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The field of Developmental Origins of Health and Disease has primarily focused on maternal programming of offspring health. However, emerging evidence suggests that paternal factors, including the seminal microbiome, could potentially play important roles in shaping the developmental trajectory and long-term offspring health outcomes. Historically, the microbes present in the semen were regarded as inherently pathogenic agents. However, this dogma has recently been challenged by the discovery of a diverse commensal microbial community within the semen of healthy males. In addition, recent studies suggest that the transmission of semen-associated microbes into the female reproductive tract during mating has potentials to not only influence female fertility and embryo development but could also contribute to paternal programming in the offspring. In this review, we summarize the current knowledge on the seminal microbiota in both humans and animals followed by discussing their potential involvement in paternal programming of offspring health. We also propose and discuss potential mechanisms through which paternal influences are transmitted to offspring via the seminal microbiome. Overall, this review provides insights into the seminal microbiome-based paternal programing, which will expand our understanding of the potential paternal programming mechanisms which are currently focused primarily on the epigenetic modifications, oxidative stresses, and cytokines. This review explores the potential role of seminal microbiota in transferring paternal programming to offspring and proposes possible mechanisms of transmission, thus expanding the current knowledge of Developmental Origins of Health and Disease.

Parental care improves offspring quality and survival, thereby enhancing parental fitness. Yet, seemingly maladaptive parental behaviours such as directed aggression towards the offspring have been reported in a variety of species. While maternal aggression—defined as aggressive interactions from mothers to the offspring within the family context—may be a seemingly maladaptive behaviour, it could also be an adaptive strategy allowing optimal resource allocation for current and future reproduction in the face of evolutionary conflicts of interest. This study investigated associations between maternal aggression and altered offspring development in domestic canaries ( Serinus canaria ). Offspring exposed to maternal aggression showed reduced growth, while no differences in survival were observed. In addition, juvenile males, but not females, exposed to maternal aggression displayed increased threatening behaviours, highlighting the importance of considering long-term effects when interpreting the significance of aggressive parenting styles. Females that exhibited maternal aggression did not lay larger second clutches, as would be expected if aggression during the first reproductive event was directed at prioritising future reproduction. However, they laid larger and less variable clutches overall, suggesting that females that engaged in maternal aggression may be less flexible and more prone to high investment at egg laying.

Background Recent studies have demonstrated that prolonged sperm storage adversely affects offspring through epigenetics, yet its broader effects on other molecular levels such as transcription and proteomics in progeny have been rarely explored. Results We employed comprehensive multi-omics approaches to uncover storage-induced epigenetic changes in sperm and their effects on embryonic development and offspring health. Sperm from common carp ( Cyprinus carpio ) was stored in vitro in artificial seminal plasma for 14 days, and the impacts of storage on functional properties of sperm and progeny development were investigated. We combined DNA methylome, transcriptomic and proteomic data to elucidate the potential mechanisms by which sperm storage influences progeny development. Prolonged in vitro storage significantly reduced sperm motility and fertilising ability which coincided with changes in the DNA methylation pattern. Integrated analyses of the offspring DNA methylome, comparative transcriptomics and cardiac performance measurements revealed storage-induced alterations of genes associated with nervous system development, myocardial morphogenesis and cellular responses to stimuli. Proteomic analyses showed that in addition to visual perception and nervous system function, pathways of the immunity system were also enriched. Results provide strong evidence of the epigenetic inheritance of the offspring’s performances when short-term stored sperm was used for fertilisation. Conclusions Short-term sperm storage induces heritable molecular and phenotypic changes in offspring, raising concerns over the potential intergenerational consequences of assisted reproductive practices in aquaculture and possibly other vertebrates.

With approximately 131 million new genital tract infections occurring each year, Chlamydia is the most common sexually transmitted bacterial pathogen worldwide. Male and female infections occur at similar rates and both cause serious pathological sequelae. Despite this, the impact of chlamydial infection on male fertility has long been debated, and the effects of paternal chlamydial infection on offspring development are unknown. Using a male mouse chronic infection model, we show that chlamydial infection persists in the testes, adversely affecting the testicular environment. Infection increased leukocyte infiltration, disrupted the blood:testis barrier and reduced spermiogenic cell numbers and seminiferous tubule volume. Sperm from infected mice had decreased motility, increased abnormal morphology, decreased zona-binding capacity, and increased DNA damage. Serum anti-sperm antibodies were also increased. When both acutely and chronically infected male mice were bred with healthy female mice, 16.7% of pups displayed developmental abnormalities. Female offspring of chronically infected sires had smaller reproductive tracts than offspring of noninfected sires. The male pups of infected sires displayed delayed testicular development, with abnormalities in sperm vitality, motility, and sperm-oocyte binding evident at sexual maturity. These data suggest that chronic testicular Chlamydia infection can contribute to male infertility, which may have an intergenerational impact on sperm quality. Summary sentence Testicular C. muridarum infection results in tissue damage and poor sperm quality and gives rise to offspring with serious abnormalities and developmental delays.

Bumble bees are important pollinators for many temperate crops. Because of the growing demand for food from entomophilous crops, bumble bee colonies are commercially reared and placed in fields or greenhouses to guarantee sufficient pollination services. Besides, commercial colonies are increasingly used in laboratories for various bioassays under controlled conditions. For both usages, bumble bee colonies are commonly provided with sugar solution and honey bee-collected pollen pellets. However, the latter display several disadvantages since they may contain pollutants, pathogens, or toxic phytochemicals. Consequently, companies have developed pollen-free artificial diets to sustain colonies. Such diets are designed to boost worker health in the field, in complement of floral pollen collected by workers outside the colonies, but their suitability in ‘closed’ systems without access to floral pollen, such as in laboratory bioassays, is arguable. Here, we used microcolonies of the commercially important bumble bee Bombus terrestris L. (Hymenoptera: Apidae) to assess the suitability of five artificial pollen substitutes and three mixed diets. We also assessed the evaporation rate of the different diets as it could impact their suitability. At the end of the bioassays, microcolonies fed the artificial diets showed a reduced offspring development when compared to microcolonies fed natural pollen, which was partly offset by mixing these diets with natural pollen. By contrast, the artificial diets did not have deleterious effects on worker’s health. We discuss the potential nutritional and physical causes of artificial diets unsuitability for offspring development and encourage further research to accordingly establish appropriate pollen-free diets for bumble bee breeding.

Male and female parents often provide different type and amount of care to their offspring. Three major drivers have been proposed to explain parental sex roles: (1) differential gametic investment by males and females that precipitates into sex difference in care, (2) different intensity of sexual selection acting on males and females, and (3) biased social environment that facilitates the more common sex to provide more care. Here, we provide the most comprehensive assessment of these hypotheses using detailed parental care data from 792 bird species covering 126 families. We found no evidence for the gametic investment hypothesis: neither gamete sizes nor gamete production by males relative to females was related to sex difference in parental care. However, sexual selection correlated with parental sex roles, because the male share in care relative to female decreased with both extra-pair paternity and frequency of male polygamy. Parental sex roles were also related to social environment, because male parental care increased with male-biased adult sex ratios (ASRs). Taken together, our results are consistent with recent theories suggesting that gametic investment is not tied to parental sex roles, and highlight the importance of both sexual selection and ASR in influencing parental sex roles.

Maternal obesity programmes offspring development. We addressed maternal obesity effects induced by high-fat diets on maternal mammary gland (MG) structure and function and offspring brain, liver and fat outcomes. Mothers were fed control (C, n 5) or obesogenic (MO, n 5) diet from the time they were weaned through pregnancy beginning at 120 d, through lactation. At offspring postnatal day (PND) 20, milk leptin and nutrients were determined. At the end of lactation, maternal liver and MG fatty acid profile were measured. Desaturase (Δ6D and Δ5D) and elongase (ELOVL 5 and ELOVL 2) protein was measured by immunohistochemistry and Western blotting (WB) in the liver and WB in the MG. In mothers, liver, MG and milk fat content were higher in MO than in C. Liver arachidonic acid (AA) and EPA and MG EPA were lower in MO than in C. Liver desaturases were higher in MO. The MG was heavier in MO than in C, with decreased Δ5D expression in MO. Desaturases and elongases were immunolocalised in parenchymal cells of both groups. Milk yield, water, carbohydrate content, EPA and DHA were lower, whereas milk leptin and AA were higher in MO than in C. At PND 21 and 36, brain weight was less and fat depots were greater in MO offspring than in C. MO decreased male absolute brain weight but not female absolute brain weight. In conclusion, maternal obesity induced by an obesogenic diet negatively affects maternal liver and MG function with the production of significant changes in milk composition. Maternal obesity adversely affects offspring metabolism and development.

Postnatal depression (PND) affects approximately 10–20 % of new mothers in developed countries, with accumulating research documenting its adverse impact on not only the mother but also the wider family. Longitudinal studies assessing potential effects of maternal PND on offspring are mounting, and it is therefore timely to investigate the long-term psychological outcomes for adolescent offspring who were exposed to PND in infancy. PsycINFO, Medline, and Embase databases were searched with key terms for English language abstracts. Papers of 16 were identified that examined associations between PND and internalising problems, externalising problems, psychopathology, psychosocial, and cognitive outcomes of adolescent offspring. Impaired offspring cognitive outcomes reflected some of the most consistent findings. Conflicting evidence was found for an effect of PND on adolescent offspring internalising and externalising problems and overall psychopathology. Psychosocial outcomes in offspring adolescents indicated a specific adverse effect, although based on only two studies. Significant gender differences across outcomes were found. It was concluded that PND possibly increases risk vulnerability in the presence of recurrent, concurrent, and antenatal maternal depression but that these latter factors alone may be the stronger specific predictors. Limitations of the review are discussed as well as implications for future research and clinical practice.

The size and growth patterns of nestling birds are key determinants of their survival up to fledging and long‐term fitness. However, because traits such as feathers, skeleton and body mass can follow different developmental trajectories, our understanding of the impact of adverse weather on development requires insights into trait‐specific sensitive developmental windows. We analysed data from nestling Alpine swifts in Switzerland measured throughout growth up to the age of 50 days (i.e. fledging between 50 and 70 days), for wing length and body mass (2693 nestlings in 25 years) and sternum length (2447 nestlings in 22 years). We show that the sensitive developmental windows for wing and sternum length corresponded to the periods of trait‐specific peak growth, which span almost the whole developmental period for wings and the first half for the sternum. Adverse weather conditions during these periods slowed down growth and reduced size. Although nestling body mass at 50 days showed the greatest inter‐individual variation, this was explained by weather in the two days before measurement rather than during peak growth. Interestingly, the relationship between temperature and body mass was not linear, and the initial sharp increase in body mass associated with the increase in temperature was followed by a moderate drop on hot days, likely linked to heat stress. Nestlings experiencing adverse weather conditions during wing growth had lower survival rates up to fledging and fledged at later ages, presumably to compensate for slower wing growth. Overall, our results suggest that measures of feather growth and, to some extent, skeletal growth best capture the consequences of adverse weather conditions throughout the whole development of offspring, while body mass better reflects the short, instantaneous effects of weather conditions on their body reserves (i.e. energy depletion vs. storage in unfavourable vs. favourable conditions). Using data from more than 2000 Alpine swift nestlings with measurements spanning more than 20 years, we show that adverse weather conditions during the sensitive developmental windows for wing and sternum length result in slower growth, reduced size at 50 days (i.e. close to fledging), delayed fledging and lowered fledging success. Variation in nestling body mass at 50 days was explained by the weather in the two days before measurement rather than during peak growth. Overall, our results suggest that measures of feather growth and, to some extent, skeletal growth best capture the consequences of adverse weather conditions throughout the whole development of offspring, while body mass better reflects the short, instantaneous effects of weather conditions on their body reserves.

Background: We recently reported that extract prepared from the aerial part of Cichorium intybus L. (CE) possesses hepatoprotective, hypolipidemic, and hypoglycemic properties. This paper focuses on the effects of CE on the male rat reproductive system and the effects of this treatment on pregnancy and offspring development. Methods: The experimental male rats received 100 mg/kg bw/day, 500 mg/kg bw/day, and 1000 mg/kg bw/day of CE orally for 60 consecutive days. Rats that received tap water were used as controls. After treatment, we evaluated the effects of CE on the male reproductive system, fertility, and offspring development. Results: For CE-treated male rats, there was a significant increase in the (1) diameter of seminiferous tubules, (2) spermatogenic index, (3) number of total and motile spermatozoa, and (4) testosterone levels. Additionally, there was a decrease in the pre- and post-implantation death of the embryos in the CE-treated group. All pups born from CE-treated males demonstrated normal development. Conclusions: CE treatment significantly improved male reproductive functions. No adverse effects on pregnancy and offspring development were observed when males were treated with CE. Further clinical evaluation of CE should lead to the development of a safe and effective phytodrug for treating male infertility.