Differential mRNA expression in in vivo produced pre-implantation embryos of dairy heifers and mature cows

Decreasing fertility with increasing parity is considered to be a major constraint in the reproductive management of dairy cows. Even though pregnancy rates (PR) in mature cows have declined drastically in the last 50 years, it has remained constant in heifers. Early embryonic loss is a major cause for the loss of pregnancy in cows. Expression of developmentally important genes is vital for the function and survival of embryos. Hence, in this study, we compared the mRNA abundance of GLUT5, INFτ, HSP70, Na/K-ATPase, BAX, and BCL2 genes in the pre-implantation embryos of dairy heifers and mature cows. Heifers (n = 25) and cows (n = 20) were superovulated and artificially inseminated on the day of estrus. On day 7, the embryos were flushed and morphologically graded and RT-PCR was performed. HSP70 was expressed more in the grade I embryos in heifers than in cows, and in the grade I embryos of heifers than in grade II embryos of heifers. In pooled embryos (both grades I and II) of heifers and cows, expression for INFτ was greater in heifers than in cows. Grade I embryos had a higher expression of GLUT5 and Na/K-ATPase than the grade II embryos of cows. From this study, we conclude that there is differential expression of some developmentally important genes between embryos of heifers versus cows and between grades I and II embryos regardless of the embryo source. Future research will be necessary to elucidate any potential cause and effect between these genes and reduced PR observed in dairy cows. Mol. Reprod. Dev. 76: 1165–1172, 2009. © 2009 Wiley-Liss, Inc.     

Caffeine treatment of ovine cytoplasts regulates gene expression and foetal development of embryos produced by somatic cell nuclear transfer

Treatment of ovine oocytes during the latter stages of maturation in vitro with caffeine, a phosphodiesterase inhibitor, can increase the activities of maturation promoting factor and mitogen‐activated protein kinases at metaphase II. When used as cytoplast recipients for somatic cell nuclear transfer (NT), caffeine‐treated oocytes produced blastocysts with increased cell numbers. The objectives of these studies were to determine the effects of caffeine treatment on the expression profile of genes involved in early embryonic development and whether induction or maintenance of pregnancy was subsequently altered. No differences in overall expression patterns were observed between fertilised, caffeine‐treated fertilised and parthenogenetic embryos. In control NT embryos, altered levels of gene expression were found for OCT4, five genes regulated by OCT4 (H2AF.Z, NANOG, SOX2, FGF4 and INFT) and the heat‐shock response genes (HSP27 and HSP70.1). Levels of OCT4, H2AF.Z, NANOG, HSP 27 and FGF4 decreased, while those of INFT, HSP70.1 and SOX2 increased. In contrast, expression levels of these genes in caffeine‐treated NT embryos were similar to those in fertilised controls. Following transfer to surrogate recipients no differences were observed in the frequency of pregnancy; however, ewes receiving caffeine‐treated embryos maintained pregnancies for longer periods and delivered a live lamb. Taken together, these results suggest that treatment of ovine oocytes with caffeine can affect gene expression and improve developmental competence. Further studies on the mechanisms behind this alteration of gene expression are required and will aid in understanding the molecular mechanisms involved in nuclear reprogramming. Mol. Reprod. Dev. 77:876–887, 2010. © 2010 Wiley‐Liss, Inc.     

Quantitative control of gene expression by nucleocytoplasmic interactions in early mouse embryos: Consequence for reprogrammation by nuclear transfer

HSP 70.1 is one of the first genes to be expressed in the mouse embryo at the time of zygotic genome activation. We studied the regulation of this gene, using a transgene associating HSP 70.1 promoter and the firefly luciferase reporter gene, which allows the precise quantification of HSP 70.1 level of expression on individual embryos. In the present work, we show first that the level of HSP 70.1 expression at the two-cell stage is significantly higher (around two-fold) in embryos whose maternal cytoplasm is from C3H strain than with BALB/c strain. We verified that this difference is not an artefact of the use of transgenic embryos, of the time of first cleavage, or of in vitro culture. This regulation of HSP 70.1 level of expression is controlled by strain-specific maternal modifiers and is independent of replication, syngamy, and mitosis. Following nuclear transfer, reactivation of HSP 70.1 is also subjected to the same epigenetic influence. Only the strain-of-origin of the recipient cytoplast modulates the level of HSP 70.1 reprogrammation; the origin of donor nucleus is not significant, demonstrating the reversibility of this strain effect. These results point out the importance of the quality of recipient cytoplast in the intensity of gene reprogrammation, which may be of importance for nuclear transfer efficiency. © 1996 Wiley-Liss, Inc.     

Presence of cleaved caspase 3 in swine embryos of different developmental capacities produced by parthenogenetic activation

This study assessed the presence of cleaved caspase 3 (CC3) during the in vitro development of swine embryos produced by parthenogenetic activation (PA). Embryos with high and low capacity to develop into blastocysts and the exposure to a caspase inhibitor (z‐DEVD‐fmk) were used to investigate the effect of CC3 on embryo development. The blastocyst rate (64.3% vs. 16.4%) and the average number of nuclei per blastocyst (39.7 vs. 19.8) were significantly higher (P < 0.05) in early‐ (before 24 hr) compared to late‐ (between 24 and 48 hr) cleaving embryos after PA. CC3 was mainly detected in the cytoplasm of Day‐2 and ‐4 embryos, but was primarily localized in the nucleus of Day‐5 and ‐6 embryos. The fluorescence signal for CC3 relative to negative controls was significantly higher (P < 0.05) in early‐ (2.42‐fold) compared to late‐cleaving (1.39‐fold) embryos at Day 2 of culture. Treatment with z‐DEVD‐fmk during the first 24 or 48 hr of the culture period resulted in more embryos developing into blastocysts compared to the control group (55.8% and 55.1% vs. 37%, respectively; P < 0.05). This study confirmed the presence of CC3 in PA embryos from the two‐cell to the blastocyst stage, and revealed that CC3 cellular‐localization changed during embryo development. CC3 was shown to be more abundant in early‐cleaving and more developmentally competent embryos compared to late‐cleaving and less developmentally competent embryos. The inhibition of caspase activity at the beginning, but not at the end, of the culture period affected development of PA embryos. Mol. Reprod. Dev. 78:673–683, 2011. © 2011 Wiley‐Liss, Inc.     

Retinoic acid is a negative physiological regulator of N‐cadherin during early avian heart morphogenesis

The vitamin A‐deficient (VAD) early avian embryo has a grossly abnormal cardiovascular system that is rescued by treating the embryo with the vitamin A‐active form, retinoic acid (RA). Here we examine the role of N‐cadherin (N‐cad) in RA‐regulated early cardiovascular morphogenesis. N‐cad mRNA and protein are expressed globally in the presomite through HH14 normal and VAD quail embryos. The expression in VAD embryos prior to HH10 is significantly higher than that in normal embryos. Functional analyses of the N‐cad overproducing VAD embryos reveal N‐cad involvement in the RA‐regulated cardiovascular development and suggest that N‐cad expression may be mediated by Msx1. We provide evidence that in the early avian embryo, endogenous RA is a negative physiological regulator of N‐cad. We hypothesize that a critical endogenous level of N‐cad is needed for normal early cardiovascular morphogenesis to occur and that this level is ensured by stage‐specific, developmentally regulated RA signaling.     

Morphological development,cell number,and allocation of cells to trophectoderm and inner cell mass of in vitro fertilized and parthenogenetically developed buffalo embryos: The effect of IGF-I

The morphology and number of cells in the trophectoderm (TE) and inner cell mass (ICM) of buffalo blastocysts derived from in vitro fertilization and cultured in the presence or absence of insulin-like growth factor-I (IGF-I) were analyzed by differential fluorochrome staining technique. The total cell number (TCN), TE number, and ICM cell number were significantly higher in blastocysts developed in vitro in the presence of IGF-I as compared to blastocysts developed without IGF-I (P < 0.01). It was observed that the buffalo blastocyst took 5–9 days postfertilization to develop in vitro. In order to correlate the time required for blastocyst development and the allocation of cells to TE and ICM, blastocysts were designated as fast (developing on or before day 7) or slow (developing after day 7). The TCN, TE, and ICM cells of fast-developing blastocysts cultured in the presence of IGF-I were significantly higher than slow-developing blastocysts (P < 0.01). The blastocysts developed on day 6 had a mean total cell number 118.6 ± 21.4, which significantly decreased to 85.6 ± 17.4, 62.0 ± 14.5, and 17.0 ± 4.0 on days 7, 8, and 9, respectively (P < 0.05). Normal development of buffalo embryo showed that, on average, embryos reached compact morula stage at the earliest between days 4.5–5.5. Blastocysts developed, at the earliest, between days 5.0–6.0, and it took them, on average, 6.5 days to hatch from the zona pellucida. TCN, TE, and ICM increased three times from morula to blastocyst; however, the proportion of ICM to TCN remained the same, in both embryonic stages. TE approximately doubled in hatched blastocysts, as compared to unhatched blastocysts (P < 0.05). However, ICM cells were decreased. The time required for development of parthenogenetic blastocysts was observed to be greater as compared to in vitro fertilized (IVF) blastocysts. The total cell number of parthenogenetic blastocysts was 100.8 ± 11.3, including 59.2 ± 8.4 cells of TE and 42.1 ± 6.9 cells of ICM. © 1996 Wiley-Liss, Inc.     

Identification of suitable reference genes for quantitative real‐time PCR normalization in blotched snakehead Channa maculata

A systematic study was conducted to identify reliable reference genes for normalization of gene expression analysis in the blotched snakehead Channa maculata under normal physiological conditions. Firstly, the partial complementary (c)DNA of nine candidate reference genes (actb, tmem104, ube2l3, ef1α, churc1, tmem256, rpl13a, sep15 and g6pd) were cloned from C. maculata. The expression levels of these genes were then assessed in embryos of different developmental stages and various tissue types of adult fish using quantitative real‐time (qrt‐)PCR. RefFinder algorithm was used to evaluate the expression stability of these genes based on their cycle‐threshold (C_t) values in the qrt‐PCR analysis. Results showed that there was no single best reference gene for all stages of embryos and adult tissues tested. Furthermore, it was found that, among the nine candidate genes tested, actb and tmem104 were the most stable reference genes across adult tissue types, while sep15 and tmem256 were the most stable ones across developmental stages of embryos. These stable reference genes are recommended for normalization of gene expression analysis in C. maculata.     

Adaptor Aly and co‐adaptor Thoc5 function in the Tap‐p15‐mediated nuclear export of HSP70 mRNA

In metazoans, nuclear export of bulk mRNA is mediated by Tap‐p15, a conserved heterodimeric export receptor that cooperates with adaptor RNA‐binding proteins. In this article, we show that Thoc5, a subunit of the mammalian TREX complex, binds to a distinct surface on the middle (Ntf2‐like) domain of Tap. Notably, adaptor protein Aly and Thoc5 can simultaneously bind to non‐overlapping binding sites on Tap‐p15. In vivo, Thoc5 was not required for bulk mRNA export. However, nuclear export of HSP70 mRNA depends on both Thoc5 and Aly. Consistent with a function as a specific export adaptor, Thoc5 exhibits in vitro RNA‐binding activity and is associated with HSP70 mRNPs in vivo as a component of the stable THO complex. Thus, through the combinatorial use of an adaptor (e.g., Aly) and co‐adapter (e.g., Thoc5), Tap‐p15 could function as an export receptor for different classes of mRNAs.     

Alternative intrapopulation life‐history strategies and their trade‐offs in an African annual fish

In ephemeral habitats, the same genotypes cope with unpredictable environmental conditions, favouring the evolution of developmental plasticity and alternative life‐history strategies (ALHS). We tested the existence of intrapopulation ALHS in an annual killifish, Nothobranchius furzeri, inhabiting temporary pools. The pools are either primary (persisting throughout the whole rainy season) or secondary (refilled after desiccation of the initial pool), representing alternative niches. The unpredictable conditions led to the evolution of reproductive bet‐hedging with asynchronous embryonic development. We used a common garden experiment to test whether the duration of embryonic period is associated with post‐embryonic life‐history traits. Fish with rapid embryonic development (secondary pool strategy, high risk of desiccation) produced phenotypes with more rapid life‐history traits than fish with slow embryonic development (primary pool strategy). The fast fish were smaller at hatching but had larger yolk sac reserves. Their post‐hatching growth was more rapid, and they matured earlier. Further, fast fish grew to a smaller body size and died earlier than slow fish. No differences in fecundity, propensity to mate or physiological ageing were found, demonstrating a combination of plastic responses and constraints. Such developmentally related within‐population plasticity in life history is exceptional among vertebrates.     

Elevational trends in life histories: revising the pace‐of‐life framework

Life‐history traits in birds, such as lifespan, age at maturity, and rate of reproduction, vary across environments and in combinations imposed by trade‐offs and limitations of physiological mechanisms. A plethora of studies have described the diversity of traits and hypothesized selection pressures shaping components of the survival–reproduction trade‐off. Life‐history variation appears to fall along a slow–fast continuum, with slow pace characterized by higher investment in survival over reproduction and fast pace characterized by higher investment in reproduction over survival. The Pace‐of‐Life Syndrome (POLS) is a framework to describe the slow–fast axis of variation in life‐history traits and physiological traits. The POLS corresponds to latitudinal gradients, with tropical birds exhibiting a slow pace of life. We examined four possible ways that the traits of high‐elevation birds might correspond to the POLS continuum: (i) rapid pace, (ii) tropical slow pace, (iii) novel elevational pace, or (iv) constrained pace. Recent studies reveal that birds breeding at high elevations in temperate zones exhibit a combination of traits creating a unique elevational pace of life with a central trade‐off similar to a slow pace but physiological trade‐offs more similar to a fast pace. A paucity of studies prevents consideration of the possibility of a constrained pace of life. We propose extending the POLS framework to include trait variation of elevational clines to help to investigate complexity in global geographic patterns.     

Enantioselectivity in Developmental Toxicity of rac‐metalaxyl and R‐metalaxyl in Zebrafish (Danio rerio) Embryo

Enantioselectivity of chiral pesticides in environmental safety has attracted more and more attention. In this study, we evaluated the enantioselective toxicity of rac‐metalaxyl and R‐metalaxyl to zebrafish (Danio rerio) embryos through various malformations including pericardial edema, yolk sac edema, crooked body, and short tails. The results showed that there were significant differences in toxicity to zebrafish embryos caused by rac‐metalaxyl and R‐metalaxyl, and the LC₅₀s at 96 h are 416.41 (353.91, 499.29) mg · L^‐1 and 320.650 (279.80, 363.46) mg · L^‐1, respectively. In order to explore the possible mechanism of the development defects, the genes involved in the hypothalamic–pituitary–gonadal axis (vtg1, vtg2, cyp17, cyp19a, cyp19b) and hypothalamic–pituitary–thyroid axis (dio1, dio2, nis, tg, tpo) were quantified by quantitative real‐time polymerase chain reaction (qRT‐PCR). The results revealed that there were no significant differences in the expression of vtg1, vtg2, cyp17, cyp19a, and cyp19b after exposure to rac‐metalaxyl. However, the expression of vtg1, cyp19a, and cyp19b decreased significantly after exposure to R‐metalaxyl. And likewise, rac‐metalaxyl only caused the upregulation of dio2, while R‐metalaxyl suppressed the expression of dio1 and tpo and induced the expression of dio2 and nis. The change of gene expression may cause the enantioselectivity in developmental toxicity in zebrafish embryo. The data provided here will be helpful for us to comprehensively understand the potential ecological risks of the currently used chiral fungicides. Chirality 28:489–494, 2016. © 2016 Wiley Periodicals, Inc.