisioned larvae have increased survival when predators are present. We simulated beetle densities across multiple beetle generations and a range of predator densities.The influence of non‐consumptive effects depended on predator density. At low predator densities, non‐consumptive effects strengthened the negative effect of predators by up to 45%, and risk‐induced changes to offspring provisioning had a stronger effect on prey densities than reduced offspring quantity. In contrast, at high predator densities, non‐consumptive effects changed the effect of predators by <5%, likely because beetle densities were very low both with and without non‐consumptive effects.Our results suggest that even adaptive responses to predation risk by prey do not necessarily reduce the ability of predators to suppress pest populations. [ABSTRACT FROM AUTHOR]

Published

2024

20. In silico investigation of the role of miRNAs in a possible developmental origin of prostate cancer in F1 and F2 offspring of mothers exposed to a phthalate mixture.

Author

Aquino, A. M., Fioretto, M. N., Alonso‐Costa, L. G., Rocha, V. A., Souza, P. V., Magosso, N., Barbisan, L. F., Justulin, L. A., Flaws, J. A., and Scarano, W. R.

Subjects

PHTHALATE esters, GENE expression, MICRORNA, PROSTATE cancer, MIXTURES, EPIGENETICS

Abstract

A previous study using miRNA sequencing revealed that exposure to a mixture of phthalates during pregnancy and lactation dysregulated rno‐miR‐184 and rno‐miR‐141‐3p in the ventral prostate (VP) of offspring. Here, rno‐miR‐184 and rno‐miR‐141‐3 expressions were obtained by RT‐qPCR in the VP of F1 males as well as in F2 offspring, aiming to establish a relationship with possible oncogenic targets through in silico analyses with multigenerational approach. Additionally, some targets were measured by western blots to highlight a possible relationship between the deregulated miRNAs and some of their targets. VP samples from rats exposed to a mixture of phthalates maternally during pregnancy and lactation (GD10 to PND21‐F1) and VP from offspring (F2) were examined. The phthalate mixture at both concentrations (20 μg and 200 mg/kg/day) increased the expression of both miRNAs in the F1 (PND22 and 120) and F2 (descendants of F1‐treated males) prostate. Target prediction analysis revealed that both microRNAs are responsible for modulating the expression and synthesis of 40 common targets. A phthalate target association analysis and the HPA database showed an interesting relationship among these possible miRNAs modulated targets with prostate adenocarcinoma and other oncogenic processes. Western blots showed alteration in P63, P53, WNT5, and STAT3 expression, which are targeted by the miRNAs, in the VP of F1/F2 males. The data draw attention to the epigenetic modulation in the prostate of descendants exposed to phthalates and adds to one of the few currently found in the literature to point to microRNAs signature as biomarkers of exposure to plasticizers. [ABSTRACT FROM AUTHOR]

Published

2024

21. Spinetoram exposure disrupts survival of flower bugs and leads to population collapse in orchards.

Author

Tao Lin, Yong Chen, Yixin Chen, Jinfeng Hu, Shuo Lin, Jianwei Zhao, Guang Yang, Fenghua Yang, and Hui Wei

Subjects

*ORCHARD management, *INTEGRATED pest control, *PARAMETERS (Statistics), *TRAINING of executives, *THRIPS

Abstract

The increasing use of reduced-risk insecticides in orchard management has raised concerns regarding their potential risk to beneficial arthropods. Depending solely on acute short-term effects tends to underestimate the risks posed by spinetoram to natural enemies. Limited information is available on the long-term consequences of low exposure to spinetoram on natural enemies. The survival and predation of Orius strigicollis gradually decreased with the increase in spinetoram exposure rate, and the preoviposition periods were prolonged above 0.208 g a.i. ha-1. However, the adult lifespan, reproductive rate, population parameters, intrinsic rate of increase, finite rate of increase, and net reproductive rate were reduced, while the transformation rate was increased with the increase in spinetoram exposure rate. The population size and predation potential of O. strigicollis at 0.104 g a.i. ha-1 were higher than other treatments but did not differ from those of the control. Field residue monitoring showed that the peak residue levels of spinetoram on Eriobotrya japonica and Bidens alba flowers were 0.525–0.589 g ha-1 and 0.139–0.148 g ha-1, respectively, and it required at least 28 and 9 days, respectively, for the residue levels to dissipate to a level with no toxic effect on O. strigicollis. Therefore, the sublethal effects resulting from trace residues is the primary factor responsible for O. strigicollis population collapse. We provide insights for mitigating the negative impacts of spinetoram on O. strigicollis and for integrated pest management development. [ABSTRACT FROM AUTHOR]

Published

2024

22. War exposure prior to conception: Longitudinal associations between maternal emotional distress and child sleep 10 years later.

Author

Bolhuis, Emma, Scher, Anat, Ohana, Hanit, Ad-Epsztein, Rotem, Leshem, Micah, and Beijers, Roseriet

Subjects

*PSYCHOLOGICAL distress, *WAR, *ANALYSIS of covariance, *REGRESSION analysis, *MATERNAL exposure, *SLEEP

Abstract

Exposure to war is known to impact children's physical and mental health. Recent research reveals that war exposure might even affect the developmental outcomes of children who are yet to be conceived. In this study, we sought to extend such prior work by investigating longitudinal associations between pre-conception war exposure and the accompanying maternal emotional distress on child sleep. Israeli mothers, who conceived within a year after the Lebanon war in 2006 (N = 68), were followed until their children reached 10 years of age. At that age, child sleep problems were measured through mother and child reports. Results from analyses of covariances (ANCOVAs) showed that war exposure prior to conception itself did not predict child sleep. However, hierarchical regression analyses showed that higher levels of maternal emotional distress, as a result of pre-conception war exposure, predicted more sleep problems in girls. Further exploratory analyses revealed that these associations showed themselves in both maternal and child reports on various sleep domains. In boys, no evidence was found for associations between maternal emotional distress during wartime and sleep 10 years later. These results indicate that war-related pre-conception stress might have long-term, sex-specific effects on child sleep, though replication with larger samples is needed to corroborate the findings. [ABSTRACT FROM AUTHOR]

Published

2024

23. Cucumeropsis mannii seed oil mitigates bisphenol-A-induced sperm and hormonal damages in F1-generation of F0-exposed male rats: An in-vivo and in-silico analysis

Author

Peter Chinedu Agu, Hilary Akobi Ogwoni, Prashanth N. Suravajhala, Renuka Suravajhala, Onaadepo Olufunke, Onyebuchi Frederick Orinya, Ibrahim Babaginda Abubarkar, Ejike Daniel Eze, and Patrick Maduabuchi Aja

Subjects

Cucumeropsis mannii seed oil, Bisphenol A, Sperm indices, Fertility hormones disruption, Transgenerational effects, Chemistry, QD1-999

Abstract

Exposure to endocrine-disrupting chemicals such as bisphenol A (BPA) has been linked to the sharp drop in male fertility observed worldwide. This study evaluates the protective benefits of Cucumeropsis mannii seed oil (CMSO) against BPA-induced transgenerational sperm indices and reproductive hormone disruptions in rats. Twenty-four F0-male rats (aged 4–5 weeks) were randomly assigned to six groups (n = 4 each) after CMSO characterization for flavonoids. Group A received 1 ml of olive oil. Group B received 100 mg/kg body weight (BW) of BPA whereas Group C had a BW of 7.5 ml/kg CMSO. Groups D, E, and F were administered 100 mg/kg_BW of BPA in addition to 7.5, 5.0, and 2.5 ml/kg_BW of CMSO, respectively. After two weeks of treatment, four mature female rats were introduced to each group and allowed to stay together with male rats for seven days to confirm mating. Thereafter, the pregnant female rats were separated from the male according to their groups and allowed to give birth after 21 days of gestation period. At six weeks, the F1-male rats were isolated from each group and sacrificed for biochemical analysis. In-silico, CMSO flavonoids were assessed for drug-likeness and oral absorbability, followed by molecular docking to study their androgen receptor targeting mechanisms. Results showed that total flavonoids were 17.3652 ± 8.85 g/100 g. In-vivo, BPA significantly (p

Published

2024

24. The State of Research and Weight of Evidence on the Epigenetic Effects of Bisphenol A

Author

Besaratinia, Ahmad

Subjects

Biochemistry and Cell Biology, Biological Sciences, Medicinal and Biomolecular Chemistry, Chemical Sciences, Microbiology, Genetics, Nutrition, Aetiology, 2.2 Factors relating to the physical environment, Humans, Phenols, Benzhydryl Compounds, Food Packaging, Epigenesis, Genetic, Endocrine Disruptors, DNA methylation, endocrine disrupting chemical, histone modifications, noncoding RNA, receptors, reproductive system, transcription factors, transgenerational effects, Other Chemical Sciences, Other Biological Sciences, Chemical Physics, Biochemistry and cell biology, Medicinal and biomolecular chemistry

Abstract

Bisphenol A (BPA) is a high-production-volume chemical with numerous industrial and consumer applications. BPA is extensively used in the manufacture of polycarbonate plastics and epoxy resins. The widespread utilities of BPA include its use as internal coating for food and beverage cans, bottles, and food-packaging materials, and as a building block for countless goods of common use. BPA can be released into the environment and enter the human body at any stage during its production, or in the process of manufacture, use, or disposal of materials made from this chemical. While the general population is predominantly exposed to BPA through contaminated food and drinking water, non-dietary exposures through the respiratory system, integumentary system, and vertical transmission, as well as other routes of exposure, also exist. BPA is often classified as an endocrine-disrupting chemical as it can act as a xenoestrogen. Exposure to BPA has been associated with developmental, reproductive, cardiovascular, neurological, metabolic, or immune effects, as well as oncogenic effects. BPA can disrupt the synthesis or clearance of hormones by binding and interfering with biological receptors. BPA can also interact with key transcription factors to modulate regulation of gene expression. Over the past 17 years, an epigenetic mechanism of action for BPA has emerged. This article summarizes the current state of research on the epigenetic effects of BPA by analyzing the findings from various studies in model systems and human populations. It evaluates the weight of evidence on the ability of BPA to alter the epigenome, while also discussing the direction of future research.

Published

2023

25. Sex-specific transgenerational effects of diet on offspring life history and physiology.

Author

Camilleri, Tara-Lyn, Piper, Matthew D. W., Robker, Rebecca L., and Dowling, Damian K.

Subjects

*DIETARY sucrose, *LIFE history theory, *BIOLOGICAL fitness, *DROSOPHILA melanogaster, *PHENOTYPIC plasticity, *REPRODUCTION

Abstract

Dietary variation in males and females can shape the expression of offspring life histories and physiology. However, the relative contributions of maternal and paternal dietary variation to phenotypic expression of latter generations is currently unknown. We provided male and female Drosophila melanogaster grandparents with diets differing in sucrose concentration prior to reproduction, and similarly subjected their grandoffspring to the same treatments. We then investigated the phenotypic consequences of this dietary variation among the grandsons and granddaughters. We observed transgenerational effects of dietary sucrose, mediated through the grandmaternal lineage, which mimic the direct effects of sucrose on lifespan, with opposing patterns across sexes; low sucrose increased female, but decreased male, lifespan. Dietary mismatching of grandoffspring–grandparent diets increased lifespan and reproductive success, and moderated triglyceride levels of grandoffspring, providing insights into the physiological underpinnings of the complex transgenerational effects on life histories. [ABSTRACT FROM AUTHOR]

Published

2024

26. Association of Fetal Lung Development Disorders with Adult Diseases: A Comprehensive Review.

Author

Yaremenko, Alexey V., Pechnikova, Nadezhda A., Porpodis, Konstantinos, Damdoumis, Savvas, Aggeli, Amalia, Theodora, Papamitsou, and Domvri, Kalliopi

Subjects

*LUNG development, *FETAL development, *ADULT development, *CHRONIC obstructive pulmonary disease, *RESPIRATORY distress syndrome

Abstract

Fetal lung development is a crucial and complex process that lays the groundwork for postnatal respiratory health. However, disruptions in this delicate developmental journey can lead to fetal lung development disorders, impacting neonatal outcomes and potentially influencing health outcomes well into adulthood. Recent research has shed light on the intriguing association between fetal lung development disorders and the development of adult diseases. Understanding these links can provide valuable insights into the developmental origins of health and disease, paving the way for targeted preventive measures and clinical interventions. This review article aims to comprehensively explore the association of fetal lung development disorders with adult diseases. We delve into the stages of fetal lung development, examining key factors influencing fetal lung maturation. Subsequently, we investigate specific fetal lung development disorders, such as respiratory distress syndrome (RDS), bronchopulmonary dysplasia (BPD), congenital diaphragmatic hernia (CDH), and other abnormalities. Furthermore, we explore the potential mechanisms underlying these associations, considering the role of epigenetic modifications, transgenerational effects, and intrauterine environmental factors. Additionally, we examine the epidemiological evidence and clinical findings linking fetal lung development disorders to adult respiratory diseases, including asthma, chronic obstructive pulmonary disease (COPD), and other respiratory ailments. This review provides valuable insights for healthcare professionals and researchers, guiding future investigations and shaping strategies for preventive interventions and long-term care. [ABSTRACT FROM AUTHOR]

Published

2024

27. Transgenerational Epigenetic Inheritance of Cardiovascular Diseases: A Network Medicine Perspective.

Author

Benincasa, Giuditta, Napoli, Claudio, and DeMeo, Dawn L.

Subjects

*RISK assessment, *CARDIOVASCULAR diseases, *HYPERLIPIDEMIA, *HYPERTENSION, *INSULIN, *GENES, *DNA methylation, *ENVIRONMENTAL exposure, *FATHERS, *BIOMARKERS

Abstract

Introduction: The ability to identify early epigenetic signatures underlying the inheritance of cardiovascular risk, including trans- and intergenerational effects, may help to stratify people before cardiac symptoms occur. Methods: Prospective and retrospective cohorts and case–control studies focusing on DNA methylation and maternal/paternal effects were searched in Pubmed from 1997 to 2023 by using the following keywords: DNA methylation, genomic imprinting, and network analysis in combination with transgenerational/intergenerational effects. Results: Maternal and paternal exposures to traditional cardiovascular risk factors during critical temporal windows, including the preconceptional period or early pregnancy, may perturb the plasticity of the epigenome (mainly DNA methylation) of the developing fetus especially at imprinted loci, such as the insulin-like growth factor type 2 (IGF2) gene. Thus, the epigenome is akin to a "molecular archive" able to memorize parental environmental insults and predispose an individual to cardiovascular diseases onset in later life. Direct evidence for human transgenerational epigenetic inheritance (at least three generations) of cardiovascular risk is lacking but it is supported by epidemiological studies. Several blood-based association studies showed potential intergenerational epigenetic effects (single-generation studies) which may mediate the transmittance of cardiovascular risk from parents to offspring. Discussion: In this narrative review, we discuss some relevant examples of trans- and intergenerational epigenetic associations with cardiovascular risk. In our perspective, we propose three network-oriented approaches which may help to clarify the unsolved issues regarding transgenerational epigenetic inheritance of cardiovascular risk and provide potential early biomarkers for primary prevention. Significance: What is already known on this subject?: Many maternal risk factors, including dyslipidemia, hypertension, smoking, diabetes, and obesity have been associated with CVDs risk in the offspring. Paternal factors are emerging as risk factors contributing to transgenerational effects. From a molecular point of view, DNA methylation may be responsible, at least in part, for early modifications during fetal development which set CVD risk trajectories during post-natal life. What this study adds?: Big data availability supports the importance of Network Medicine approaches for integrating environmental exposures, clinical information, and advanced next-generation sequencing platform data over time, representing one of the most potent research paradigms for identifying novel molecular routes underlying the potential transmittance of CVD risk from parents to their offspring. The possible inheritance of DNA methylation signatures from parents to offspring and the ability to detect them using cardiac tissue, or blood as surrogate, may provide useful biomarkers for primary prevention of CVDs. [ABSTRACT FROM AUTHOR]

Published

2024

28. Insects' essential role in understanding and broadening animal medication.

Author

Erler, Silvio, Cotter, Sheena C., Freitak, Dalial, Koch, Hauke, Palmer-Young, Evan C., de Roode, Jacobus C., Smilanich, Angela M., and Lattorff, H. Michael G.

Subjects

*INSECT rearing, *INSECTS, *NATURAL immunity, *DRUGS, *IMMUNE system

Abstract

Insects have become exciting model organisms for studying animal medication due to their comparative ease of rearing and experimental manipulation, short generation times, and diverse levels of sociality. Adopting an inclusive fitness framework has revealed the importance of medication for maximizing both direct and indirect fitness. Historically, medication research focused on chemicals or behaviors directly toxic to parasites. Recent studies have investigated how animal medication modulates the host immune system, revealing limited evidence of a strong role. Insect studies have led the way in showing that nutrients and toxins can alter animal microbiomes and thereby modulate disease resistance. A better understanding of the ecological interactions between insects and their natural enemies and environment will help to establish the relative costs and benefits of animal medication. Like humans, animals use plants and other materials as medication against parasites. Recent decades have shown that the study of insects can greatly advance our understanding of medication behaviors. The ease of rearing insects under laboratory conditions has enabled controlled experiments to test critical hypotheses, while their spectrum of reproductive strategies and living arrangements – ranging from solitary to eusocial communities – has revealed that medication behaviors can evolve to maximize inclusive fitness through both direct and indirect fitness benefits. Studying insects has also demonstrated in some cases that medication can act through modulation of the host's innate immune system and microbiome. We highlight outstanding questions, focusing on costs and benefits in the context of inclusive host fitness. [ABSTRACT FROM AUTHOR]

Published

2024

29. Arbuscular mycorrhizae status of host plant affects offspring's phenotype and transcriptome expression in a low-phosphorus environment.

Author

Liu, Shijun, Xu, Jing, Huang, Hong, Tang, Jianjun, and Chen, Xin

Subjects

PHENOTYPES, TRANSCRIPTOMES, VESICULAR-arbuscular mycorrhizas, FLOWERING of plants, MEDICAGO truncatula

Abstract

Although the effects of arbuscular mycorrhizal fungi (AMF) on host plants have been well documented, whether the effects of AMF on parental generations affect offspring performance is not fully clear. We conducted a common garden experiment to determine whether AMF status of host plants (Medicago truncatula) affects phenotype and transcriptome expression of their offspring. Seeds from four type parental treatments (low-phosphorus (P) soil without AMF, low-P soil with AMF, high-P soil without AMF and high-P soil with AMF) were grown under low-P (LPS) and normal-P soil (OHS) conditions. The flowering pattern of LP offspring was similar to their parents, such that plants with AMF flowered earlier than those without AMF under OHS condition but were opposite under LPS condition. The transcriptome differential analysis showed that some differential transcripts (45 for parental plants growing under low-P condition and 3 for parental plants growing under high-P condition) expression patterns between offspring were comparable, and that only affected by parental AMF status regardless of the P environment that offspring was grown. Others (146 for parental plants growing under low-P condition and 2 for parental plants growing under high-P condition), however, were affected both by the parental AMF status and the offspring P environment. In addition, the number of differential transcripts between offspring whose parental plants grew under high-P condition was far less than under low-P condition. These results indicate that AMF may not only affect the current generation of host plants but also affect the offspring especially when their parents have experienced a stressful environment. [ABSTRACT FROM AUTHOR]

Published

2024

30. Insights into adaptive behavioural plasticity from the guppy model system.

Author

Fox, Janay A., Toure, M. Wyatt, Heckley, Alexis, Fan, Raina, Reader, Simon M., and Barrett, Rowan D. H.

Subjects

*GUPPIES, *BEHAVIORAL research, *PARASITISM, *PHENOTYPIC plasticity, *TURBIDITY

Abstract

Behavioural plasticity allows organisms to respond to environmental challenges on short time scales. But what are the ecological and evolutionary processes that underlie behavioural plasticity? The answer to this question is complex and requires experimental dissection of the physiological, neural and molecular mechanisms contributing to behavioural plasticity as well as an understanding of the ecological and evolutionary contexts under which behavioural plasticity is adaptive. Here, we discuss key insights that research with Trinidadian guppies has provided on the underpinnings of adaptive behavioural plasticity. First, we present evidence that guppies exhibit contextual, developmental and transgenerational behavioural plasticity. Next, we review work on behavioural plasticity in guppies spanning three ecological contexts (predation, parasitism and turbidity) and three underlying mechanisms (endocrinological, neurobiological and genetic). Finally, we provide three outstanding questions that could leverage guppies further as a study system and give suggestions for how this research could be done. Research on behavioural plasticity in guppies has provided, and will continue to provide, a valuable opportunity to improve understanding of the ecological and evolutionary causes and consequences of behavioural plasticity. [ABSTRACT FROM AUTHOR]

Published

2024

31. Nano-graphene oxide particles induce inheritable anomalies through altered gene expressions involved in oocyte maturation.

Author

Krishnakumar, Sreelakshmi, Malavika, Raghunath Nair, Nair, Shantikumar V., Menon, Deepthy, and Paul-Prasanth, Bindhu

Subjects

*OVUM, *GERM cells, *GENE expression, *GRAPHENE oxide, *GAMETES

Abstract

The inheritable impact of exposure to graphene oxide nanoparticles (GO NPs) on vertebrate germline during critical windows of gamete development remain undetermined to date. Here, we analyzed the transgenerational effects of exposure to nano-graphene oxide particles (nGO) synthesized in house with lateral dimensions 300–600 nm and surface charge of −36.8 mV on different developmental stages of germ cells (GCs): (1) during GCs undergoing early development and differentiation, and (2) during GCs undergoing gametogenesis and maturation in adulthood. Biocompatibility analyses in Japanese medaka embryos showed lethality above 1 µg/ml and also an aberrant increase in germ cell count of both males and females at doses below the lethal dose. However, no lethality or anomalies were evident in adults up to 45 µg/ml. Long term exposure of embryos and adults for 21 days resulted in reduced fecundity. This effect was transmitted to subsequent generations, F1 and F2. Importantly, the inheritable effects of nGO in adults were pronounced at a high dose of 10 µg/ml, while 1 µg/ml showed no impact on the germline indicating lower doses used in this study to be safe. Further, expressions of selected genes that adversely affected oocyte maturation were enhanced in F1 and F2 individuals. Interestingly, the inheritance patterns differed corresponding to the stage at which the fish received the exposure. [ABSTRACT FROM AUTHOR]

Published

2024

32. Climate and environmental changes exacerbate health disparities in pregnant people and their offspring. How can we protect women and their babies?

Author

Girardi, Guillermina and Bremer, Andrew A.

Abstract

Background: The effects of climate and environmental changes (CEC) are being felt globally and will worsen over the next decade unless significant changes are made on a global level. Climate change is having serious consequences for health, particularly for vulnerable women and their offspring and less resilient individuals in communities with socioeconomic inequalities. To protect human health from CEC effects, efforts need to be directed toward building resilience strategies. Building political and economic power, as well as directly addressing CEC‐related challenges, are critical components of climate resilience. Effective communication and tailored methods to engage women in preventive strategies are also necessary to ameliorate the deleterious effects of CEC on women's health. Furthermore, women from marginalized communities face more CEC‐associated challenges. Conclusions: Therefore, effective policies and programs targeting these at‐risk populations—are crucial to improve the overall state of global health. In closing, it is time to increase awareness of the effects of CECs on women's health and their transgenerational effects in order to ensure that all people, regardless of race, ethnicity, education and income are protected from the detrimental effects of CECs. [ABSTRACT FROM AUTHOR]

Published

2024

33. The evolutionary consequences of interactions between the epigenome, the genome and the environment

Author

Pierre Baduel, Iris Sammarco, Rowan Barrett, Marta Coronado‐Zamora, Amélie Crespel, Bárbara Díez‐Rodríguez, Janay Fox, Dario Galanti, Josefa González, Alexander Jueterbock, Eric Wootton, and Ewan Harney

Subjects

DNA methylation, epigenetics, gene–environment interactions, natural populations, transgenerational effects, transposable elements, Evolution, QH359-425

Abstract

Abstract The epigenome is the suite of interacting chemical marks and molecules that helps to shape patterns of development, phenotypic plasticity and gene regulation, in part due to its responsiveness to environmental stimuli. There is increasing interest in understanding the functional and evolutionary importance of this sensitivity under ecologically realistic conditions. Observations that epigenetic variation abounds in natural populations have prompted speculation that it may facilitate evolutionary responses to rapid environmental perturbations, such as those occurring under climate change. A frequent point of contention is whether epigenetic variants reflect genetic variation or are independent of it. The genome and epigenome often appear tightly linked and interdependent. While many epigenetic changes are genetically determined, the converse is also true, with DNA sequence changes influenced by the presence of epigenetic marks. Understanding how the epigenome, genome and environment interact with one another is therefore an essential step in explaining the broader evolutionary consequences of epigenomic variation. Drawing on results from experimental and comparative studies carried out in diverse plant and animal species, we synthesize our current understanding of how these factors interact to shape phenotypic variation in natural populations, with a focus on identifying similarities and differences between taxonomic groups. We describe the main components of the epigenome and how they vary within and between taxa. We review how variation in the epigenome interacts with genetic features and environmental determinants, with a focus on the role of transposable elements (TEs) in integrating the epigenome, genome and environment. And we look at recent studies investigating the functional and evolutionary consequences of these interactions. Although epigenetic differentiation in nature is likely often a result of drift or selection on stochastic epimutations, there is growing evidence that a significant fraction of it can be stably inherited and could therefore contribute to evolution independently of genetic change.

Published

2024

34. Nitrate enrichment has lineage specific effects on Pocillopora acuta adults, but no transgenerational effects in planulae

Author

Strader, Marie E, Howe-Kerr, Lauren I, Sims, Jordan A, Speare, Kelly E, Shore, Amanda N, Burkepile, Deron E, and Correa, Adrienne MS

Subjects

Environmental Sciences, Biological Sciences, Ecology, Nitrate, Pocillopora, Transgenerational effects, Gene expression, Symbiodiniaceae, Bacteria, Earth Sciences, Marine Biology & Hydrobiology, Biological sciences, Earth sciences, Environmental sciences

Published

2022

35. Transgenerational metabolomic fingerprints in mice ancestrally exposed to the obesogen TBT

Author

Chamorro-García, Raquel, Poupin, Nathalie, Tremblay-Franco, Marie, Canlet, Cécile, Egusquiza, Riann, Gautier, Roselyne, Jouanin, Isabelle, Shoucri, Bassem M, Blumberg, Bruce, and Zalko, Daniel

Subjects

Medical Biochemistry and Metabolomics, Analytical Chemistry, Biomedical and Clinical Sciences, Chemical Sciences, Obesity, Liver Disease, Digestive Diseases, Prevention, Nutrition, Pediatric Research Initiative, Estrogen, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Metabolic and endocrine, Animals, Endocrine Disruptors, Female, Male, Metabolomics, Mice, Pregnancy, Trialkyltin Compounds, Tributyltin, Endocrine disruptor, Metabolic disruptor, Transgenerational effects, Obesogen, Environmental Sciences

Abstract

BackgroundEndocrine disrupting chemicals (EDCs) contribute to the etiology of metabolic disorders such as obesity, insulin resistance and hepatic dysfunction. Concern is growing about the consequences of perinatal EDC exposure on disease predisposition later in life. Metabolomics are promising approaches for studying long-term consequences of early life EDC exposure. These approaches allow for the identification and characterization of biomarkers of direct or ancestral exposures that could be diagnostic for individual susceptibility to disease and help to understand mechanisms through which EDCs act.ObjectivesWe sought to identify metabolomic fingerprints in mice ancestrally exposed to the model obesogen tributyltin (TBT), to assess whether metabolomics could discriminate potential trans-generational susceptibility to obesity and recognize metabolic pathways modulated by ancestral TBT exposure.MethodsWe used non-targeted 1H NMR metabolomic analyses of plasma and liver samples collected from male and female mice ancestrally exposed to TBT in two independent transgenerational experiments in which F3 and F4 males became obese when challenged with increased dietary fat.ResultsMetabolomics confirmed transgenerational obesogenic effects of environmentally relevant doses of TBT in F3 and F4 males, in two independent studies. Although females never became obese, their specific metabolomic fingerprint evidenced distinct transgenerational effects of TBT in female mice consistent with impaired capacity for liver biotransformation.DiscussionThis study is the first application of metabolomics to unveil the transgenerational effects of EDC exposure. Very early, significant changes in the plasma metabolome were observed in animals ancestrally exposed to TBT. These changes preceded the onset of obesogenic effects elicited by increased dietary fat in the TBT groups, and which ultimately resulted in significant changes in the liver metabolome. Development of metabolomic fingerprints could facilitate the identification of individuals carrying the signature of ancestral obesogen exposure that might increase their susceptibility to other risk factor such as increased dietary fat.

Published

2021

36. Lead exposure induced transgenerational developmental neurotoxicity by altering genome methylation in Drosophila melanogaster

Author

Chunyan Wu, Jie Wang, Xiaoxiao Luo, Binquan Wang, Xing Zhang, Yuanyuan Song, Ke Zhang, Xiaoyan Zhang, and Mingkuan Sun

Subjects

Pb neurotoxicity, DNA methylation, Transgenerational effects, Drosophila, MeDIP-seq, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Heavy metal toxicity is a significant global health concern, with particular attention given to lead (Pb) exposure due to its adverse effects on cognitive development, especially in children exposed to low concentrations. While Pb neurotoxicity has been extensively studied, the analysis and molecular mechanisms underlying the transgenerational effects of Pb exposure-induced neurotoxicity remain poorly understood. In this study, we utilized Drosophila, a powerful developmental animal model, to investigate this phenomenon. Our findings demonstrated that Pb exposure during the developmental stage had a profound effect on the neurodevelopment of F0 fruit flies. Specifically, we observed a loss of correlation between the terminal motor area and muscle fiber area, along with an increased frequency of the β-lobe midline crossing phenotype in mushroom bodies. Western blot analysis indicated altered expression levels of synaptic vesicle proteins, with a decrease in Synapsin (SYN) and an increase in Bruchpilot (BRP) expression, suggesting changes in synaptic vesicle release sites. These findings were corroborated by electrophysiological data, showing an increase in the amplitude of evoked excitatory junctional potential (EJP) and an increase in the frequency of spontaneous excitatory junctional potential (mEJP) following Pb exposure. Importantly, our results further confirmed that the developmental neurotoxicity resulting from grandparental Pb exposure exhibited a transgenerational effect. The F3 offspring displayed neurodevelopmental defects, synaptic function abnormalities, and repetitive behavior despite lacking direct Pb exposure. Our MeDIP-seq analysis further revealed significant alterations in DNA methylation levels in several neurodevelopmental associated genes (eagle, happyhour, neuroglian, bazooka, and spinophilin) in the F3 offspring exposed to Pb. These findings suggest that DNA methylation modifications may underlie the inheritance of acquired phenotypic traits resulting from environmental Pb exposure.

Published

2024

37. Early life corticosteroid overexposure: Epigenetic and fetal origins of adult diseases.

Author

Briceño‐Pérez, Carlos, Briceño‐Sanabria, Liliana, Briceño‐Sanabria, Carlos, and Reyna‐Villasmil, Eduardo

Subjects

*EPIGENETICS, *FETAL development, *CORTICOSTEROIDS, *HYPOTHALAMIC-pituitary-adrenal axis, *GENE expression, *PLACENTA praevia

Abstract

The relationship between events occurring during intrauterine development and later‐life predisposition to long‐term disease, has been described. The fetus responds to excess intrauterine exposure to high levels of corticosteroids, modifying their physiological development and stopping their growth. Fetal exposure to elevated levels of either endogenous (alterations in fetal hypothalamic‐pituitary‐adrenal axis) or synthetic corticosteroids, is one model of early‐life adversity; to developing adult disease. At the molecular level, there are transcriptional changes in metabolic and growth pathways. Epigenetic mechanisms participate in transgenerational inheritance, not genomic. Exposures that change 11β‐hydroxysteroid dehydrogenase type 2 enzyme methylation status in the placenta can result in transcriptional repression of the gene, causing the fetus to be exposed to higher levels of cortisol. More precise diagnosis and management of antenatal corticosteroids for preterm birth, would potentially decrease the risk of long‐term adverse outcomes. More studies are needed to understand the potential roles of factors to alter fetal corticosteroid exposure. Long‐term infant follow‐up is required to determine whether methylation changes in placenta may represent useful biomarkers of later disease risk. This review, summarize recent advances in the programming of fetal effects of corticosteroid exposure, the role of corticosteroids in epigenetic gene regulation of placental 11β‐hydroxysteroid dehydrogenase type 2 enzyme expression and transgenerational effects. Synopsis: Fetal exposure to elevated levels of either endogenous or synthetic corticosteroids contributes substantially to developing adult disease. Recommendations and guidelines for practice are presented. [ABSTRACT FROM AUTHOR]

Published

2024

38. Wildfire and cattle legacies on gradients of soil nitrogen underlie patterns of annual brome invasion.

Author

St. Clair, Elijah A., St. Clair, S. Isaac, St. Clair, Bryn E., St. Clair, Seth B., St. Clair, Grace E., St. Clair, Daniel A., Lowry, Samuel J., and St. Clair, Samuel B.

Subjects

*NITROGEN in soils, *CATTLE, *WILDFIRES, *RANDOM measures, *SEED industry, *CHEATGRASS brome

Abstract

Human activities are increasing wildfires and livestock activity in arid ecosystems with potential implications for the spread of invasive grasses. The objective of this study was to test whether fire history and cattle activity alter soil resource gradients, thereby affecting patterns of Bromus rubens L. (red brome) invasion. Six paired burned and unburned transect lines (1-km long) were established in the northeast Mojave Desert along the boundaries of four independent wildfire scars. At 100-m transect increment points, we measured the distance to the two nearest cowpats, and two random points and measured the density, height, biomass, and seed production of red brome, soil moisture and inorganic nitrogen (N). Cattle activity was 29% greater along burned transects compared to unburned transects (P < 0.05). Red brome height, density, and seed production were 11–34% greater along burned transects than unburned transects (P < 0.05). Red brome height, biomass, density, and seed production were twofold to tenfold greater next to cowpats compared to random points (P < 0.05). Soils along burned transects and beneath cowpats had greater soil inorganic N (P < 0.05), which was positively correlated with red brome density, height, biomass, and seed production (R2 = 0.60–0.85, P < 0.0001). Transgenerational effects were evident as seeds from red brome next to cowpats had 27% higher germination than seeds collected from random points. Positive responses of red brome to increased inorganic N related to fire and cattle activity may contribute fine fuel infill that drives invasive grass-fire cycles in deserts. [ABSTRACT FROM AUTHOR]

Published

2023

39. Environmental and Genetic Traffic in the Journey from Sperm to Offspring.

Author

Sengupta, Pallav, Dutta, Sulagna, Liew, Fong Fong, Dhawan, Vidhu, Das, Biprojit, Mottola, Filomena, Slama, Petr, Rocco, Lucia, and Roychoudhury, Shubhadeep

Subjects

*SPERMATOZOA, *REPRODUCTIVE health, *GENETICS, *SEMEN analysis, *FERTILITY, *EPIGENETICS

Abstract

Recent advancements in the understanding of how sperm develop into offspring have shown complex interactions between environmental influences and genetic factors. The past decade, marked by a research surge, has not only highlighted the profound impact of paternal contributions on fertility and reproductive outcomes but also revolutionized our comprehension by unveiling how parental factors sculpt traits in successive generations through mechanisms that extend beyond traditional inheritance patterns. Studies have shown that offspring are more susceptible to environmental factors, especially during critical phases of growth. While these factors are broadly detrimental to health, their effects are especially acute during these periods. Moving beyond the immutable nature of the genome, the epigenetic profile of cells emerges as a dynamic architecture. This flexibility renders it susceptible to environmental disruptions. The primary objective of this review is to shed light on the diverse processes through which environmental agents affect male reproductive capacity. Additionally, it explores the consequences of paternal environmental interactions, demonstrating how interactions can reverberate in the offspring. It encompasses direct genetic changes as well as a broad spectrum of epigenetic adaptations. By consolidating current empirically supported research, it offers an exhaustive perspective on the interwoven trajectories of the environment, genetics, and epigenetics in the elaborate transition from sperm to offspring. [ABSTRACT FROM AUTHOR]

Published

2023

40. Genetics and Epigenetics of FASD

Author

Baker, Jessica A., Yu, Shuliang, Scott, Matthew T., Hamre, Kristin M., Eisenstat, David D., editor, Goldowitz, Dan, editor, Oberlander, Tim F., editor, and Yager, Jerome Y., editor

Published

2023

41. Transgenerational effects on body size and survival in Brook charr (Salvelinus fontinalis)

Author

Carolyne Houle, Philippine Gossieaux, Louis Bernatchez, Céline Audet, and Dany Garant

Subjects

morphological traits, parental effects, salmonids, survival, transgenerational effects, Evolution, QH359-425

Abstract

Abstract Higher temperatures are now observed in several ecosystems and act as new selective agents that shape traits and fitness of individuals. Transgenerational effects may be important in modulating adaptation of future generations and buffering negative impacts of temperature changes. The potential for these effects may be important in freshwater fish species, as temperature is a key abiotic component of their environment. Yet, still, relatively few studies have assessed the presence and importance of transgenerational effects under natural conditions. The purpose of this study was to test how parental thermal conditions influenced offspring growth and survival following stocking in Brook charr (Salvelinus fontinalis). To do so, part of the breeders were exposed to a “cold” treatment while others were exposed to a “warm” treatment during the final steps of gonad maturation (constant 2°C difference between treatments along the seasonal temperature decrease). The impact on offspring of a selection treatment targeting production traits of interest (absence of sexual maturation at 1+, combined with increased growth) in breeders was also evaluated. After 7–8 months of growth in captivity, offspring were stocked in natural lakes. Their growth and survival were assessed about a year later. Offspring from “cold” breeders showed lower survival than those from “warm” breeders and the selection treatment had no effect on survival. However, the selection treatment was linked to lower Fulton's condition index, which, in turn, was positively correlated to survival in lakes. This study highlights the importance of working in ecological/industrial context to fully assess the different impacts of transgenerational effects on traits and survival. Our results also have important implications for stocking practices used to support the sport fishing industry.

Published

2023

42. The invisible Threat: Assessing the reproductive and transgenerational impacts of micro- and nanoplastics on fish

Author

Jia Yi, Yilei Ma, Jing Ruan, Si You, Jiahui Ma, Haiyang Yu, Jing Zhao, Kun Zhang, Qinsi Yang, Libo Jin, Guoming Zeng, and Da Sun

Subjects

Microplastics, Nanoplastics, Reproductive toxicity, Transgenerational effects, Parental transfer, Environmental sciences, GE1-350

Abstract

Micro- and nanoplastics (MNPs), emerging as pervasive environmental pollutants, present multifaceted threats to diverse ecosystems. This review critically examines the ability of MNPs to traverse biological barriers in fish, leading to their accumulation in gonadal tissues and subsequent reproductive toxicity. A focal concern is the potential transgenerational harm, where offspring not directly exposed to MNPs exhibit toxic effects. Characterized by extensive specific surface areas and marked surface hydrophobicity, MNPs readily adsorb and concentrate other environmental contaminants, potentially intensifying reproductive and transgenerational toxicity. This comprehensive analysis aims to provide profound insights into the repercussions of MNPs on fish reproductive health and progeny, highlighting the intricate interplay between MNPs and other pollutants. We delve into the mechanisms of MNPs-induced reproductive toxicity, including gonadal histopathologic alterations, oxidative stress, and disruptions in the hypothalamic-pituitary–gonadal axis. The review also underscores the urgency for future research to explore the size-specific toxic dynamics of MNPs and the long-term implications of chronic exposure. Understanding these aspects is crucial for assessing the ecological risks posed by MNPs and formulating strategies to safeguard aquatic life.

Published

2024

43. Epigenetic transgenerational effects of PM2.5 collected from southern Taiwan on sperm functions and DNA methylation in mouse offspring

Author

Chia-Wei Lee, Kuan-Ling Chen, Chung-Shin Yuan, Ching-Shu Lai, Xiang-Yi Tsai, Ping-Hsun Wu, and Ping-Chi Hsu

Subjects

Water-soluble PM2.5, Water-insoluble PM2.5, Sperm function, Epigenetics, Sperm DNA methylation, Transgenerational effects, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

During respiration, particulate matter with a diameter of 2.5 µm or less (PM2.5) suspended in the atmosphere enters the terminal alveoli and blood. PM2.5 particles can attach to toxic substances, resulting in health problems. Limited information is available regarding the effects of prenatal exposure to water-soluble PM2.5 (WS-PM2.5) and water-insoluble PM2.5 (WI-PM2.5) on male reproduction. In addition, whether exposure to these particles has transgenerational effects remains unknown. We investigated whether prenatal exposure to WS-PM2.5 and WI-PM2.5 disrupts sperm function in generations F1, F2, and F3 of male mice. Pregnant BALB/c mice were treated using intratracheal instillation on gestation days 7, 11, and 15 with 10 mg of a water extract or insoluble PM2.5. On postnatal day 105, epididymal sperm count, motility, morphology, mitochondrial membrane potential (MMP), reactive oxygen species (ROS) production, the sperm chromatin DNA fragmentation index (DFI), and testicular DNA methyltransferase (Dnmt) levels were evaluated in all generations. Whole-genome bisulfite sequencing was used to analyze the DNA methylation status of generation F3. According to the results, exposure to WS-PM2.5 affected sperm morphology, ROS production, and mean DFI in generation F1; ROS production and mean DFI in generation F2; and sperm morphology and MMP in generation F3. Similarly, exposure to WI-PM2.5 affected sperm morphology, ROS production, mean DFI, %DFI, and Dnmt1 expression in generation F1; sperm morphology, MMP, and ROS production in generation F2; and sperm morphology, ROS, and %DFI in generation F3. Two hypermethylated genes, PRR16 and TJP2, were observed in the WS-PM2.5 and WI-PM2.5 groups, two hypomethylated genes, NFATC1 and APOA5, were observed in the WS-PM2.5 group, and two hypomethylated genes, ZFP945 and GSE1, were observed in the WI-PM2.5 group. Hence, prenatal exposure to PM2.5 resulted in transgenerational epigenetic effects, which may explain certain phenotypic changes in male reproduction.

Published

2024

44. The role of DNA methylation on gene expression in the vertebrae of ancestrally benzo[a]pyrene exposed F1 and F3 male medaka

Author

Teng Wan, Jiezhang Mo, Doris Wai-Ting Au, Xian Qin, Nathan Yi-Kan Tam, Richard Yuen-Chong Kong, and Frauke Seemann

Subjects

benzo[a]pyrene, dna methylation, transgenerational effects, Genetics, QH426-470

Abstract

Benzo[a]pyrene (BaP) is ubiquitously present in the aquatic environment and has been identified as a bone toxicant. Previous studies have demonstrated that ancestral BaP exposure can cause transgenerational bone deformities in fish. Transgenerational effects are thought to be caused by heritable epigenetic changes, such as DNA methylation, histone modification, and non-coding RNAs. To investigate the role of DNA methylation in BaP-induced transgenerational skeletal deformities and the related transcriptomic changes in deformed vertebrae, we examined the vertebrae of male F1 and F3 medaka fish using high-throughput RNA sequencing (RNA-seq) and whole-genome bisulphite sequencing (WGBS). The histological results revealed that osteoblast numbers at the vertebral bone decreased in the BaP-derived F1 and F3 adult males in comparison with the control group. Differentially methylated genes (DMGs) associated with osteoblastogenesis (F1 and F3), chondrogenesis (F1 and F3), and osteoclastogenesis (F3) were identified. However, RNA-seq data did not support the role of DNA methylation in the regulation of genes involved in skeletogenesis since there was very little correlation between the level of differential methylation and gene expression profiles related to skeletogenesis. Although DNA methylation plays a major role in the epigenetic regulation of gene expression, the dysregulation of vertebral gene expression patterns observed in the current study is most likely to be mediated by histone modification and miRNAs. Notably, RNA-seq and WGBS data indicated that genes related to nervous system development are more sensitive to ancestral BaP exposure, indicating a more complex transgenerational phenotype in response to ancestral BaP exposure.

Published

2023

45. Life cycle exposure to 2-phenylbenzimidazole-5-sulfonic acid disrupts reproductive endocrine system and induces transgenerational adverse effects in zebrafish

Author

Junyan Tao, Qinyuan Yang, Xiaowei Sun, Linxuan Tian, Yuanzhi Deng, Yumei Wang, Weiwei Wang, and Xiaoming Fan

Subjects

2-phenylbenzimidazole-5-sulfonic acid, life cycle exposure, reproductive endocrine disruption, sex hormones, HPGL axis, transgenerational effects, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Global attention has been focused on organic UV filters due to their ubiquity and potential damage to aquatic environment, yet the effects of their life cycle exposure on fish reproduction remain unknown. In the present study, the influence of 2-phenylbenzimidazole-5-sulfonic acid (PBSA) exposure on the reproductive endocrine system of zebrafish was examined, from 6 hours post fertilization (hpf) until 150 days, at levels that near-environmentally relevant (0 to 20 μg/L). Our results showed that exposure to PBSA at 20 μg/L caused a slight decrease in the Gonadosomatic Index (GSI) of female zebrafish in the F0 generation. Furthermore, this exposure had a negatively effect on reproduction, accompanied by delayed oocyte maturation, reduced cumulative egg production and decreased fertilization rate. Additionally, offspring embryos displayed reduced egg diameter at 0.75 hpf, delayed cumulative hatching rate at 60 hpf, and increased deformities rate at 72 hpf, indicating an adverse transgenerational effect. Moreover, PBSA exposure was associated with decreased plasma levels of sex hormones of 17β-estradiol (E2) and 11-ketotestosterone (11-KT), as well as altered the transcriptional profiles of certain genes in the HPG (hypothalamic–pituitary–gonadal) and liver axis. Molecular docking (MD) simulations revealed that specific amino acid residues of PBSA interact with zebrafish estrogen receptors, confirming its xenoestrogenic properties. Therefore, exposure to PBSA during its life cycle can disturb fish reproduction through endocrine disruption, thus necessitating strict environmental regulations for the disposal of UV filters to protect ecological and public health.

Published

2023

46. Virulence and transgenerational effects of Metarhizium anisopliae on Oxycarenus hyalinipennis.

Author

Shaukat, Rana Farjad, Freed, Shoaib, Ahmed, Rizwan, Raza, Mehtab, and Naeem, Afifa

Subjects

METARHIZIUM anisopliae, ENTOMOPATHOGENIC fungi, PEST control, INSECT pests, EGGS, LIFE tables, COTTON, SEX (Biology)

Abstract

BACKGROUND: Insect pests cause major yield losses to Gossypium hirsutum, often requiring the use of chemical insecticides. To avoid human health, environmental and resistance problems, entomopathogenic fungi (EPF) can be used to control insect pests. In our study, the pathogenicity of Metarhizium anisopliae to Oxycarenus hyalinipennis was determined by the immersion method. Furthermore, the sublethal and lethal effects of M. anisopliae on the biological parameters of O. hyalinipennis were investigated by age‐stage, two‐sex life table software. RESULTS: M. anisopliae infection was lethal to the fourth instar of O. hyalinipennis with LC50 values of 8.84 × 104 spores mL−1. The sublethal and lethal concentrations of M. anisopliae not only affected the parental generation (F0) but also the demographic parameters of the offspring of the filial generation (F1). Transgenerational results of F1 infected with M. anisopliae showed decreased net reproductive rate (R0), intrinsic rate of increase (r) and mean generation time (T) compared to those of the control group. The larval developmental duration significantly decreased to 15.52 and 19.02 days in the LC50 and LC20 groups, respectively, compared to 21.08 days in the control group. There was a noteworthy decline in mean fecundity in the LC50 and LC20 groups, i.e., 16.0 and 20.96 eggs, compared to 33.26 eggs in the control group. Adult longevity was likewise considerably reduced in the LC50 and LC20 treated groups. CONCLUSION: The study showed that M. anisopliae can have an enduring impact on the biological parameters of O. hyalinipennis, which may enhance its use in eco‐friendly management programs. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2023

47. Transgenerational Effects of Prenatal Stress on Memory and Expression of the Insulin-Like Growth Factor 2 Gene in the Offspring Brain.

Author

Ordyan, N. E., Shigalugova, E. D., Malysheva, O. V., Pivina, S. G., Akulova, V. K., and Kholova, G. I.

Subjects

*SOMATOMEDIN A, *GENE expression, *FEMALES, *MEMORY disorders, *CEREBRAL cortex, *MEMORY

Abstract

Prenatal maternal stress disrupts offspring behavior and cognitive abilities not only in the first but also in subsequent generations. Various stress factors that affect fathers before conception can also exert a similar transgenerational effect on the offspring phenotype. The aim of the study was to reveal the transgenerational effect of prenatal stress on female Wistar rats during gestational days 15–19 on memory and insulin-like growth factor 2 (Igf2) gene expression in the brain of male and female offspring, as well as the effect of additional stress exposure within the stress–restress paradigm in prenatally stressed male rats prior to mating with intact females on memory and Igf2 expression in the brain of their offspring of both sexes. We demonstrated that prenatally stressed males and their F1 male descendants showed improved memory in the passive avoidance test and increased Igf2 expression in the hippocampus and cerebral cortex. F1 female descendants of prenatally stressed males, on the contrary, showed a decrease both in the duration of memory retention and in hippocampal and neocortical Igf2 expression. Additional stress exposure of prenatally stressed males prior to mating with intact females worsened memory and decreased the duration of its retention, as well as reduced Igf2 expression in the brain of the offspring of both sexes. We concluded that the transgenerational effects of prenatal stress on memory and Igf2 brain expression depend on the sex of the offspring, while prenatal stress per se contributes to memory impairment and a decrease in Igf2 expression in the offspring brain provided that such males were additionally stressed prior to mating. [ABSTRACT FROM AUTHOR]

Published

2023

48. Metformin in Gestational Diabetes Mellitus: To Use or Not to Use, That Is the Question.

Author

Tocci, Vera, Mirabelli, Maria, Salatino, Alessandro, Sicilia, Luciana, Giuliano, Stefania, Brunetti, Francesco S., Chiefari, Eusebio, De Sarro, Giovambattista, Foti, Daniela P., and Brunetti, Antonio

Subjects

*METFORMIN, *GESTATIONAL diabetes, *DRUG therapy, *INSULIN therapy, *INSULIN resistance

Abstract

In recent years, there has been a dramatic increase in the number of pregnancies complicated by gestational diabetes mellitus (GDM). GDM occurs when maternal insulin resistance develops and/or progresses during gestation, and it is not compensated by a rise in maternal insulin secretion. If not properly managed, this condition can cause serious short-term and long-term problems for both mother and child. Lifestyle changes are the first line of treatment for GDM, but if ineffective, insulin injections are the recommended pharmacological treatment choice. Some guidance authorities and scientific societies have proposed the use of metformin as an alternative pharmacological option for treating GDM, but there is not yet a unanimous consensus on this. Although the use of metformin appears to be safe for the mother, concerns remain about its long-term metabolic effects on the child that is exposed in utero to the drug, given that metformin, contrary to insulin, crosses the placenta. This review article describes the existing lines of evidence about the use of metformin in pregnancies complicated by GDM, in order to clarify its potential benefits and limits, and to help clinicians make decisions about who could benefit most from this drug treatment. [ABSTRACT FROM AUTHOR]

Published

2023

49. Variation in seed properties and germination capabilities among populations of the invasive weed Parthenium hysterophorus L. (Asteraceae).

Author

Malka, Sahar, Eizenberg, Hanan, and Matzrafi, Maor

Subjects

PARTHENIUM hysterophorus, NOXIOUS weeds, GERMINATION, SEED size, WEEDS, SOIL moisture

Abstract

Introduction: Parthenium hysterophorus (Asteraceae) is an invasive weed species that has invaded over 50 countries worldwide. It was first detected in 1980 at Tirat-Zvi, in eastern-northern Israel. In recent years, there has been an increasing concern over the spread of this weed in agricultural and nonagricultural habitats across the country. However, very little is known about the biology of P. hysterophorus and its variation among populations. Methods: Seeds collected from five locations across Israel were germinated and plants were grown in pollen-proof cages under uniform conditions to produce the progeny populations. Spatial parameters, weight and germination under different environmental conditions were recorded for field and progeny populations. Results: Seeds originating from field populations were significantly smaller and lighter than seeds of the progeny populations. Germination occurred in the range of 10°C to 30°C (To ranges from 19°C to 22.3°C, Tb ranged from 9°C to 15° C, Tc ranged from 24 ℃ to 30.5°C), depending on generation and population. A water potential-based model was developed to estimate germination under different soil water content using specific parameters (b - slope, d - upper limit, e - infliction point). The model suggests a correlation between germination and water potential. Indeed, reduced germination was recorded for the lower water potentials especially for the progeny populations. Spatial parameters, weight and germination under different environmental conditions were recorded for field and progeny populations. Discussion: We identified differences in seed size and weight, germination under different temperatures, and osmotic potential among P. hysterophorus Israeli populations. Differences across generations may arise due to the transgenerational effects. Our results, may shed light on the germination abilities of P. hysterophorus populations and provide vital insight into understanding the invasive capabilities of this highly noxious weed. [ABSTRACT FROM AUTHOR]

Published

2023

50. Stress memory in two generations of Plantago major from radioactive and chemical contaminated areas after the cessation of exposure.

Author

Shimalina, Nadezhda S., Pozolotina, Vera N., and Orekhova, Natalya A.

Subjects

*PLANTAGO, *IONIZING radiation, *RADIOACTIVE contamination, *SEED viability, *POLLUTANTS, *IMMOBILIZATION stress

Abstract

The differences in viability, root length, and pro/antioxidant features of Plantago major seedlings identified in seed progeny formed in areas of radioactive and chemical contamination can persist in subsequent generations after the elimination of the stress. The seed mixtures of F1 generation were collected from P. major natural populations (P plants) growing for a long time in the East Ural Radioactive Trace, the Karabash Copper Smelter zone, and background area. The seeds of F2 generation were obtained from F1 generation plants grown on experimental plots with 'clean' agricultural background; F3 generation was grown from F2 generation on the same plots. The viability of seed progeny was estimated by survival rate and root length. Pro/antioxidant features were determined spectrophotometrically by malondialdehyde content, superoxide dismutase and catalase activities, and total content of low molecular weight antioxidants in seedlings. The hypothesis about the persistence of effects from chronic exposure to ionizing radiation and chemical contamination in the generations' sequence of P. major after the removal of stress was confirmed only partially. The data obtained indicated that changes in the prooxidant and antioxidant features of plants in response to low doses of ionizing radiation can persist for at least in two generations after the stress removal. In the case of long-term exposure to chemical contaminants, we observed the persistence of the effect in a succession of generations only on the morphological indicator of root length. [ABSTRACT FROM AUTHOR]

Published

2023