Your search keyword '"Hansen, Peter J."' showing total 21 results

1. Uterine influences on conceptus development in fertility-classified animals

Author

Moraes, Joao G. N., Behura, Susanta K., Geary, Thomas W., Hansen, Peter J., Neibergs, Holly L., and Spencer, Thomas E.

Published

2018

2. Importance of prostate androgen-regulated mucin-like protein 1 in development of the bovine blastocyst

Author

Zolini, Adriana M., Negrón-Pérez, Verónica M., and Hansen, Peter J.

Published

2019

3. Sex affects immunolabeling for histone 3 K27me3 in the trophectoderm of the bovine blastocyst but not labeling for histone 3 K18ac.

Author

Carvalheira, Luciano de R., Tríbulo, Paula, Borges, Álan M., and Hansen, Peter J.

Subjects

BLASTOCYST, SEXUAL dimorphism, MAMMALIAN embryos, DEVELOPMENTAL biology, CYTOLOGY, GENDER, HISTONES, SEX (Biology)

Abstract

The mammalian embryo displays sexual dimorphism in the preimplantation period. Moreover, competence of the embryo to develop is dependent on the sire from which the embryo is derived and can be modified by embryokines produced by the endometrium such as colony stimulating factor 2 (CSF2). The preimplantation period is characterized by large changes in epigenetic modifications of DNA and histones. It is possible, therefore, that effects of sex, sire, and embryo regulatory molecules are mediated by changes in epigenetic modifications. Here it was tested whether global levels of two histone modifications in the trophectoderm of the bovine blastocyst were affected by sex, sire, and CSF2. It was found that amounts of immunolabeled H3K27me3 were greater (P = 0.030) for male embryos than female embryos. Additionally, labeling for H3K27me3 and H3K18ac depended upon the bull from which embryos were derived. Although CSF2 reduced the proportion of embryos developing to the blastocyst, there was no effect of CSF2 on labeling for H3K27me3 or H3K18ac. Results indicate that the blastocyst trophoctoderm can be modified epigenetically by embryo sex and paternal inheritance through alterations in histone epigenetic marks. [ABSTRACT FROM AUTHOR]

Published

2019

4. Loci and pathways associated with uterine capacity for pregnancy and fertility in beef cattle.

Author

Neupane, Mahesh, Geary, Thomas W., Kiser, Jennifer N., Burns, Gregory W., Hansen, Peter J., Spencer, Thomas E., and Neibergs, Holly L.

Subjects

BEEF cattle reproduction, FERTILITY, UTERUS, PREGNANCY in animals, LOCUS (Genetics)

Abstract

Infertility and subfertility negatively impact the economics and reproductive performance of cattle. Of note, significant pregnancy loss occurs in cattle during the first month of pregnancy, yet little is known about the genetic loci influencing pregnancy success and loss in cattle. To identify quantitative trait loci (QTL) with large effects associated with early pregnancy loss, Angus crossbred heifers were classified based on day 28 pregnancy outcomes to serial embryo transfer. A genome wide association analysis (GWAA) was conducted comparing 30 high fertility heifers with 100% success in establishing pregnancy to 55 subfertile heifers with 25% or less success. A gene set enrichment analysis SNP (GSEA-SNP) was performed to identify gene sets and leading edge genes influencing pregnancy loss. The GWAA identified 22 QTL (p < 1 x 10−5), and GSEA-SNP identified 9 gene sets (normalized enrichment score > 3.0) with 253 leading edge genes. Network analysis identified TNF (tumor necrosis factor), estrogen, and TP53 (tumor protein 53) as the top of 671 upstream regulators (p < 0.001), whereas the SOX2 (SRY [sex determining region Y]-box 2) and OCT4 (octamer-binding transcription factor 4) complex was the top master regulator out of 773 master regulators associated with fertility (p < 0.001). Identification of QTL and genes in pathways that improve early pregnancy success provides critical information for genomic selection to increase fertility in cattle. The identified genes and regulators also provide insight into the complex biological mechanisms underlying pregnancy establishment in cattle. [ABSTRACT FROM AUTHOR]

Published

2017

5. Single-cell gene expression of the bovine blastocyst.

Author

Negrón-Pérez, Verónica M., Yanping Zhang, and Hansen, Peter J.

Subjects

GENE expression, BLASTOCYST, EPIBLAST, CATTLE

Abstract

The first two differentiation events in the embryo result in three cell types - epiblast, trophectoderm (TE) and hypoblast. The purpose here was to identify molecular markers for each cell type in the bovine and evaluate the differences in gene expression among individual cells of each lineage. The cDNA from 67 individual cells of dissociated blastocysts was used to determine transcript abundance for 93 genes implicated as cell lineage markers in other species or potentially involved in developmental processes. Clustering analysis indicated that the cells belonged to two major populations (clades A and B) with two subpopulations of clade A and four of clade B. Use of lineage-specific markers from other species indicated that the two subpopulations of clade A represented epiblast and hypoblast respectively while the four subpopulations of clade B were TE. Among the genes upregulated in epiblast were AJAP1, DNMT3A, FGF4, H2AFZ, KDM2B, NANOG, POU5F1, SAV1 and SLIT2. Genes overexpressed in hypoblast included ALPL, FGFR2, FN1, GATA6, GJA1, HDAC1, MBNL3, PDGFRA and SOX17, while genes overexpressed in all four TE populations were ACTA2, CDX2, CYP11A1, GATA2, GATA3, IFNT, KRT8, RAC1 and SFN. The subpopulations of TE varied among each other for multiple genes including the prototypical TE marker IFNT. New markers for each cell type in the bovine blastocyst were identified. Results also indicate heterogeneity in gene expression among TE cells. Further studies are needed to confirm whether subpopulations of TE cells represent different stages in the development of a committed TE phenotype. [ABSTRACT FROM AUTHOR]

Published

2017

6. Actions of activin A, connective tissue growth factor, hepatocyte growth factor and teratocarcinoma-derived growth factor 1 on the development of the bovine preimplantation embryo.

Author

Kannampuzha-Francis, Jasmine, Tribulo, Paula, and Hansen, Peter J.

Subjects

ACTIVIN, HEPATOCYTE growth factor, TERATOCARCINOMA, BOS, BLASTOCYST, GENE expression, REPRODUCTION, CATTLE

Abstract

The reproductive tract secretes bioactive molecules collectively known as embryokines that can regulate embryonic growth and development. In the present study we tested four growth factors expressed in the endometrium for their ability to modify the development of the bovine embryo to the blastocyst stage and alter the expression of genes found to be upregulated (bone morphogenetic protein 15 (BMP15) and keratin 8, type II (KRT8)) or downregulated (NADH dehydrogenase 1 (ND1) and S100 calcium binding protein A10 (S100A10)) in embryos competent to develop to term. Zygotes were treated at Day 5 with 0.01, 0.1 or 1.0nM growth factor. The highest concentration of activin A increased the percentage of putative zygotes that developed to the blastocyst stage. Connective tissue growth factor (CTGF) increased the number of cells in the inner cell mass (ICM), decreased the trophectoderm : ICM ratio and increased blastocyst expression of KRT8 and ND1. The lowest concentration of hepatocyte growth factor (HGF) reduced the percentage of putative zygotes becoming blastocysts. Teratocarcinoma-derived growth factor 1 increased total cell number at 0.01nM and expression of S100A10 at 1.0 nM, but otherwise had no effects. Results confirm the prodevelopmental actions of activin A and indicate that CTGF may also function as an embryokine by regulating the number of ICM cells in the blastocyst and altering gene expression. Low concentrations of HGF were inhibitory to development. [ABSTRACT FROM AUTHOR]

Published

2017

7. Characteristics of candidate genes associated with embryonic development in the cow: Evidence for a role for WBP1 in development to the blastocyst stage.

Author

Ortega, M. Sofia, Kurian, Justin J., McKenna, Robert, and Hansen, Peter J.

Subjects

EMBRYOLOGY, COW physiology, BLASTOCYST, CATTLE genetics, SINGLE nucleotide polymorphisms

Abstract

The goal was to gain understanding of how 12 genes containing SNP previously related to embryo competence to become a blastocyst (BRINP3, C1QB, HSPA1L, IRF9, MON1B, PARM1, PCCB, PMM2, SLC18A2, TBC1D24, TTLL3 and WBP1) participate in embryonic development. Gene expression was evaluated in matured oocytes and embryos. BRINP3 and C1QB were not detected at any stage. For most other genes, transcript abundance declined as the embryo developed to the blastocyst stage. Exceptions were for PARM1 and WBP1, where steady-state mRNA increased at the 9–16 cell stage. The SNP in WBP1 caused large differences in the predicted three-dimensional structure of the protein while the SNP in PARM1 caused smaller changes. The mutation in WBP1 causes an amino acid substitution located close to a P-P-X-Y motif involved in protein-protein interactions. Moreover, the observation that the reference allele varies between mammalian species indicates that the locus has not been conserved during mammalian evolution. Knockdown of mRNA for WBP1 decreased the percent of putative zygotes becoming blastocysts and reduced the number of trophectoderm cells and immunoreactive CDX2 in the resulting blastocysts. WBP1 is an important gene for embryonic development in the cow. Further research to identify how the SNP in WBP1 affects processes leading to differentiation of the embryo into TE and ICM lineages is warranted. [ABSTRACT FROM AUTHOR]

Published

2017

8. Sex differences in response of the bovine embryo to colony-stimulating factor 2.

Author

Siqueira, Luiz G. B. and Hansen, Peter J.

Subjects

SEX differences (Biology), COLONY-stimulating factors (Physiology), GENE expression, BLASTOCYST, SEXUAL dimorphism, POLYMERASE chain reaction

Abstract

We tested whether gene expression of the bovine morula is modified by CSF2 in a sex-dependent manner and if sex determines the effect of CSF2 on competence of embryos to become blastocysts. Embryos were produced in vitro using X- or Y-sorted semen and treated at Day 5 of culture with 10 ng/mL bovine CSF2 or control. In experiment 1, morulae were collected at Day 6 and biological replicates (n = 8) were evaluated for transcript abundance of 90 genes by RT-qPCR using the Fluidigm Delta Gene assay. Expression of more than one-third (33 of 90) of genes examined was affected by sex. The effect of CSF2 on gene expression was modified by sex (P < 0.05) for five genes (DDX3Y/DDX3X-like, NANOG, MYF6, POU5F1 and RIPK3) and tended (P < 0.10) to be modified by sex for five other genes (DAPK1, HOXA5, PPP2R3A, PTEN and TNFSF8). In experiment 2, embryos were treated at Day 5 with control or CSF2 and blastocysts were collected at Day 7 for immunolabeling to determine the number of inner cell mass (ICM) and trophectoderm (TE) cells. CSF2 increased the percent of putative zygotes that became blastocysts for females, but did not affect the development of males. There was no effect of CSF2 or interaction of CSF2 with sex on the total number of blastomeres in blastocysts or in the number of inner cell mass or trophectoderm cells. In conclusion, CSF2 exerted divergent responses on gene expression and development of female and male embryos. These results are evidence of sexually dimorphic responses of the preimplantation embryo to this embryokine. [ABSTRACT FROM AUTHOR]

Published

2016

9. Influence of Sex on Basal and Dickkopf-1 Regulated Gene Expression in the Bovine Morula.

Author

Denicol, Anna C., Leão, Beatriz C. S., Dobbs, Kyle B., Mingoti, Gisele Z., and Hansen, Peter J.

Subjects

MORULA (Genus), GENE expression, EMBRYOLOGY, MOLECULAR genetics, BLASTOCYST, RNA analysis

Abstract

Sex affects function of the developing mammalian embryo as early as the preimplantation period. There were two goals of the current objective. The first was to determine the degree and nature of differences in gene expression between female and male embryos in the cow at the morula stage of development. The second objective was to determine whether DKK1, a molecule known to alter differentiation of the blastocyst, would affect gene expression differently for female and male morulae. In Experiment 1, female and male embryos were treated with DKK1 at Day 5 after insemination. Morulae were harvested 24 h after treatment, pooled in groups of 20 for microarray analysis and RNA subjected to analysis of gene expression by microarray hybridization. There were 662 differentially expressed genes between females and males and 128 of these genes had a fold change ≥ 1.5 between the two sexes. Of the genes upregulated in females, 49.5% were located in the X chromosome. Functional analysis predicted that cell survival was greater in female embryos. Experiment 2 involved a similar design except that transcripts for 12 genes previously reported to be affected by sex, DKK1 or the interaction were quantified by quantitative polymerase chain reaction. Expression of all genes tested that were affected by sex in experiment 1 was affected in a similar manner in Experiment 2. In contrast, effects of DKK1 on gene expression were largely not repeatable in Experiment 2. The exception was for the Hippo signaling gene AMOT, which was inhibited by DKK1. In Experiment 3, embryos produced by fertilization with unsorted sperm were treated with DKK1 at Day 5 and abundance of transcripts for CDX2, GATA6, and NANOG determined at Days 5, 6 and 7 after insemination. There was no effect of DKK1 on expression of any of the three genes. In conclusion, female and male bovine embryos have a different pattern of gene expression as early as the morula stage, and this is due to a large extent to expression of genes in the X chromosomes in females. Differential gene expression between female and male embryos is likely the basis for increased resistance to cell death signals in female embryos and disparity in responses of female and male embryos to changes in the maternal environment. [ABSTRACT FROM AUTHOR]

Published

2015

10. Angelman syndrome imprinting center encodes a transcriptional promoter.

Author

Lewis, Michael W., Brant, Jason O., Kramer, Joseph M., Moss, James I., Yang, Thomas P., Hansen, Peter J., Stan Williams, R., and Resnick, James L.

Subjects

ANGELMAN syndrome, GENOMIC imprinting, PROMOTERS (Genetics), GENE expression, PRADER-Willi syndrome, ALLELES, OVUM, DNA methylation

Abstract

Clusters of imprinted genes are often controlled by an imprinting center that is necessary for allele-specific gene expression and to reprogram parent-of-origin information between generations. An imprinted domain at 15q11--q13 is responsible for both Angelman syndrome (AS) and Prader--Willi syndrome (PWS), two clinically distinct neurodevelopmental disorders. Angelman syndrome arises from the lack of maternal contribution from the locus, whereas Prader--Willi syndrome results from the absence of paternally expressed genes. In some rare cases of PWS and AS, small deletions may lead to incorrect parent-of-origin allele identity. DNA sequences common to these deletions define a bipartite imprinting center for the AS--PWS locus. The PWS--smallest region of deletion overlap (SRO) element of the imprinting center activates expression of genes from the paternal allele. The AS--SRO element generates maternal allele identity by epigenetically inactivating the PWS--SRO in oocytes so that paternal genes are silenced on the future maternal allele. Here we have investigated functional activities of the AS--SRO, the element necessary for maternal allele identity. We find that, in humans, the AS--SRO is an oocyte-specific promoter that generates transcripts that transit the PWS--SRO. Similar upstream promoters were detected in bovine oocytes. This result is consistent with a model in which imprinting centers become DNA methylated and acquire maternal allele identity in oocytes in response to transiting transcription. [ABSTRACT FROM AUTHOR]

Published

2015

11. Dynamics of DNA Methylation during Early Development of the Preimplantation Bovine Embryo.

Author

Dobbs, Kyle B., Rodriguez, Marlon, Sudano, Mateus J., Ortega, M. Sofia, and Hansen, Peter J.

Subjects

DNA methylation, PREIMPLANTATION genetic diagnosis, BOS, EMBRYOLOGY, CELLULAR signal transduction, CHROMOSOMES

Abstract

There is species divergence in control of DNA methylation during preimplantation development. The exact pattern of methylation in the bovine embryo has not been established nor has its regulation by gender or maternal signals that regulate development such as colony stimulating factor 2 (CSF2). Using immunofluorescent labeling with anti-5-methylcytosine and embryos produced with X-chromosome sorted sperm, it was demonstrated that methylation decreased from the 2-cell stage to the 6–8 cell stage and then increased thereafter up to the blastocyst stage. In a second experiment, embryos of specific genders were produced by fertilization with X- or Y-sorted sperm. The developmental pattern was similar to the first experiment, but there was stage × gender interaction. Methylation was greater for females at the 8-cell stage but greater for males at the blastocyst stage. Treatment with CSF2 had no effect on labeling for DNA methylation in blastocysts. Methylation was lower for inner cell mass cells (i.e., cells that did not label with anti-CDX2) than for trophectoderm (CDX2-positive). The possible role for DNMT3B in developmental changes in methylation was evaluated by determining gene expression and degree of methylation. Steady-state mRNA for DNMT3B decreased from the 2-cell stage to a nadir for D 5 embryos >16 cells and then increased at the blastocyst stage. High resolution melting analysis was used to assess methylation of a CpG rich region in an intronic region of DNMT3B. Methylation percent decreased between the 6–8 cell and the blastocyst stage but there was no difference in methylation between ICM and TE. Results indicate that DNA methylation undergoes dynamic changes during the preimplantation period in a manner that is dependent upon gender and cell lineage. Developmental changes in expression of DNMT3B are indicative of a possible role in changes in methylation. Moreover, DNMT3B itself appears to be under epigenetic control by methylation. [ABSTRACT FROM AUTHOR]

Published

2013

12. Changes in the transcriptome of morula-stage bovine embryos caused by heat shock: relationship to developmental acquisition of thermotolerance.

Author

Sakatani, Miki, Bonilla, Luciano, Dobbs, Kyle B., Block, Jeremy, Ozawa, Manabu, Shanker, Savita, JiQiang Yao, and Hansen, Peter J.

Subjects

HEAT shock proteins, BABESIOSIS, GENE expression, POLYMERASE chain reaction, PROTEIN binding, CATTLE

Abstract

Background: While initially sensitive to heat shock, the bovine embryo gains thermal resistance as it progresses through development so that physiological heat shock has little effect on development to the blastocyst stage by Day 5 after insemination. Here, experiments using 3′ tag digital gene expression (3′DGE) and real-time PCR were conducted to determine changes in the transcriptome of morula-stage bovine embryos in response to heat shock (40 degrees C for 8 h) that could be associated with thermotolerance. Results: Using 3′DGE, expression of 173 genes were modified by heat shock, with 94 genes upregulated by heat shock and 79 genes downregulated by heat shock. A total of 38 differentially-regulated genes were associated with the ubiquitin protein, UBC. Heat shock increased expression of one heat shock protein gene, HSPB11, and one heat shock protein binding protein, HSPBP1, tended to increase expression of HSPA1A and HSPB1, but did not affect expression of 64 other genes encoding heat shock proteins, heat shock transcription factors or proteins interacting with heat shock proteins. Moreover, heat shock increased expression of five genes associated with oxidative stress (AKR7A2, CBR1, GGH, GSTA4, and MAP2K5), decreased expression of HIF3A, but did not affect expression of 42 other genes related to free radical metabolism. Heat shock also had little effect on genes involved in embryonic development. Effects of heat shock for 2, 4 and 8 h on selected heat shock protein and antioxidant genes were also evaluated by real-time PCR. Heat shock increased steady-state amounts of mRNA for HSPA1A (P<0.05) and tended to increase expression of HSP90AA1 (P<0.07) but had no effect on expression of SOD1 or CAT. Conclusions: Changes in the transcriptome of the heat-shocked bovine morula indicate that the embryo is largely resistant to effects of heat shock. As a result, transcription of genes involved in thermal protection is muted and there is little disruption of gene networks involved in embryonic development. It is likely that the increased resistance of morula-stage embryos to heat shock as compared to embryos at earlier stages of development is due in part to developmental acquisition of mechanisms to prevent accumulation of denatured proteins and free radical damage. [ABSTRACT FROM AUTHOR]

Published

2013

13. Global gene expression of the inner cell mass and trophectoderm of the bovine blastocyst.

Author

Ozawa, Manabu, Sakatani, Miki, Yao, JiQiang, Shanker, Savita, Yu, Fahong, Yamashita, Rui, Wakabayashi, Shunichi, Nakai, Kenta, Dobbs, Kyle B., Sudano, Mateus José, Farmerie, William G., and Hansen, Peter J.

Subjects

GENE expression, BLASTOCYST, BLASTOMERES, ZONA pellucida, TROPHOBLAST

Abstract

Background: The first distinct differentiation event in mammals occurs at the blastocyst stage when totipotent blastomeres differentiate into either pluripotent inner cell mass (ICM) or multipotent trophectoderm (TE). Here we determined, for the first time, global gene expression patterns in the ICM and TE isolated from bovine blastocysts. The ICM and TE were isolated from blastocysts harvested at day 8 after insemination by magnetic activated cell sorting, and cDNA sequenced using the SOLiD 4.0 system. Results: A total of 870 genes were differentially expressed between ICM and TE. Several genes characteristic of ICM (for example, NANOG, SOX2, and STAT3) and TE (ELF5, GATA3, and KRT18) in mouse and human showed similar patterns in bovine. Other genes, however, showed differences in expression between ICM and TE that deviates from the expected based on mouse and human.Conclusion: Analysis of gene expression indicated that differentiation of blastomeres of the morula-stage embryo into the ICM and TE of the blastocyst is accompanied by differences between the two cell lineages in expression of genes controlling metabolic processes, endocytosis, hatching from the zona pellucida, paracrine and endocrine signaling with the mother, and genes supporting the changes in cellular architecture, stemness, and hematopoiesis necessary for development of the trophoblast. [ABSTRACT FROM AUTHOR]

Published

2012

14. A novel method for purification of inner cell mass and trophectoderm cells from blastocysts using magnetic activated cell sorting

Author

Ozawa, Manabu and Hansen, Peter J.

Subjects

*BLASTOCYST, *GENE expression, *TRYPSIN, *MICROPIPETTES, *HEALTH outcome assessment, *BLASTOMERES, *BIOMARKERS, *CELL differentiation, *LECTINS

Abstract

Objective: To develop a simple method to purify blastomeres of inner cell mass (ICM) and trophectoderm (TE) lineage using magnetic activated cell sorting. Design: Prospective laboratory study. Setting: Embryology research laboratory. Patient(s): None. Intervention(s): Trophectoderm cells of zona-free blastocysts were labeled with concanavalin A conjugated to FITC, and every nucleus in the blastocyst was labeled with Hoechst 33342. The labeled blastocyst was disaggregated to single cells by trypsin treatment followed by pipetting using a finely drawn, flame-polished micropipet. Disaggregated blastomeres were incubated with anti-FITC antibody conjugated to magnetic microbeads and subjected to magnetic cell sorting to separate cells into FITC-positive and -negative fractions. Main Outcome Measure(s): Purity and gene expression. Result(s): In the FITC-positive fraction, an average of 91.2% of cells was dual-labeled with FITC and Hoechst, whereas only 7.8% of FITC negative fractions were labeled with FITC. Expression of CDX2, a trophectoderm marker, was significantly higher in the FITC-positive fraction, whereas expression of NANOG, an inner cell mass marker, was significantly higher in the FITC-negative fraction. Conclusion(s): Highly purified trophectoderm cells or inner cell mass cells can be collected using magnetic activated cell sorting. This method can be useful for understanding differentiation and function of cell lineages in the blastocyst. [ABSTRACT FROM AUTHOR]

Published

2011

15. Differentiation of the Endometrial Macrophage during Pregnancy in the Cow.

Author

Oliveira, Lilian J., McClellan, Steve, and Hansen, Peter J.

Subjects

COWS, PREGNANCY, MACROPHAGES, ENDOMETRIUM, UTERUS, BLOOD, NEOVASCULARIZATION, APOPTOSIS, GENE expression

Abstract

Background: The presence of conceptus alloantigens necessitates changes in maternal immune function. One player in this process may be the macrophage. In the cow, there is large-scale recruitment of macrophages expressing CD68 and CD14 to the uterine endometrium during pregnancy. Methodology/Principal Findings: In the present study, the function of endometrial macrophages during pregnancy was inferred by comparison of the transcriptome of endometrial CD14+ cells isolated from pregnant cows as compared to that of blood CD14+ cells. The pattern of gene expression was largely similar for CD14+ cells from both sources, suggesting that cells from both tissues are from themonocyte/macrophage lineage. A total of 1,364 unique genes were differentially expressed, with 680 genes upregulated in endometrial CD14+ cells as compared to blood CD14+ cells and with 674 genes downregulated in endometrial CD14+ cells as compared to blood CD14+ cells. Twelve genes characteristic of M2 activatedmacrophages (SLCO2B1, GATM, MRC1, ALDH1A1, PTGS1, RNASE6, CLEC7A, DPEP2, CD163, CCL22, CCL24, and CDH1) were upregulated in endometrial CD14+ cells. M2 macrophages play roles in immune regulation, tissue remodeling, angiogenesis and apoptosis. Consistent with a role in tissue remodeling, there was overrepresentation of differentially expressed genes in endometrium for three ontologies related to proteolysis. A role in apoptosis is suggested by the observation that the most overrepresented gene in endometrial CD14+ cells was GZMA. Conclusions: Results indicate that at least a subpopulation of endometrial macrophages cells differentiates along an M2 activation pathway during pregnancy and that the cells are likely to play roles in immune regulation, tissue remodeling, angiogenesis, and apoptosis. [ABSTRACT FROM AUTHOR]

Published

2010

16. Dickkopf-related protein 1 is a progestomedin acting on the bovine embryo during the morula-to-blastocyst transition to program trophoblast elongation.

Author

Tríbulo, Paula, Rabaglino, María Belen, Bo, Martin Bonet, Carvalheira, Luciano de R., Bishop, Jeanette V., Hansen, Thomas R., and Hansen, Peter J.

Subjects

EMBRYOLOGY, TROPHOBLAST, BLASTOCYST, PROGESTERONE, GENE expression

Abstract

Progesterone regulates the endometrium to support pregnancy establishment and maintenance. In the ruminant, one action of progesterone early in pregnancy is to alter embryonic development and hasten the process of trophoblast elongation around day 14–15 of pregnancy, which is required for maternal recognition of pregnancy. Here we demonstrate that the WNT antagonist DKK1, whose expression is increased by progesterone treatment, can act on the bovine embryo during day 5 to 7.5 of development (the morula to blastocyst stage) to promote embryonic elongation on day 15 of pregnancy. Embryos were produced in vitro and exposed to 0 or 100 ng/ml recombinant human DKK1 from day 5 to 7.5 of culture. Blastocysts were transferred into synchronized recipient cows on day 7.5 (n = 23 for control and 17 for DKK1). On day 15, cows were slaughtered and embryos recovered by flushing the uterus. Embryo recovery was n = 11 for controls (48% recovery) and n = 11 for DKK1 (65% recovery). Except for two DKK1 embryos, all embryos were filamentous. Treatment with DKK1 increased (P = 0.007) the length of filamentous embryos from 43.9 mm to 117.4 mm and the intrauterine content of the maternal recognition of pregnancy signal IFNT (P = 0.01) from 4.9 µg to 16.6 µg. Determination of differentially expressed genes (DEG), using the R environment, revealed 473 DEG at p < 0.05 but none at FDR < 0.05, suggesting that DKK1 did not strongly modify the embryo transcriptome at the time it was measured. However, samples clustered apart in a multidimensional scaling analyisis. Weighted gene co-expression analysis of the transcriptome of filamentous embryos revealed a subset of genes that were related to embryo length, with identification of a significant module of genes in the DKK1 group only. Thus, several of the differences between DKK1 and control groups in gene expression were due to differences in embryo length. In conclusion, DKK1 can act on the morula-to-blastocyst stage embryo to modify subsequent trophoblast elongation. Higher pregnancy rates associated with transfer of DKK1-treated embryos may be due in part to enhancements of trophoblast growth and antiluteolytic signaling through IFNT secretion. Given that progesterone can regulate both timing of trophoblast elongation and DKK1 expression, DKK1 may be a mediator of progesterone effects on embryonic development. [ABSTRACT FROM AUTHOR]

Published

2019

17. Effects of sex on response of the bovine preimplantation embryo to insulin-like growth factor 1, activin A, and WNT7A.

Author

Tríbulo, Paula, Moss, James I., Hansen, Peter J., Jumatayeva, Gulnur, Negrón-Pérez, Veronica M., and Lehloenya, Khoboso

Subjects

SOMATOMEDIN, DIMORPHISM (Biology), CELL communication, BLASTOCYST, GENE expression, WNT genes, CATTLE embryos, ACTIVIN

Abstract

Background: Alterations in maternal environment can sometimes affect embryonic development in a sexually-dimorphic manner. The objective was to determine whether preimplantation bovine embryos respond to three maternally-derived cell signaling molecules in a sex-dependent manner. Results: Actions of three embryokines known to increase competence of bovine embryos to develop to the blastocyst stage, insulin-like growth factor 1 (IGF1), activin A, and WNT member 7A (WNT7A), were evaluated for actions on embryos produced in vitro with X- or Y- sorted semen from the same bull. Each embryokine was tested in embryos produced by in vitro fertilization of groups of oocytes with either pooled sperm from two bulls or with sperm from individual bulls. Embryos were treated with IGF1, activin A, or WNT7A on day 5 of culture. All three embryokines increased the proportion of cleaved zygotes that developed to the blastocyst stage and the effect was similar for female and male embryos. As an additional test of sexual dimorphism, effects of IGF1 on blastocyst expression of a total of 127 genes were determined by RT-qPCR using the Fluidigm Delta Gene assay. Expression of 18 genes was affected by sex, expression of 4 genes was affected by IGF1 and expression of 3 genes was affected by the IGF1 by sex interaction. Conclusion: Sex did not alter how IGF1, activin A or WNT7A altered developmental competence to the blastocyst stage. Thus, sex-dependent differences in regulation of developmental competence of embryos by maternal regulatory signals is not a general phenomenon. The fact that sex altered how IGF1 regulates gene expression is indicative that there could be sexual dimorphism in embryokine regulation of some aspects of embryonic function other than developmental potential to become a blastocyst. [ABSTRACT FROM AUTHOR]

Published

2018

18. Sexual Dimorphism in Developmental Programming of the Bovine Preimplantation Embryo Caused by Colony-Stimulating Factor 21

Author

Dobbs, Kyle B., Gagné, Dominic, Fournier, Eric, Dufort, Isabelle, Robert, Claude, Block, Jeremy, Sirard, Marc-André, Bonilla, Luciano, Ealy, Alan D., Loureiro, Barbara, and Hansen, Peter J.

Published

2014

19. Oxygen tension and medium type actions on blastocyst development and interferon-tau secretion in cattle

Author

Rodina, Teresa M., Cooke, Flavia N.T., Hansen, Peter J., and Ealy, Alan D.

Subjects

*EMBRYOLOGY, *BLASTOCYST, *PHYSIOLOGICAL effects of oxygen, *INTERFERONS, *CATTLE physiology, *FIBROBLAST growth factors, *GENE expression

Abstract

Abstract: Most current in vitro production systems terminate at the blastocyst stage in cattle. The goal of the present research was to identify culture conditions that support individual blastocyst survival and interferon-tau (IFNT) production in cattle. In the first study, two media (medium 199 [M199] and potassium simplex optimized medium [KSOM]) and two oxygen tensions (5 and 20%) were compared for their ability to sustain blastocyst survival and IFNT production from days 8 to 11 post-insemination. Survival and total cell numbers were greater (P <0.05) for blastocysts cultured in M199 in a 5% oxygen environment compared with other medium and oxygen treatment combinations. Serum supplementation was required for blastocyst survival and IFNT production. IFNT concentrations in conditioned medium were similar for blastocysts cultured in M199 or KSOM, but blastocysts incubated in 5% oxygen produced less (P <0.001) IFNT than their 20% oxygen counterparts. Oxidative stress was not responsible for the increase in IFNT concentrations. Supplementation with fibroblast growth factor 2 did not affect cell numbers but increased (P <0.02) IFNT concentrations for blastocysts cultured in 5% oxygen but not those cultured in 20% oxygen. In conclusion, culturing blastocysts of cattle in a 5% oxygen environment with M199 containing serum sustains embryo viability and permits constitutive and inducible IFNT production. Incubation in 20% oxygen increases IFNT production. The mechanism responsible for this event and its physiological relevance to conceptus development in utero remain unknown. [Copyright &y& Elsevier]

Published

2009

20. An improved method for specific-target preamplification PCR analysis of single blastocysts useful for embryo sexing and high-throughput gene expression analysis.

Author

Xiao, Yao, Sosa, Froylan, de Armas, Lesley R., Pan, Li, and Hansen, Peter J.

Subjects

*GENE expression, *EMBRYOS, *COMPLEMENTARY DNA, *GENES, *PREGNANCY outcomes

Abstract

Gene expression analysis in preimplantation embryos has been used for answering fundamental questions related to development, prediction of pregnancy outcome, and other topics. Limited amounts of mRNA in preimplantation embryos hinders progress in studying the preimplantation embryo. Here, a method was developed involving direct synthesis and specific-target preamplification (STA) of cDNA for gene expression analysis in single blastocysts. Effective cell lysis and genomic DNA removal steps were incorporated into the method. In addition, conditions for real-time PCR of cDNA generated from these processes were improved. By using this system, reliable embryo sexing results based on expression of sex-chromosome linked genes was demonstrated. Calibration curve analysis of PCR results using the Fluidigm Biomark microfluidic platform (Fluidigm, South San Francisco, CA) was performed to evaluate 96 STA cDNA from single blastocysts. In total, 93.75% of the genes were validated. Robust amplification was detected even when STA cDNA from a single blastocyst was diluted 1,024-fold. Further analysis showed that within-assay variation increased when cycle threshold values exceeded 18. Overall, STA quantitative real-time PCR analysis was shown to be useful for analysis of gene expression of multiple specific targets in single blastocysts. [ABSTRACT FROM AUTHOR]

Published

2021

21. Combining multi-OMICs information to identify key-regulator genes for pleiotropic effect on fertility and production traits in beef cattle

Author

Pablo A. S. Fonseca, Antonio Reverter, Samir Id-Lahoucine, Filippo Miglior, Loan T. Nguyen, Laercio R. Porto-Neto, Maria Raquel Santos Carvalho, Flavio S Schenkel, Angela Cánovas, Joaquim Casellas, Juan F. Medrano, Milton G Thomas, Luiz F. Brito, Marina R. S. Fortes, and Hansen, Peter J

Subjects

0301 basic medicine, Male, Proteomics, Physiology, Gene regulatory network, Gene Identification and Analysis, Thyroid Gland, lcsh:Medicine, Gene Expression, Muscle Proteins, Genetic Networks, Breeding, Biochemistry, Endocrinology, Pleiotropy, Animal Products, Databases, Genetic, Medicine and Health Sciences, Data Mining, Gene Regulatory Networks, lcsh:Science, 2. Zero hunger, Genetics, Mammals, Thyroid, Multidisciplinary, Reproduction, Microfilament Proteins, Eukaryota, Agriculture, Genetic Pleiotropy, Genomics, Ruminants, Phenotype, Genetic networks, Vertebrates, Female, Anatomy, Beef, Network Analysis, Research Article, Computer and Information Sciences, Thyroid Hormones, Meat, General Science & Technology, Quantitative Trait Loci, Endocrine System, Quantitative trait locus, Biology, Proto-Oncogene Proteins c-myc, Quantitative Trait, Databases, 03 medical and health sciences, Quantitative Trait, Heritable, Genetic, Bovines, Genetic variation, Animals, Gene Regulation, Selection, Genetic, Heritable, Selection, Gene, Nutrition, Glycogen Synthase Kinase 3 beta, Endocrine Physiology, lcsh:R, Puberty, Organisms, Biology and Life Sciences, Molecular Sequence Annotation, Energy metabolism, Hormones, Gene regulation, Diet, PPAR gamma, 030104 developmental biology, Metabolism, Fertility, Gene Ontology, Gene Expression Regulation, Food, Amniotes, lcsh:Q, Cattle, Generic health relevance, Energy Metabolism, Physiological Processes

Abstract

Altres ajuts: Fundação de Amparo à Pesquisa do Estado de Minas Gerais APQ APQ-01377-17. Conselho Nacional de Desenvolvimento Científico e Tecnológico CNPq 312068/2015-8 The identification of biological processes related to the regulation of complex traits is a difficult task. Commonly, complex traits are regulated through a multitude of genes contributing each to a small part of the total genetic variance. Additionally, some loci can simultaneously regulate several complex traits, a phenomenon defined as pleiotropy. The lack of understanding on the biological processes responsible for the regulation of these traits results in the decrease of selection efficiency and the selection of undesirable hitchhiking effects. The identification of pleiotropic key-regulator genes can assist in developing important tools for investigating biological processes underlying complex traits. A multi-breed and multi-OMICs approach was applied to study the pleiotropic effects of key-regulator genes using three independent beef cattle populations evaluated for fertility traits. A pleiotropic map for 32 traits related to growth, feed efficiency, carcass and meat quality, and reproduction was used to identify genes shared among the different populations and breeds in pleiotropic regions. Furthermore, data-mining analyses were performed using the Cattle QTL database (CattleQTLdb) to identify the QTL category annotated in the regions around the genes shared among breeds. This approach allowed the identification of a main gene network (composed of 38 genes) shared among breeds. This gene network was significantly associated with thyroid activity, among other biological processes, and displayed a high regulatory potential. In addition, it was possible to identify genes with pleiotropic effects related to crucial biological processes that regulate economically relevant traits associated with fertility, production and health, such as MYC, PPARG, GSK3B, TG and IYD genes. These genes will be further investigated to better understand the biological processes involved in the expression of complex traits and assist in the identification of functional variants associated with undesirable phenotypes, such as decreased fertility, poor feed efficiency and negative energetic balance.

Published

2018