The role of equine seminal plasma derived cysteine rich secretory protein 3 (CRISP3) in the interaction between polymorphonuclear neutrophils (PMNs) and populations of viable or dead spermatozoa, and bacteria.

Breeding-induced endometritis is a physiological reaction to clear the uterus from excess spermatozoa and bacteria after breeding. Cysteine rich secretory protein 3 in seminal plasma (spCRISP3) protects spermatozoa from binding and destruction by uterine PMNs, but it is not clear if this involves all sperm and bacteria, or if it is selective to a sub-population of live sperm. The objective of this report was to determine if spCRISP3 (1) is selective in its suppression of PMN-binding to sperm based on viability of spermatozoa, (2) protects bacteria from binding to PMNs, and (3) to determine the localization pattern of spCRISP3 on viable and dead sperm. Semen was collected from five stallions and each ejaculate was divided into (1) live and (2) snap frozen (dead) sperm. Two distinct sperm populations were confirmed by DNA fragmentation and membrane integrity assays. CRISP3 was purified from pooled seminal plasma, and binding of PMNs (isolated from peripheral blood) to the two sperm populations and E. coli was evaluated with flow cytometry in the presence of spCRISP3. In addition, localization of spCRISP3 on live and dead spermatozoa was determined by immunocytochemistry. Comparisons between treatments were analyzed using a one-way-ANOVA and Bonferroni's comparison test, or Kruskal-Wallis ANOVA if not normally distributed. spCRISP3 significantly suppressed binding of PMNs to live spermatozoa (p < 0.0001) but had no effect on dead sperm or bacteria (p > 0.05). Immunocytochemistry confirmed binding of spCRISP3 to live, but not dead spermatozoa. It was concluded that a selective interaction between spCRISP3 and live spermatozoa may be part of a biological mechanism that allows safe transport of viable spermatozoa to the oviducts, while enabling dead spermatozoa and bacteria to be eliminated in a timely fashion after breeding.

Tumor necrosis factor signaling during equine placental infection leads to pro-apoptotic and necroptotic outcomes.

Ascending placentitis is the leading cause of abortion in the horse. The pleiotropic cytokine tumor necrosis factor (TNF) is an upstream regulator of this disease, but little is understood regarding its function in pregnancy maintenance or placental infection. To assess this, RNA sequencing was performed on chorioallantois and endometrium of healthy pregnant mares at various gestational lengths (n = 4/gestational age), in addition to postpartum chorioallantois, and diestrus endometrium to assess expression of TNF, TNFR-1, and TNFR-2. Additionally, ascending placentitis was induced via trans-cervical inoculation of S. equi spp. zooepidemicus in pregnant mares (n = 6 infected / n = 6 control) and tissues and serum were collected to evaluate TNF-related transcripts. IHC was performed to confirm protein localization of TNFR-1 and TNFR-2. In healthy pregnancy, TNFR-1 appears to be the predominant TNF-related receptor. Following induction of disease, TNF concentrations increased in maternal serum, but expression did not alter at the tissue level. While both TNFR-1 and TNFR-2 increased following induction of disease, alterations in downstream pathways indicate that TNFR-1 is the dominant receptor in ascending placentitis, and is primarily activated within the chorioallantois, with minimal signaling occurring within the endometrium. In conclusion, TNF appears to be involved in the pathophysiology of ascending placentitis. An increase in this cytokine during disease progression is believed to activate TNFR-1 within the chorioallantois, leading to various pro-apoptotic and necroptotic outcomes, all of which may signal for fetal demise and impending abortion.

Interleukin-6 pathobiology in equine placental infection.

PROBLEM: Ascending placentitis is the leading cause of abortion in the horse. Interleukin (IL)-6 is considered predictive of placental infection in other species, but little is understood regarding its role in the pathophysiology of ascending placentitis. METHOD OF STUDY: Sub-acute ascending placentitis was induced via trans-cervical inoculation of S zooepidemicus, and various fluids/serum/tissues collected 8 days later. Concentrations of IL-6 were detected within fetal fluids and serum in inoculated (n = 6) and control (n = 6) mares. RNASeq was performed on the placenta (endometrium and chorioallantois) to assess transcripts relating to IL-6 pathways. IHC was performed for immunolocalization of IL-6 receptor (IL-6R) in the placenta. RESULTS: IL-6 concentrations increased in allantoic fluid following inoculation, with a trend toward an increase in amniotic fluid. Maternal serum IL-6 was increased in inoculated animals, while no changes were noted in fetal serum. mRNA expression of IL-6-related transcripts within the chorioallantois indicates that IL-6 is activating the classical JAK/STAT pathway, thereby acting as anti-inflammatory, anti-apoptotic, and pro-survival. The IL-6R was expressed within the chorioallantois, indicating a paracrine signaling pathway of maternal IL-6 to fetal IL-6R. CONCLUSION: IL-6 plays a crucial role in the placental response to induction of sub-acute equine ascending placentitis, and this could be noted in amniotic fluid, allantoic fluid, and maternal serum. Additionally, IL-6 is acting as anti-inflammatory in this disease, potentially altering disease progression, impeding abortion signals, and assisting with the production of a viable neonate.

The Effect of Mycobacterium Cell Wall Fraction on Histologic, Immunologic, and Clinical Parameters of Postpartum Involution in the Mare.

Maintaining yearly foal production is important for the economic success of the broodmare, and this requires breeding to occur as quickly postpartum as possible. The initial postpartum estrus occurs within 5-20 days postpartum, whereas the uterus is still undergoing repair from tissue alterations during pregnancy and parturition, a process known as involution. Attempts have been made to hasten this process, but with minimal success. Mycobacterium cell wall fraction (MCWF) is an immunomodulator that has been shown to reduce bacterial growth and alter aspects of the immune response to breeding, but it is unknown if MCWF hastens the process of involution. Therefore, the objectives of this study were to (1) investigate the effect of MCWF on tissue remodeling, (2) assess the effect of MCWF on the local immune system of the uterus, and (3) determine the optimal treatment interval needed for these processes to occur. We hypothesize that repeated treatments of MCWF postpartum will hasten the process of involution. To study this, 16 pregnant mares of mixed breeds were evaluated postpartum. Control mares (n = 4) received 1.5 mL lactated Ringer's solution intravenously on Day 1 (Day 0 = day of parturition) postpartum and again on Day 7, whereas treated mares either received 1.5 mL Settle intravenously on Day 1 and Day 7 (TX1; n = 6) or 1.5 mL Settle intravenously on Day 1 and then every 3 days until ovulation was detected (TX2; n = 6) and then evaluated until 15 days postpartum. Mares were assessed every 3 days for clinical, immunologic, and histologic parameters. Clinical parameters were assessed with transrectal ultrasonography and included ovarian activity, uterine fluid retention, and measurement of the uterine diameter, in addition to endometrial culture. Immunologic parameters included endometrial biopsies for quantitative polymerase chain reaction for expression of various cytokines (interleukin [IL]-1ß, IL-1RN, IL-4, IL-6, IL-8, IL-10, tumor necrosis factor [TNF], interferon [IFN]-γ, and granulocyte-macrophage colony-stimulating factor) in addition to endometrial cytology. Formalin-fixed endometrial biopsies were histologically assessed for the retention of microcaruncles, dilation of endometrial glands, and inflammation of the mucosa, stratum compactum, and spongiosum. Statistics were performed using SAS 9.4, using a mixed model for repeated measures with mare and treatment as a random effect. All post-hoc analysis was done using a Tukey's honestly significant difference test. Involution was considered complete by Day 15 postpartum in all mares, and the day postpartum had a significant effect on almost all parameters investigated, indicating the immunologic process of involution. Treatment with MCWF decreased the magnitude of bacterial growth in addition to time to negative culture. In addition, MCWF increased the expression of IL-1ß, IFNγ, and TNF. Although minimal treatment effect was noted histologically, a decrease in mucosal inflammation was seen in MCWF-treated mares. In conclusion, involution appears to be influenced by the immune system. In addition, MCWF appears to have a bactericidal effect on the postpartum mare, and this may be because of an increase in proinflammatory cytokines. It is unknown if this bactericidal property will improve fertility on the first estrous cycle postpartum, and future studies are needed to determine this.

Alteration of the mare's immune system by the synthetic progestin, altrenogest.

PROBLEM: Progestins are immunomodulatory in a variety of species. In the horse, the most commonly administered synthetic progestin is altrenogest (ALT), but its effect on the immune system of the non-pregnant mare is unknown. METHODS: Peripheral blood mononuclear cells (PBMCs) from diestrous mares were incubated with varying concentrations of progesterone (P4) or ALT to assess intracellular production of IFNγ and the expression of select cytokines. Additionally, ten mares received either ALT or VEH daily utilizing a switchback design beginning on the day of ovulation and continuing for 7 days. Circulating PBMCs and endometrial biopsies were obtained to assess the production and expression of the same cytokines. RESULTS: In vitro, both P4 and ALT caused a dose-dependent decrease in intracellular IFNγ in PBMCs. P4 caused a dose-dependent decrease in the expression of IFNγ, IL-10 and IL-4, while ALT caused an increase in the expression of IL-6 and IL-1ß in PBMCs. In vivo, ALT suppressed the intracellular levels of IFNγ in PBMCs on d6. While control mares experienced a decrease in IL-1ß expression from d0 to d6, ALT-treated mares did not. In the endometrium, ALT increased the expression of IL-1RN and IFNγ in comparison with VEH-treated mares. CONCLUSION: P4 and ALT appear to alter the immune system of the non-pregnant mare both systemically in addition to locally within the endometrium. Further research is necessary to determine the pathways through which this synthetic progestin functions on the immune system of the horse, and the consequences it may have.

Small RNA (sRNA) expression in the chorioallantois, endometrium and serum of mares following experimental induction of placentitis.

Intrauterine infection and inflammation remain a major cause of preterm labour in women and mares, with little known about small RNA (sRNA) expression in tissue or circulation. To better characterise placental inflammation (placentitis), we examined sRNA expression in the endometrium, chorioallantois and serum of mares with and without placentitis. Disease was induced in 10 mares via intracervical inoculation of Streptococcus equi ssp. zooepidemicus, either with moderate or high levels of inoculum; three uninoculated gestationally matched mares were used as controls. Matched chorioallantois and endometrium were sampled in two locations: Region 1, gross inflammation near cervical star with placental separation and Region 2, gross inflammation without placental separation. In Region 1, 26 sRNAs were altered in chorioallantois, while 20 were altered in endometrium. Within Region 2, changes were more subdued in both chorioallantois (10 sRNAs) and endometrium (two sRNAs). Within serum, we identified nine significantly altered sRNAs. In summary, we have characterised the expression of sRNA in the chorioallantois, the endometrium and the serum of mares with experimentally induced placentitis using next-generation sequencing, identifying significant changes within each tissue examined. These data should provide valuable information about the physiology of placental inflammation to clinicians and researchers alike.

Endocrine changes, fetal growth, and uterine artery hemodynamics after chronic estrogen suppression during the last trimester of equine pregnancy.

Equine pregnancy is characterized by very high circulating concentrations of estrogens. The physiological roles of estrogens during equine gestation are largely unknown, although some studies suggest a role in the regulation of uterine artery hemodynamics and a relationship between low circulating estrogen concentrations and late pregnancy loss. The objectives of this experiment were to evaluate the effects of estrogen suppression on uterine artery hemodynamics and on pregnancy outcome. Estrogen synthesis was suppressed using letrozole, a potent aromatase inhibitor. Twelve pregnant mares were randomly assigned to a control (n = 6) or treatment (n = 6; 500 mg letrozole orally every 4 days) group with treatment starting at 240 days of gestation and continuing until parturition. Weekly serum samples were analyzed to determine testosterone, dehydroepiandrosterone sulfate, estradiol, estrone sulfate, progestins, and prostaglandin F2α metabolite concentrations. Ultrasonographic examinations were performed biweekly and measurements included uterine artery hemodynamics (diameter, pulsatility, and resistance indices), fetal growth using the diameter of the fetal eye, and placental evaluation using the combined thickness of the uterus and placenta. At parturition, gestational length, foal weight, and neonatal viability were determined. Letrozole suppressed estrogen synthesis during gestation by approximately 90% compared to control values. This large reduction in circulating estrogens had no effect on uterine artery hemodynamics, normal placental development, maintenance of pregnancy, or neonatal viability. However, neonates from letrozole-treated mares had lower (P < 0.05) birth weights than controls, suggesting that estrogens may play a role in fetal growth that is not mediated through regulation of uterine blood flow.

Induction of ovulation in seasonally anestrous mares under ambient lights using recombinant equine FSH (reFSH).

Traditionally, mares are put under artificial lights to advance the first ovulation of the year. The aim of the present study was to determine the efficacy of recombinant equine FSH (reFSH) in stimulating follicular development and advancing the first ovulation of the year in seasonally anestrous mares compared with anestrous mares given a placebo. Both groups of mares were housed under ambient light conditions. Sixty deep anestrous mares of light horse breeds (follicular diameters ≤ 20 mm in diameter and progesterone <1 ng/mL) were maintained under a natural photoperiod at three different sites: University of California, Davis, Colorado State University, and University of Kentucky Gluck Centre. Twenty mares at each site were randomly allocated to receive either 0.65 mg of reFSH (group A: treatment; n = 10) or a placebo (group B: control; n = 10) twice daily by im beginning on January 31. Treatment continued until one or more preovulatory follicles developed or up to a maximum of 15 days. Randomized treatments were blinded. Follicular development was closely monitored by transrectal ultrasonography. When the largest follicle reached ≥ 35 mm in diameter, reFSH treatment was discontinued and an injection of 2500 international units of hCG was administered iv 36 hours later to induce ovulation. Jugular blood samples were collected daily from all mares at University of California, Davis, and processed for LH, FSH, progesterone, estradiol-17ß, and immunoreactive-inhibin by RIA. All 30 mares receiving reFSH (group A) developed follicles ≥ 35 mm within 7.4 ± 1.6 days of treatment. Twenty-three of the 30 reFSH-treated mares (group A) ovulated within 72 hours after hCG administration. In contrast, mares in group B (placebo, control) did not exhibit significant follicular development and none ovulated within the 15-day observation period. Mares in group A had significantly higher plasma levels of FSH, estradiol-17ß, and immunoreactive-inhibin during treatment but did not exhibit a preovulatory LH surge. Mares administered reFSH returned to anestrus and spontaneously ovulated at a similar calendar date as control mares. These data indicate that reFSH was effective in stimulating the development of ovarian follicles and advancing the first ovulation of the year in seasonally anestrous mares under ambient lights but was not successful in inducing continued cyclicity.

Transcriptional profiling of equine conceptuses reveals new aspects of embryo-maternal communication in the horse.

Establishment and maintenance of pregnancy are critically dependent on embryo-maternal communication during the preimplantation period. The horse is one of the few domestic species in which the conceptus-derived pregnancy recognition signal has not been identified. To gain new insights into the factors released by the equine conceptus, transcriptional profiling analyses of conceptuses retrieved 8, 10, 12, and 14 days after ovulation were performed using a whole-genome microarray. Selected array data were confirmed using quantitative PCR, and the expression of proteins of interest was confirmed using immunohistochemistry and Western blotting. Gene ontology classification of differentially regulated transcripts underlines the ongoing embryo-maternal dialogue. Transcript showing higher expression levels as conceptus' development proceeds mainly localizes to the extracellular environment, thereby having the potential to act upon the uterine environment. Genes involved in the positive regulation of the immune system are enriched among transcripts displaying decreased expression, reflecting the need of the semiallograft conceptus to be protected from the immune system. A subset of differentially expressed genes, such as BRCA1 and FGF2, has previously been described to be expressed by early stages of embryonic development, whereas other transcripts are apparently unique to equine conceptuses, as their expression has not been reported in other species. These transcripts include fibrinogen subunits, the expressions of which were confirmed at the mRNA and protein level. Furthermore, results indicate the counteraction of trophoblast invasion, and that the conceptus appears to regulate changes in sialic acid content of its capsule, an event suggested to be essential for successful establishment of pregnancy.

Transcriptional profiling of equine endometrium during the time of maternal recognition of pregnancy.

Establishment and maintenance of pregnancy are critically dependent on embryo-maternal communication during the preimplantation period. To gain new insights into this complex process in the horse, transcriptional profiling of Day 13.5 pregnant and cyclic endometrial tissue samples was carried out using custom-designed microarrays. Selected array data were validated using quantitative RT-PCR, and proteins of interest were localized using immunohistochemistry. One hundred and six transcripts were up-regulated, whereas 47 transcripts showed lower expression levels in pregnant mares, that is, were down-regulated in pregnant mares. Half of the genes with known or inferred function are classically regulated by estrogens. Elevated transcript levels were found for genes involved in cell-cell signaling, heat shock response, and secretory proteins, among others. Solute carrier family 36 (proton/amino acid symporter), member 2, SLC36A2, was one of the most highly up-regulated genes, potentially reflecting the nutritional needs of the rapidly developing embryo. Among the genes showing lower expression in pregnant mares, estrogen receptor 1 was of particular interest because of its potential involvement in the initiation of luteolysis in cyclic mares. We hypothesize that either conceptus' estrogens or luteinizing hormone of uterine origin is involved in the observed down-regulation of estrogen receptor 1. Several of the genes identified in the current study are known to play a role in early pregnancy in species other than the horse. Thus, products of these commonly expressed genes likely contain universal activities for controlling endometrial receptivity to the conceptus, whereas other factors play unique roles within specific species in ensuring ongoing corpus luteum function. This is the first systematic study of endometrial transcriptome changes in response to the presence of an embryo during maternal recognition of pregnancy and an important step toward deciphering the embryo-maternal dialogue in equids.