Your search keyword '"Bruemmer, Jason E."' showing total 23 results

1. High-fat diet during pregnancy promotes fetal skeletal muscle fatty acid oxidation and insulin resistance in an ovine model.

Author

Omar AK, Li Puma LC, Whitcomb LA, Risk BD, Witt AC, Bruemmer JE, Winger QA, Bouma GJ, and Chicco AJ

Subjects

Animals, Female, Pregnancy, Diet, High-Fat adverse effects, Fatty Acids metabolism, Fetus metabolism, Glucose metabolism, Insulin metabolism, Muscle, Skeletal metabolism, Placenta metabolism, Pyruvates metabolism, Sheep, Insulin Resistance physiology, Metabolic Syndrome metabolism

Abstract

Maternal diet during pregnancy is associated with offspring metabolic risk trajectory in humans and animal models, but the prenatal origins of these effects are less clear. We examined the effects of a high-fat diet (HFD) during pregnancy on fetal skeletal muscle metabolism and metabolic risk parameters using an ovine model. White-faced ewes were fed a standardized diet containing 5% fat wt/wt (CON), or the same diet supplemented with 6% rumen-protected fats (11% total fat wt/wt; HFD) beginning 2 wk before mating until midgestation (GD75). Maternal HFD increased maternal weight gain, fetal body weight, and low-density lipoprotein levels in the uterine and umbilical circulation but had no significant effects on circulating glucose, triglycerides, or placental fatty acid transporters. Fatty acid (palmitoylcarnitine) oxidation capacity of permeabilized hindlimb muscle fibers was >50% higher in fetuses from HFD pregnancies, whereas pyruvate and maximal (mixed substrate) oxidation capacities were similar to CON. This corresponded to greater triacylglycerol content and protein expression of fatty acid transport and oxidation enzymes in fetal muscle but no significant effect on respiratory chain complexes or pyruvate dehydrogenase expression. However, serine-308 phosphorylation of insulin receptor substrate-1 was greater in fetal muscle from HFD pregnancies along with c-jun-NH 2 terminal kinase activation, consistent with prenatal inhibition of skeletal muscle insulin signaling. These results indicate that maternal high-fat feeding shifts fetal skeletal muscle metabolism toward a greater capacity for fatty acid over glucose utilization and favors prenatal development of insulin resistance, which may predispose offspring to metabolic syndrome later in life. NEW & NOTEWORTHY Maternal diet during pregnancy is associated with offspring metabolic risk trajectory in humans and animal models, but the prenatal origins of these effects are less clear. This study examined the effects of a high-fat diet during pregnancy on metabolic risk parameters using a new sheep model. Results align with findings previously reported in nonhuman primates, demonstrating changes in fetal skeletal muscle metabolism that may predispose offspring to metabolic syndrome later in life.

Published

2023

2. Kisspeptin has an independent and direct effect on the pituitary gland in the mare.

Author

Magee C, Bruemmer JE, Kirkley KS, Sylvester LA, Runyan B, Nett TM, Squires EL, and Clay CM

Subjects

Animals, Female, Follicle Stimulating Hormone, Gonadotropin-Releasing Hormone metabolism, Horses, Pituitary Gland metabolism, Kisspeptins physiology, Luteinizing Hormone

Abstract

To more clearly understand the equine gonadotrope response to kisspeptin and gonadotropin releasing hormone (GnRH), peripheral LH and FSH were quantified in diestrous mares after treatment with either equine kisspeptide (eKp-10, 0.5 mg iv), GnRH (25 μg iv), or a combination thereof every 4 h for 3 days. The following observations were made: 1) a diminished LH and FSH response to eKp-10 and GnRH was observed by Day 3, but was not different by treatment, 2) a decrease in basal LH concentration was observed from Day 1 to Day 3 for the eKp-10, but not the GnRH treated mares, 3) there was no change in basal FSH with either treatment. Additionally, pre-treatment with GnRH antagonist (antide 1.0 mg iv) eliminated any measurable change in LH after eKp-10 (1.0 mg iv) treatment. Both GnRH and kisspeptin are Gα q/11 coupled receptors, therefore quantifying the rise in intracellular calcium following treatment with cognate ligand allows simultaneous assessment of receptor activation. Direct stimulation of equine primary pituitary cells with GnRH and/or eKp-10 demonstrates three distinct populations of pituitary cells: one population responded to both eKp-10 and GnRH, a second, independent population, responded to only eKp-10, and a third population responded only to GnRH. These populations were confirmed using co-immunofluorescence of hemipituitaries from mares in diestrus. Although the rise in peripheral LH concentration elicited by eKp-10 is dependent on GnRH, this work suggests that kisspeptin also has a specific and direct effect on the equine gonadotrope, independent of GnRH., (Copyright © 2020. Published by Elsevier Inc.)

Published

2020

3. Transfer of MicroRNAs From Epididymal Epithelium to Equine Spermatozoa.

Author

Twenter H, Klohonatz K, Davis K, Bass L, Coleman SJ, Bouma GJ, and Bruemmer JE

Subjects

Animals, Epithelium, Horses, Male, Sperm Maturation, Spermatozoa, Epididymis, MicroRNAs genetics

Abstract

All epididymal regions are lined with multiple epithelial cell types, each with different functions to provide the luminal environment for spermatozoal maturation. Epithelial cells also create apical blebs, which are released from the apical surface via apocrine secretion and disintegrate in the lumen, thereby releasing epididymosomes. Epididymosomes transport proteins to spermatozoa and contain microRNAs. We hypothesized that epididymosomes also transfer miRNA from epididymal epithelium to spermatozoa. Quantitative real-time polymerase chain reaction was used to determine miRNA profiles of epididymal tissue from caput and cauda, epididymal spermatozoa from caput and cauda, and epididymosomes and from caput, proximal corpus, distal corpus, and cauda. Pathway analysis was performed using DIANA tools on the miRNA unique to caudal spermatozoa. We found 66 newly acquired miRNAs in spermatozoa located in the caudal epididymis. Predicted pathways targeted by these miRNAs suggest a role in cell motility and viability and factors in oocyte and embryo maturation and development. These findings suggest that miRNAs are transported to spermatozoa from epididymal epithelium via epididymosomes., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

4. Non-Coding RNA Sequencing of Equine Endometrium During Maternal Recognition of Pregnancy.

Author

Klohonatz KM, Coleman SJ, Cameron AD, Hess AM, Reed KJ, Canovas A, Medrano JF, Islas-Trejo AD, Kalbfleisch T, Bouma GJ, and Bruemmer JE

Subjects

Animals, Female, Horses metabolism, Horses physiology, Pregnancy, Pregnancy, Animal metabolism, Pregnancy, Animal physiology, RNA, Untranslated metabolism, Transcriptome, Endometrium metabolism, Horses genetics, Pregnancy, Animal genetics, RNA, Untranslated genetics

Abstract

Maternal recognition of pregnancy (MRP) in the mare is not well defined. In a non-pregnant mare, prostaglandin F 2α (PGF) is released on day 14 post-ovulation (PO) to cause luteal regression, resulting in loss of progesterone production. Equine MRP occurs prior to day 14 to halt PGF production. Studies have failed to identify a gene candidate for MRP, so attention has turned to small, non-coding RNAs. The objective of this study was to evaluate small RNA (<200 nucleotides) content in endometrium during MRP. Mares were used in a cross-over design with each having a pregnant and non-mated cycle. Each mare was randomly assigned to collection day 11 or 13 PO ( n = 3/day) and endometrial biopsies were obtained. Total RNA was isolated and sequencing libraries were prepared using a small RNA library preparation kit and sequenced on a HiSeq 2000. EquCab3 was used as the reference genome and DESeq2 was used for statistical analysis. On day 11, 419 ncRNAs, representing miRNA, snRNA, snoRNA, scaRNA, and vaultRNA, were different between pregnancy statuses, but none on day 13. Equine endometrial ncRNAs with unknown structure and function were also identified. This study is the first to describe ncRNA transcriptome in equine endometrium. Identifying targets of these ncRNAs could lead to determining MRP.

Published

2019

5. Coding RNA Sequencing of Equine Endometrium during Maternal Recognition of Pregnancy.

Author

Klohonatz KM, Coleman SJ, Islas-Trejo AD, Medrano JF, Hess AM, Kalbfleisch T, Thomas MG, Bouma GJ, and Bruemmer JE

Subjects

Animals, Female, Horses, Pregnancy, Sequence Analysis, RNA, Transcriptome, Endometrium metabolism, Pregnancy, Animal genetics

Abstract

Equine maternal recognition of pregnancy (MRP) is a process whose signal remains unknown. During MRP the conceptus and endometrium communicate to attenuate prostaglandin F 2α (PGF) secretion, sparing the corpus luteum and maintaining progesterone production. Recognition of a mobile conceptus by the endometrium is critical by days 14-16 post-ovulation (PO), when endometrium produces PGF, initiating luteolysis. The objective of this study was to evaluate endometrial gene expression changes based upon pregnancy status via RNA sequencing. This experiment utilized a cross-over design with each mare serving as both a pregnant and non-mated control on days nine, 11, and 13 PO ( n = 3/status/day). Mares were randomly assigned to collection day and pregnancy confirmed by terminal uterine lavage at the time of endometrial biopsy. Total RNA was isolated and libraries prepared using Illumina TruSeq RNA sample preparation kit. Reads were mapped and annotated using HISAT2 and Stringtie. Expression values were evaluated with DESEQ2 ( P ≤ 0.05 indicated significance). On day nine, 11, and 13 there were 1435, 1435 and 916 significant transcripts, respectively. Multiple genes with splice variants had different expression patterns within the same day. These are the first data to evaluate the endometrial transcriptome during MRP on days nine, 11, and 13.

Published

2019

6. Reimmunization increases contraceptive effectiveness of gonadotropin-releasing hormone vaccine (GonaCon-Equine) in free-ranging horses (Equus caballus): Limitations and side effects.

Author

Baker DL, Powers JG, Ransom JI, McCann BE, Oehler MW, Bruemmer JE, Galloway NL, Eckery DC, and Nett TM

Subjects

Animals, Animals, Wild, Female, Pregnancy, Random Allocation, Vaccination adverse effects, Vaccination methods, Vaccination veterinary, Contraception, Immunologic adverse effects, Contraception, Immunologic methods, Contraception, Immunologic veterinary, Contraceptive Effectiveness, Gonadotropin-Releasing Hormone immunology, Horses immunology, Immunization, Secondary adverse effects, Immunization, Secondary methods, Immunization, Secondary veterinary, Vaccines, Contraceptive therapeutic use

Abstract

Wildlife and humans are increasingly competing for resources worldwide, and a diverse, innovative, and effective set of management tools is needed. Controlling abundance of wildlife species that are simultaneously protected, abundant, competitive for resources, and in conflict with some stakeholders but beloved by others, is a daunting challenge. Free-ranging horses (Equus caballus) present such a conundrum and managers struggle for effective tools for regulating their abundance. Controlling reproduction of female horses presents a potential alternative. During 2009-2017, we determined the long-term effectiveness of GnRH vaccine (GonaCon-Equine) both as a single immunization and subsequent reimmunization on reproduction and side effects in free-ranging horses. At a scheduled management roundup in 2009, we randomly assigned 57 adult mares to either a GonaCon-Equine treatment group (n = 29) or a saline control group (n = 28). In a second roundup in 2013, we administered a booster vaccination to these same mares. We used annual ground observations to estimate foaling proportions, social behaviors, body condition, and injection site reactions. We found this vaccine to be safe for pregnant females and neonates, with no overt deleterious behavioral side effects during the breeding season. The proportion of treated mares that foaled following a single vaccination was lower than that for control mares for the second (P = 0.03) and third (P = 0.08) post-treatment foaling seasons but was similar (P = 0.67) to untreated mares for the fourth season, demonstrating reversibility of the primary vaccine treatment. After two vaccinations, however, the proportion of females giving birth was lower (P <0.001) than that for control mares for three consecutive years and ranged from 0.0-0.16. The only detectable adverse side effect of vaccination was intramuscular swelling at the vaccination site. Regardless of vaccine treatment (primary/secondary), approximately 62% (34/55) of immunized mares revealed a visible reaction at the vaccine injection site. However, none of these mares displayed any evidence of lameness, altered gait or abnormal range of movement throughout the 8 years they were observed in this study. Our research suggests that practical application of this vaccine in feral horses will require an initial inoculation that may provide only modest suppression of fertility followed by reimmunization that together could result in greater reduction in population growth rates over time., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

7. Effects of immunization against bone morphogenetic protein-15 and growth differentiation factor-9 on ovarian function in mares.

Author

Davis KA, Klohonatz KM, Mora DSO, Twenter HM, Graham PE, Pinedo P, Eckery DC, and Bruemmer JE

Subjects

Animals, Female, Immunization Schedule, Ovary immunology, Ovulation immunology, Bone Morphogenetic Protein 15 immunology, Growth Differentiation Factor 9 immunology, Horses physiology, Ovary physiology, Vaccines, Contraceptive immunology

Abstract

Currently there is no contraceptive vaccine that can cause permanent sterility in mares. This study investigates the effect of vaccination against oocyte-specific growth factors, Bone Morphogenetic Protein 15 (BMP-15) and Growth Differentiation Factor 9 (GDF-9), on ovarian function of mares. It was hypothesized that immunization against these growth factors would prevent ovulation and/or accelerate depletion of the oocyte reserve. For this study, 30 mares were randomly assigned to three groups (n = 10/group) and vaccinated with BMP-15 or GDF-9 peptides conjugated to KLH and adjuvant, or a control of phosphate buffered saline and adjuvant. Horses received vaccinations at weeks 0, 6, 12, and 18. Ovarian activity and estrous behavior were evaluated 3 days a week via ultrasonography and interaction with a stallion. The study was initiated on March1, 2016. Upon evaluation of ovulation rate, the GDF-9 group did not have a difference (P = 0.66) in ovulation rate when compared to controls (10.8 and 10.0 ovulations, respectively), but the number of ovulations in the BMP-15 group was less (P = 0.02; 4.9 ovulations). Average follicle size prior to ovulation was less (P < 0.0001) in both treatment groups compared to controls. Estrous behavior was altered in both the BMP-15 and GDF-9 groups compared to controls after the second vaccination (P = 0.05 and 0.03, respectively). Although further research is required to determine the continued effects of vaccination against GDF-9 on ovulation rates, these results indicate that vaccination against BMP-15 and GDF-9 could serve as a contraceptive in wild horse populations., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

8. Effect of fish meal supplementation on luteal sensitivity to intrauterine infusions of prostaglandin F2α in the bovine.

Author

Plewes MR, Cedillo JC, Burns PD, Graham PE, Bruemmer JE, and Engle TE

Subjects

Animals, Cattle, Corpus Luteum diagnostic imaging, Female, Fertility drug effects, Progesterone blood, Ultrasonography, Uterus diagnostic imaging, Animal Feed, Corpus Luteum drug effects, Dietary Supplements, Dinoprost pharmacology, Luteolysis drug effects, Uterus drug effects

Abstract

Progesterone is a steroid hormone secreted from the corpus luteum (CL), which is responsible for establishment and maintenance of pregnancy. Early embryonic mortality often occurs due to inadequate regulation of uterine prostaglandin (PG) F2α secretion, leading to a decrease in progesterone and loss of pregnancy. The objective of the current study was to determine the effects of fish meal supplementation on luteal sensitivity to intrauterine infusions of PGF2α. Nonlactating beef cows received corn gluten meal or fish meal supplementation for 60 days. Cows were administered four intrauterine infusions of 0.25 mL saline at 6-h intervals (n = 6 corn gluten meal; n = 5 fish meal) or two doses of 0.5 mg PGF2α in 0.25 mL saline at 12-h intervals (n = 11 corn gluten meal; n = 11 fish meal) commencing on days 10 to 12 of the estrous cycle. At time of each infusion, luteal biopsies were collected to determine the effects of supplementation on expression of immediate early and steroidogenic genes involved in cholesterol transport and progesterone biosynthesis. Transrectal ultrasonography was performed to measure diameter of CL, and blood samples were collected to determine serum progesterone. Intrauterine infusion of PGF2α resulted in upregulation or no change in FOS, NR4A1, and 3BHSD and downregulation in LDLR, STARD1, and CYP11A1. Although CL diameter decreased, infusion of PGF2α resulted in functional regression in 91% of cows supplemented with corn gluten meal, and only 46% for fish meal supplemented animals. Results demonstrate that fish meal supplementation alters luteal sensitivity to PGF2α, which may affect fertility.

Published

2018

9. Cell-secreted vesicles containing microRNAs as regulators of gamete maturation.

Author

da Silveira JC, de Ávila ACFCM, Garrett HL, Bruemmer JE, Winger QA, and Bouma GJ

Subjects

Animals, Female, Gene Expression Regulation, Humans, Male, Cell-Derived Microparticles genetics, Exosomes genetics, Gametogenesis genetics, Germ Cells metabolism, MicroRNAs metabolism

Abstract

Mammalian gamete maturation requires extensive signaling between germ cells and their surrounding somatic cells. In the ovary, theca cells, mural granulosa cells, cumulus cells and the oocyte all secrete factors throughout follicle growth and maturation that are critical for ovulation of a high-quality oocyte with the competence to develop into an embryo. Similarly, maturation of sperm occurs as it transits the epididymis during which epididymal epithelium and sperm exchange secretory factors that are required for sperm to gain motility and fertility. Recent studies in a variety of species have uncovered the presence of cell-secreted vesicles in follicular fluid (microvesicles and exosomes) and epididymal fluid (epididymosomes). Moreover, these cell-secreted vesicles contain small non-coding regulatory RNAs called microRNAs, which can be shuttled between maturing gametes and surrounding somatic cells. Although little is known about the exact mechanism of how microRNAs are loaded into these cell-secreted vesicles or are transferred and modulate gene expression and function in gametes, recent studies clearly suggest that cell-secreted vesicle microRNAs play a role in oocyte and sperm maturation. Moreover, a role for cell-secreted vesicular microRNAs in gamete maturation provides for novel opportunities to modulate and discover new diagnostic markers associated with male or female fertility. This manuscript provides an overview of cell-secreted vesicles in ovarian follicular fluid and epididymal fluid and microRNAs and discusses recent discoveries on the potential function of cell-secreted vesicles as carriers of microRNAs in oocyte and sperm maturation., (© 2018 Society for Endocrinology.)

Published

2018

10. Evaluation of circulating miRNAs during late pregnancy in the mare.

Author

Loux SC, Scoggin KE, Bruemmer JE, Canisso IF, Troedsson MH, Squires EL, and Ball BA

Subjects

Animals, Female, Horses, Pregnancy, Reverse Transcriptase Polymerase Chain Reaction, MicroRNAs blood, Pregnancy, Animal blood

Abstract

MicroRNAs (miRNAs) are small, non-coding RNAs which are produced throughout the body. Individual tissues tend to have a specific expression profile and excrete many of these miRNAs into circulation. These circulating miRNAs may be diagnostically valuable biomarkers for assessing the presence of disease while minimizing invasive testing. In women, numerous circulating miRNAs have been identified which change significantly during pregnancy-related complications (e.g. chorioamnionitis, eclampsia, recurrent pregnancy loss); however, no prior work has been done in this area in the horse. To identify pregnancy-specific miRNAs, we collected serial whole blood samples in pregnant mares at 8, 9, 10 m of gestation and post-partum, as well as from non-pregnant (diestrous) mares. In total, we evaluated a panel of 178 miRNAs using qPCR, eventually identifying five miRNAs of interest. One miRNA (miR-374b) was differentially regulated through late gestation and four miRNAs (miR-454, miR-133b, miR-486-5p and miR-204b) were differentially regulated between the pregnant and non-pregnant samples. We were able to identify putative targets for the differentially regulated miRNAs using two separate target prediction programs, miRDB and Ingenuity Pathway Analysis. The targets for the miRNAs differentially regulated during pregnancy were predicted to be involved in signaling pathways such as the STAT3 pathway and PI3/AKT signaling pathway, as well as more endocrine-based pathways, including the GnRH, prolactin and insulin signaling pathways. In summary, this study provides novel information about the changes occurring in circulating miRNAs during normal pregnancy, as well as attempting to predict the biological effects induced by these miRNAs.

Published

2017

11. Circulating miRNAs as Potential Alternative Cell Signaling Associated with Maternal Recognition of Pregnancy in the Mare.

Author

Klohonatz KM, Cameron AD, Hergenreder JR, da Silveira JC, Belk AD, Veeramachaneni DN, Bouma GJ, and Bruemmer JE

Subjects

Animals, Female, Horses, Pregnancy, Endometrium metabolism, Exosomes metabolism, MicroRNAs blood, Pregnancy, Animal metabolism

Abstract

During early pregnancy, the conceptus and mare communicate to establish pregnancy. Cell-secreted vesicles (e.g., exosomes) have been reported in serum. Exosomes contain bioactive materials, such as miRNA, that can mediate cell responses. We hypothesized that a) exosomes are present in mare circulation and quantity varies with pregnancy status, b) exosomes contain miRNAs unique to pregnancy status, and c) miRNAs target pathways in endometrium based upon pregnancy status of the mare. First, serum samples were obtained from mares in a crossover design, with each mare providing samples from a pregnant and nonmated control cycle (n = 3/sample day) on Days 12, 14, 16, and 18 postovulation. Flow cytometry revealed the presence of serum microvesicles in mares in two different-sized populations (greater than or less than 100 nm), validated by transmission electron microscopy. Second, serum was collected on Days 9, 11, and 13 (n = 4/day), and endometrial biopsies were collected on Days 11 and 13 (n = 3/day) from pregnant and nonmated mares. Total RNA from serum exosomes was evaluated with quantitative RT-PCR using equine-specific miRNA sequences. A total of 12 miRNAs were found in different quantities on the specified days. Pathway analysis suggested that miRNAs targeted focal adhesion molecules (FAMs). Transcripts corresponding to FAMs were evaluated in endometrial biopsies. Protein levels and localization for PAK6 and RAF1 were further evaluated. Our data suggest that serum exosomes contain miRNA that differ based upon pregnancy status, and may affect mRNA expression related to focal adhesion pathway in the endometrium, with a potential role in maternal recognition of pregnancy., (© 2016 by the Society for the Study of Reproduction, Inc.)

Published

2016

12. Temporal Release, Paracrine and Endocrine Actions of Ovine Conceptus-Derived Interferon-Tau During Early Pregnancy.

Author

Romero JJ, Antoniazzi AQ, Nett TM, Ashley RL, Webb BT, Smirnova NP, Bott RC, Bruemmer JE, Bazer FW, Anthony RV, and Hansen TR

Subjects

Animals, Estrogen Receptor alpha metabolism, Estrous Cycle metabolism, Female, Leukocytes, Mononuclear metabolism, Pregnancy, Progesterone metabolism, Receptors, Oxytocin metabolism, Sheep, Corpus Luteum metabolism, Endometrium metabolism, Interferon Type I metabolism, Pregnancy Proteins metabolism

Abstract

The antiviral activity of interferon (IFN) increases in uterine vein serum (UVS) during early pregnancy in sheep. This antiviral activity in UVS collected on Day 15 of pregnancy is blocked by anti-IFN-tau (anti-IFNT) antibodies. Conceptus-derived IFNT was hypothesized to induce IFN-stimulated gene (ISG) expression in endometrium and extrauterine tissues during pregnancy. To test this hypothesis, blood was collected from ewes on Days 12-16 of the estrous cycle or pregnancy. Serum progesterone was >1.7 ng/ml in pregnant (P) and nonpregnant (NP) ewes until Day 13, then declined to <0.6 ng/ml by Day 15 in NP ewes. A validated IFNT radioimmunoassay detected IFNT in uterine flushings (UFs) on Days 13-16 and in UVS on Days 15-16 of pregnancy. IFNT detection in UF correlated with paracrine induction of ISGs in the endometrium and occurred prior to the inhibition of estrogen receptor 1 and oxytocin receptor expression in uterine epithelia on Day 14 of pregnancy. Induction of ISG mRNAs in corpus luteum (CL) and liver tissue occurred by Day 14 and in peripheral blood mononuclear cells by Day 15 in P ewes. Expression of mRNAs for IFN signal transducers and ISGs were greater in the CL of P than that of NP ewes on Day 14. It is concluded that: 1) paracrine actions of IFNT coincide with detection of IFNT in UF; 2) endocrine action of IFNT ensues through induction of ISGs in peripheral tissues; and 3) IFNT can be detected in UVS, but not until Days 15-16 of pregnancy, which may be limited by the sensitivity of the IFNT radioimmunoassay., (© 2015 by the Society for the Study of Reproduction, Inc.)

Published

2015

13. Serum antibody immunoreactivity to equine zona protein after SpayVac vaccination.

Author

Mask TA, Schoenecker KA, Kane AJ, Ransom JI, and Bruemmer JE

Subjects

Animals, Antibodies blood, Antibody Specificity, Antigens immunology, Egg Proteins immunology, Female, Membrane Glycoproteins immunology, Oocytes immunology, Ovary immunology, Receptors, Cell Surface immunology, Swine, Zona Pellucida chemistry, Zona Pellucida Glycoproteins, Contraception, Immunologic veterinary, Horses immunology, Vaccines, Contraceptive immunology, Zona Pellucida immunology

Abstract

Immunocontraception with porcine ZP (pZP) can be an effective means of fertility control in feral horses. Previous studies suggest that antibodies produced after pZP vaccination may both inhibit fertilization and cause follicular dysgenesis. Zonastat-H, PZP-22, and SpayVac are three pZP vaccines proposed for use in horses. Although all these vaccines contain the pZP antigen, variations in antigen preparation and vaccine formulation lead to differences in antigenic properties among them. Likewise, despite numerous efficacy and safety studies of Zonastat-H and PZP-22, the contraceptive mechanisms of SpayVac remain unclear. The preparation of pZP for SpayVac is thought to include more nonzona proteins, making it less pure than the other two vaccines. This may result in increased antigenicity of the vaccine. We therefore investigated the immunoreactivity of serum antibodies from SpayVac-vaccinated mares to equine zona protein. Western blot analyses revealed an immunoreactivity of these antibodies to protein isolated from mature equine oocytes, ZP, follicular tissues, and ovarian tissues. Immunohistochemical analyses were used to locate the binding of serum antibodies to the ZP of immature oocytes in ovarian stromal tissue. We also found serum antibodies from SpayVac-treated mares to be predominantly specific for zona protein 3. Collectively, our results suggest a model where serum antibodies produced in response to SpayVac vaccination are immunoreactive to equine zona protein in vitro. Our study lends insight into the contraceptive mechanisms underlying the infertility observed after SpayVac vaccination., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

14. Androgen receptor and histone lysine demethylases in ovine placenta.

Author

Cleys ER, Halleran JL, Enriquez VA, da Silveira JC, West RC, Winger QA, Anthony RV, Bruemmer JE, Clay CM, and Bouma GJ

Subjects

Androgens pharmacology, Animals, DNA Methylation, Epigenesis, Genetic, Female, Gene Expression Profiling, Gene Expression Regulation drug effects, Histone Demethylases genetics, Humans, Placenta anatomy & histology, Placenta drug effects, Pregnancy, Protein Binding, Proteome, Receptors, Androgen genetics, Sheep, Testosterone Propionate pharmacology, Transcriptome, Vascular Endothelial Growth Factor A metabolism, Histone Demethylases metabolism, Placenta metabolism, Receptors, Androgen metabolism

Abstract

Sex steroid hormones regulate developmental programming in many tissues, including programming gene expression during prenatal development. While estradiol is known to regulate placentation, little is known about the role of testosterone and androgen signaling in placental development despite the fact that testosterone rises in maternal circulation during pregnancy and in placenta-induced pregnancy disorders. We investigated the role of testosterone in placental gene expression, and focused on androgen receptor (AR). Prenatal androgenization decreased global DNA methylation in gestational day 90 placentomes, and increased placental expression of AR as well as genes involved in epigenetic regulation, angiogenesis, and growth. As AR complexes with histone lysine demethylases (KDMs) to regulate AR target genes in human cancers, we also investigated if the same mechanism is present in the ovine placenta. AR co-immunoprecipitated with KDM1A and KDM4D in sheep placentomes, and AR-KDM1A complexes were recruited to a half-site for androgen response element (ARE) in the promoter region of VEGFA. Androgenized ewes also had increased cotyledonary VEGFA. Finally, in human first trimester placental samples KDM1A and KDM4D immunolocalized to the syncytiotrophoblast, with nuclear KDM1A and KDM4D immunostaining also present in the villous stroma. In conclusion, placental androgen signaling, possibly through AR-KDM complex recruitment to AREs, regulates placental VEGFA expression. AR and KDMs are also present in first trimester human placenta. Androgens appear to be an important regulator of trophoblast differentiation and placental development, and aberrant androgen signaling may contribute to the development of placental disorders.

Published

2015

15. Identification of microRNAs in exosomes isolated from serum and umbilical cord blood, as well as placentomes of gestational day 90 pregnant sheep.

Author

Cleys ER, Halleran JL, McWhorter E, Hergenreder J, Enriquez VA, da Silveira JC, Bruemmer JE, Winger QA, and Bouma GJ

Subjects

Animals, Exosomes genetics, Female, Gestational Age, MicroRNAs blood, Pregnancy, Real-Time Polymerase Chain Reaction, Sheep blood, Exosomes metabolism, Fetal Blood metabolism, MicroRNAs genetics, Placenta metabolism, Sheep genetics

Abstract

Despite reports that circulating levels of maternal serum exosomes increase during pregnancy and that placenta-specific microRNAs (miRNAs) have been identified in humans, little is known about exosomes and miRNAs during pregnancy in agriculture animals. In this study, we characterized the expression of 94 miRNAs in ovine placentomes at gestation day (GD) 90 by real-time PCR, and then investigated the presence of these miRNAs in exosome samples isolated from maternal jugular blood in non-pregnant ewes and at GD30 and GD90 and in umbilical blood collected at GD90. In maternal jugular exosome samples, 13 miRNAs were present in lower and 12 miRNAs were present in higher amounts at GD90 compared to non-pregnant (GD0) or GD30. Additionally, 12 miRNAs were present in higher amounts in umbilical venous exosomes compared to umbilical arterial exosomes; only miR-132 was lower in exosomes isolated from umbilical venous blood than from umbilical arterial blood. In placentome samples, miR-34c and miR135a abundance was higher in cotyledon tissue than in caruncle, while miR-183 and miR-379 amounts were higher in caruncle than cotyledon tissue. Only miR-379 was differentially expressed in all serum exosomes and placentome samples. Pathway analysis predicted that differentially expressed maternal serum exosomal miRNAs target Cellular Growth and Proliferation and Organ Development pathways, while umbilical serum exosomal and placentomes miRNAs were predicted to target cellular development and organismal/embryonic development., (© 2014 Wiley Periodicals, Inc.)

Published

2014

16. Gene profiling of inflammatory genes in day 18 endometria from pregnant and non-pregnant mares.

Author

Patterson AL, Squires EL, Hansen TR, Bouma GJ, and Bruemmer JE

Subjects

Animals, Corpus Luteum physiology, Dinoprost biosynthesis, Down-Regulation, Estrous Cycle metabolism, Female, Gene Expression, Gene Expression Profiling, Horses, Inflammation veterinary, Pregnancy, Progesterone metabolism, Up-Regulation, Dinoprost metabolism, Endometrium immunology, Endometrium metabolism, Inflammation genetics, Pregnancy, Animal

Abstract

Maternal recognition of pregnancy is a physiological process that primarily describes endometrial responses to a conceptus. Recognition of a conceptus prevents the release of prostaglandin F(2α) , thereby ensuring survival of the corpus luteum and continued progesterone production. Exactly how this occurs in the mare is poorly understood. Because prostaglandin F(2α) is a pro-inflammatory hormone, we hypothesized that differential gene expression in the endometrium at the time of maternal recognition reflects an anti-inflammatory event leading to decreased prostaglandin F(2α) secretion. Mares were inseminated, and endometrial biopsies were recovered from pregnant mares on Day 18 post-ovulation. In subsequent estrous cycles, mares were not inseminated and Day 18 post-ovulation endometrial biopsies were collected (non-pregnant control, matched per individual). Endometrial gene expression profiles were examined by screening an Affymetrix equine GeneChip containing probes specific for genes related to inflammatory processes. Microarray analysis revealed 118 genes that were up-regulated and 93 genes that were down-regulated (P < 0.001) at least 1.5-fold in the endometrium of pregnant versus non-pregnant mares. Quantitative, real-time RT-PCR confirmed the microarray results for three up-regulated genes homologous to TSC22D3, PPAPDC2, and KLF6, and three down-regulated genes homologous to ESR1, MARCKSL1, and EPSTI1 (P < 0.05). It is concluded that the presence of the equine embryo induces differential gene expression in the endometrium of Day 18 pregnant mares, and that these genes are associated with inflammatory processes and pathways involving cellular growth and proliferation. The results from this study provide important new insights into endometrial gene expression in response to early equine pregnancy., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2012

17. Uterine vein infusion of interferon tau (IFNT) extends luteal life span in ewes.

Author

Bott RC, Ashley RL, Henkes LE, Antoniazzi AQ, Bruemmer JE, Niswender GD, Bazer FW, Spencer TE, Smirnova NP, Anthony RV, and Hansen TR

Subjects

Animals, Antiviral Agents administration & dosage, Cattle, Cells, Cultured, Embryo Implantation drug effects, Embryo Implantation genetics, Female, Infusion Pumps, Implantable, Infusions, Intravenous, Luteal Phase physiology, Models, Biological, Ovary blood supply, Ovary drug effects, Pregnancy, Time Factors, Uterus drug effects, Interferon Type I administration & dosage, Luteal Phase drug effects, Pregnancy Proteins administration & dosage, Pregnancy, Animal, Sheep, Uterus blood supply

Abstract

Interferon tau (IFNT) from the ovine conceptus has paracrine actions on the endometrium that alter release of prostaglandin F(2alpha) (PGF) and protect the corpus luteum (CL). Antiviral activity in uterine vein blood and expression of interferon-stimulated genes (ISGs) in CL is greater in pregnant than in nonpregnant ewes. We hypothesized that IFNT contributes to antiviral activity in uterine vein blood and has endocrine actions on the CL. Preadsorption of IFNT with antiserum against recombinant ovine (ro) IFNT revealed that antiviral activity in uterine vein blood from pregnant ewes was mediated by IFNT. Endocrine actions of IFNT were examined after infusing either roIFNT or bovine serum albumin (BSA; 200 microg/24 h; mini-osmotic pump) into the uterine vein of nonpregnant ewes from Day 10 to Day 11 postestrus. The abundance of ISG15 mRNA and protein was greater in CL (P < 0.05) from ewes receiving 24-h roIFNT infusion compared to that from ewes receiving 24-h BSA infusion. Injection of PGF at 12 h following insertion of mini-osmotic pumps resulted in a decline in serum progesterone concentrations 6 through 12 h later in BSA-infused ewes; however, in roIFNT-infused ewes, a similar decline in progesterone concentrations at 6 h was followed by recovery to control values at 12 h. Ewes then received infusions (200 microg/day) of either roIFNT or BSA for 7 days beginning on Day 10 of the estrous cycle. All BSA-infused ewes returned to estrus by Day 19, whereas 80% of roIFNT-infused ewes maintained luteal-phase concentrations of progesterone through Day 32. In conclusion, IFNT is released from the uterus into the uterine vein and acts through an endocrine mechanism to induce ISGs in the CL and delay luteolysis.

Published

2010

18. Zonadhesin D3-polypeptides vary among species but are similar in Equus species capable of interbreeding.

Author

Tardif S, Brady HA, Breazeale KR, Bi M, Thompson LD, Bruemmer JE, Bailey LB, and Hardy DM

Subjects

Acrosome chemistry, Amino Acid Sequence, Animals, Breeding, Female, Humans, Male, Membrane Proteins analysis, Membrane Proteins genetics, Molecular Sequence Data, Solubility, Species Specificity, Spermatozoa chemistry, Spermatozoa ultrastructure, Equidae physiology, Fertilization physiology, Horses physiology, Membrane Proteins chemistry

Abstract

Zonadhesin is a rapidly evolving protein in the sperm acrosome that confers species specificity to sperm-zona pellucida adhesion. Though structural variation in zonadhesin likely contributes to its species-specific function, the protein has not previously been characterized in organisms capable of interbreeding. Here we compared properties of zonadhesin in several animals, including the horse (Equus caballus), donkey (E. asinus), and Grevy's zebra (E. grevyi) to determine if variation in zonadhesin correlates with ability of gametes to cross-fertilize. Zonadhesin localized to the apical acrosomes of spermatozoa from all three Equus species, similar to its localization in other animals. Likewise, in horse and donkey testis, zonadhesin was detected only in germ cells, first in the acrosomal granule of round spermatids and then in the developing acrosomes of elongating spermatids. Among non-Equus species, D3-domain polypeptides of mature, processed zonadhesin varied markedly in size and detergent solubility. However, zonadhesin D3-domain polypeptides in horse, donkey, and zebra spermatozoa exhibited identical electrophoretic mobility and detergent solubility. Equus zonadhesin D3-polypeptides (p110/p80 doublet) were most similar in size to porcine and bovine zonadhesin D3-polypeptides (p105). Sequence comparisons revealed that the horse zonadhesin precursor's domain content and arrangement are similar to those of zonadhesin from other large animals. Partial sequences of horse and donkey zonadhesin were much more similar to each other (>99% identity) than they were to orthologous sequences of human, pig, rabbit, and mouse zonadhesin (52%-72% identity). We conclude that conservation of zonadhesin D3-polypeptide properties correlates with ability of Equus species to interbreed.

Published

2010

19. Progesterone inhibits oxytocin- and prostaglandin F2alpha-stimulated increases in intracellular calcium concentrations in small and large ovine luteal cells.

Author

Davis TL, Bott RC, Slough TL, Bruemmer JE, and Niswender GD

Subjects

Animals, Cell Membrane chemistry, Cell Membrane drug effects, Cholesterol administration & dosage, Cholesterol analysis, Dinoprost pharmacology, Female, Immunohistochemistry, Luteal Cells drug effects, Luteal Cells ultrastructure, Oxytocin pharmacology, Spectrometry, Fluorescence, beta-Cyclodextrins pharmacology, Calcium analysis, Dinoprost antagonists & inhibitors, Luteal Cells chemistry, Oxytocin antagonists & inhibitors, Progesterone administration & dosage, Sheep

Abstract

There is increasing evidence that the corpus luteum has an important role in regulating its own demise. A series of experiments was performed to study the effects of luteal concentrations of progesterone on the functions of steroidogenic luteal cells. In the first experiment, steroidogenic small luteal cells (SLCs) were separated from endothelial cells, and it was determined that it was the SLCs that contained receptors for oxytocin. Treatment with progesterone (95 muM) for as little as 1 h decreased (P < 0.05) the percentage of SLCs responding to oxytocin (10 muM) with an increase in intracellular concentrations of calcium, and this effect continued for the duration of the experiment. In a second experiment, the response to oxytocin was increased (P < 0.05) by 3 h (but not 1 h) following progesterone removal, with a further increase by 16 h. The ability of 1 muM prostaglandin F(2 alpha) (PGF(2 alpha)) to increase intracellular concentrations of calcium was also decreased (P < 0.05) by progesterone treatment. By 3 h following removal of progesterone, the percentage of steroidogenic large luteal cells (LLCs) responding to PGF(2 alpha) was increased and not different from that observed in cells 16 h after progesterone removal. Finally, cyclodextrins (methyl-beta cyclodextrin [M beta CD]) were used to remove cholesterol from the plasma membrane of luteal cells, and M beta CD loaded with cholesterol was used to put cholesterol back into the plasma membrane of progesterone-treated cells. Treatment with M beta CD reduced (P < 0.05) the responsiveness of SLCs to oxytocin and LLCs to PGF(2 alpha). Use of cholesterol-loaded M beta CD returned the responsiveness of both SLCs and LLCs treated with progesterone to that observed in vehicle (no progesterone)-treated controls. In summary, intraluteal concentrations of progesterone inhibit the ability of oxytocin to increase intracellular concentrations of calcium in SLCs and the ability of PGF(2 alpha) to increase intracellular concentrations of calcium in LLCs. The highest concentration of progesterone appears to act by influencing cholesterol content of the luteal cell membranes.

Published

2010

20. Biological and anatomical evidence for kisspeptin regulation of the hypothalamic-pituitary-gonadal axis of estrous horse mares.

Author

Magee C, Foradori CD, Bruemmer JE, Arreguin-Arevalo JA, McCue PM, Handa RJ, Squires EL, and Clay CM

Subjects

Animals, Estrous Cycle drug effects, Female, Follicle Stimulating Hormone blood, Gonadotropin-Releasing Hormone metabolism, Hypothalamo-Hypophyseal System drug effects, Hypothalamus cytology, Hypothalamus metabolism, Injections, Intravenous, Kisspeptins, Luteinizing Hormone blood, Models, Animal, Neurons metabolism, Oligopeptides administration & dosage, Ovary drug effects, Ovulation drug effects, Preoptic Area cytology, Preoptic Area metabolism, Reproduction physiology, Estrous Cycle physiology, Horses physiology, Hypothalamo-Hypophyseal System physiology, Oligopeptides physiology, Ovary physiology, Tumor Suppressor Proteins metabolism

Abstract

The purpose of the present study was to evaluate the effects of kisspeptin (KiSS) on LH and FSH secretion in the seasonally estrous mare and to examine the distribution and connectivity of GnRH and KiSS neurons in the equine preoptic area (POA) and hypothalamus. The diestrous mare has a threshold serum gonadotropin response to iv rodent KiSS decapeptide (rKP-10) administration between 1.0 and 500 microg. Administration of 500 microg and 1.0 mg rKP-10 elicited peak, mean, and area under the curve LH and FSH responses indistinguishable to that of 25 microg GnRH iv, although a single iv injection of 1.0 mg rKP-10 was insufficient to induce ovulation in the estrous mare. GnRH and KiSS-immunoreactive (ir) cells were identified in the POA and hypothalamus of the diestrous mare. In addition, KiSS-ir fibers were identified in close association with 33.7% of GnRH-ir soma, suggesting a direct action of KiSS on GnRH neurons in the mare. In conclusion, we are the first to reveal a physiological role for KiSS in the diestrous mare with direct anatomic evidence by demonstrating a threshold-like gonadotropin response to KiSS administration and characterizing KiSS and GnRH-ir in the POA and hypothalamus of the diestrous horse mare.

Published

2009

21. Collection and freezing of epididymal stallion sperm.

Author

Bruemmer JE

Subjects

Animals, Epididymis cytology, Male, Semen Preservation methods, Sperm Count veterinary, Spermatozoa cytology, Vas Deferens physiology, Breeding methods, Cryopreservation veterinary, Epididymis physiology, Horses physiology, Semen Preservation veterinary, Spermatozoa physiology

Abstract

The ability to harvest and preserve epididymal sperm from a stallion after simple elective castration, a catastrophic injury, or severe acute illness and subsequent death has been realized, allowing for the preservation of genetics that would have been lost otherwise.Currently, the care taken to collect the testes and epididymides properly, coupled with proper packaging and shipping, could make the greatest contribution to salvaging viable sperm. As advances in assisted reproductive techniques continue, more offspring may be obtained from stored epididymal sperm from valuable stallions.

Published

2006

22. Deslorelin on Day 8 or 12 postovulation does not luteinize follicles during an artificially maintained diestrous phase in the mare.

Author

Glazar BS, McCue PM, Bruemmer JE, and Squires EL

Subjects

Animals, Cloprostenol administration & dosage, Drug Implants, Estrus Synchronization methods, Female, Gonadotropin-Releasing Hormone agonists, Luteolysis drug effects, Ovulation, Progesterone blood, Trenbolone Acetate administration & dosage, Diestrus, Horses physiology, Luteinization drug effects, Ovarian Follicle drug effects, Trenbolone Acetate analogs & derivatives, Triptorelin Pamoate administration & dosage, Triptorelin Pamoate analogs & derivatives

Abstract

Practical estrus synchronization schemes are needed for mares. The Ovsynch synchronization protocol for cattle involves the administration of gonadotropin-releasing hormone (GnRH) to induce ovulation or luteinization of dominant follicles during the luteal phase and prostaglandin 7 days later to cause regression of any luteal tissue and development of a preovulatory follicle. An Ovsynch-type synchronization program potentially could be developed for horses if luteinization or ovulation of diestrous follicles occurred in response to GnRH treatment. The objective of this study was to determine if administration of the GnRH agonist, deslorelin acetate, on Day 8 or 12 postovulation would induce luteinization or ovulation of diestrous follicles in the mare. The model used was cycling mares maintained in an artificial luteal phase by administration of a synthetic progestin following prostaglandin-induced luteal regression. On the day of ovulation, 21 light horse mares were randomly assigned to one of three groups: (1) no GnRH, altrenogest from Days 5 to 15 postovulation with prostaglandin on Day 15; (2) GnRH on Day 8, altrenogest from Days 5 to 15 with prostaglandin given on Day 6 to induce luteolysis of the primary corpus luteum, an implant containing 2.1mg of deslorelin acetate inserted on Day 8 and removed on Day 10, with a second prostaglandin treatment on Day 15; (3) GnRH on Day 12, altrenogest from Days 9 to 19, prostaglandin on Day 10, a deslorelin acetate implant injected on Day 12 (subsequently removed on Day 14), and a second dose of prostaglandin administered on Day 19. Follicular development was monitored every other day from Day 5 until a 30-mm sized follicle was observed, and then daily to detection of ovulation. Serum progesterone concentrations were determined daily for 12 consecutive days. Progesterone concentrations in Group 1 remained elevated until approximately Day 12 postovulation. Prostaglandin administration on Day 15 resulted in complete luteolysis in all seven mares. In Group 2, progesterone concentrations in six of seven mares declined to baseline after prostaglandin treatment. No increase in serum progesterone was noted in any of the six mares that were given GnRH on Day 8, including three mares that had diestrous follicles > or =30mm in diameter at the time of treatment. Similarly, progesterone concentrations in six of seven mares in Group 3 declined to baseline after prostaglandin and there was no increase in progesterone after administration of GnRH on Day 12. No ultrasound evidence of luteinization or ovulation of diestrous follicles were noted after GnRH administration in any mares of Group 2 or 3. In conclusion, administration of the GnRH agonist deslorelin acetate to mares failed to induce luteinization or ovulation of diestrous follicles. Consequently, the Ovsynch program (as used in cattle) has little efficacy for synchronization of estrus in mares.

Published

2004

23. Uterine involution, day and variance of first postpartum ovulation in mares treated with progesterone and estradiol-17beta for 1 or 2 days postpartum.

Author

Bruemmer JE, Brady HA, and Blanchard TL

Subjects

Animals, Female, Pregnancy, Time Factors, Uterus anatomy & histology, Uterus drug effects, Estradiol administration & dosage, Horses physiology, Ovulation, Postpartum Period, Progesterone administration & dosage, Uterus physiology

Abstract

The effects of a single or double regimen of exogenous progesterone and estradiol-17beta (P/E, total dose 300 mg P/20 mg E) were investigated in 50 postparturient Quarter Horse mares. In Trial 1, at 1 and 24 h after foaling, mares were injected with progesterone (150 mg) and estradiol-17beta (10 mg) (n = 7) or 0.9% NaCl (control, n = 13). In Trial 2, within 12 h after foaling, mares were injected with progesterone (300 mg) and estradiol-17beta (20 mg) (n = 13) or 0.9% NaCl (control, n = 17). Mares were examined daily by palpation per rectum and transrectal ultrasonography to determine the day of ovulation. The largest cross sectional diameters of each uterine horn and uterine body were measured ultrasonographically on Day 15 postpartum. Mean uterine diameters did not differ between treatment groups (P > 0.05) in Trial 1, Trial 2 or for combined data for both Trials 1 and 2. For mares bred on the first postpartum estrus pregnancy rates did not differ (P > 0.05) between treatment groups (16/18, 89%) and controls (22/30, 81%) nor was there a difference in mean day to first postpartum ovulation (P > 0.05) between treated and control groups in Trial 1, Trial 2 or Trials 1 and 2 combined. However, fewer (P < 0.05) total P/E treated mares (0/20) ovulated prior to Day 10 postpartum than did control mares (6/30). Variance in days to ovulation was lower (P < 0.05) for P/E treated mares (var = 3.73 days) than for control mares (var = 7.64 days) for data combined from Trials 1 and 2.

Published

2002