Changes in calcium levels in the endometrium throughout pregnancy and the role of calcium on endometrial gene expression at the time of conceptus implantation in pigs

Calcium plays an essential role in regulating many cellular functions, including proliferation, differentiation, and apoptosis. In spite of its importance in the establishment and maintenance of pregnancy, changes in calcium levels at the maternal–conceptus interface during pregnancy and its action on endometrial gene expression are not well understood. Thus, we examined changes in calcium levels in the endometrium during pregnancy, calcium deposition at the maternal–conceptus interface during pregnancy, and the role of calcium on the expression of endometrial genes related to conceptus implantation during early pregnancy in pigs. The amounts of endometrial calcium increased during mid‐ to late pregnancy, and calcium deposition was mainly localized to endometrial and chorionic epithelial cells at the maternal–conceptus interface during pregnancy and conceptus tissues during early pregnancy. The amounts of total recoverable calcium in uterine flushings were greater on Day 12 of pregnancy than Day 12 of the estrous cycle, and estrogen increased absorption of calcium ions by endometrial tissues. Increasing endometrial calcium levels by treatment with A23187, a calcium ionophore, decreased the expression of the estrogen‐responsive endometrial genes AKR1B1, ESR1, FGF7, IL1RAP, LPAR3, S100G, SPP1, and STC1 and increased the expression of genes related to prostaglandin synthesis and transport, namely PTGES, PTGS2, and SLCO5A1. These data suggest that calcium ions at the maternal–conceptus interface play a critical role in the establishment and maintenance of pregnancy in pigs by regulating the expression of endometrial genes involved in conceptus implantation, as well as the attachment of endometrial epithelial and conceptus trophectoderm/chorionic epithelial cells during pregnancy.     

Prostaglandin H synthase Type 2 is differentially expressed in endometrium based on pregnancy status in pony mares and responds to oxytocin and conceptus secretions in explant culture

The equine embryo must signal its presence to the uterus for pregnancy to continue to term. Mobility of the conceptus throughout the uterus is crucial for its survival, and this action presumably permits the conceptus to transmit its antiluteolytic signal to the endometrium. Studies were completed to establish whether this unidentified antiluteolytic signal targets prostaglandin G/H synthase 2 (PGHS2), a rate limiting enzyme in converting arachidonic acid to prostaglandins (PGs). In the first study, quantitative RT-PCR was used to determine the relative abundance of PGHS2 mRNA in endometrium derived from estrous cyclic and pregnant mares on day 14 post-ovulation. PGHS2 mRNA abundance was substantially greater in endometrium from estrous cyclic mares. Additional studies were completed to better understand PGHS2 in equine endometrium. An estrogen and progesterone treatment regimen in ovariectomized mares was developed as a test model for detecting endometrial PGHS2 mRNA. Also, exposing endometrial explants to conceptus secretions (conditioned culture medium) decreased PGHS2 mRNA abundance whereas exposing explants to oxytocin increased PGHS2 mRNA abundance. Exposure to conceptus secretions also decreased PGF2α concentrations in explant-conditioned medium whereas oxytocin supplementation increased PGF2α concentrations in medium. These data support the hypothesis that PGHS2 is a target for the antiluteolytic signal produced by equine conceptuses during early pregnancy. Also, the endometrial explant culture system used for these studies can serve as a model for identifying and characterizing the maternal recognition of pregnancy factor in equids.     

Uterine vein prostaglandin levels in late pregnant dogs

We studied the uterine venous plasma concentrations of prostaglandins E₂, F_2α, 15 keto 13,14 dihydro E₂ and 15 keto 13,14 dihydro F_2α in late pregnant dogs in order to evaluate the rates of production and metabolism of prostaglandin E₂ and F_2α in pregnancy $\text{in vivo}$. We used a very specific and sensitive gas chromatography-mass spectrometry assay to measure these prostaglandins. The uterine venous concentrations of prostaglandin E₂ and 15 keto 13,14 dihydro E₂ were 1.35±.27 ng/ml and 1.89±.37 ng/ml, respectively; however, we could not find any prostaglandin F_2α and very little of its plasma metabolite in uterine venous plasma. Since uterine microsomes can generate prostaglandin F_2α and E₂ from endoperoxides, prostaglandin F_2α production $\text{in vivo}$ must be regulated through an enzymatic step after endoperoxide formation. Prostaglandin E₂ is produced by pregnant canine uterus in quantities high enough to have a biological effect in late pregnancy; however, prostaglandin F_2α does not appear to play a role at this stage of pregnancy.     

Immunohistochemical localisation of progesterone and oestrogen receptors at the placental interface in mares during early pregnancy

Previous reports documenting progesterone receptors (PR) and oestrogen receptors (ER) in the endometrium of early pregnant mares included specimens only up to Day 20 post ovulation. This study aimed to localise PR and ERα on equine feto-maternal tissues between Days 20 and 68 to encompass the period around fixation of the conceptus, development of the endometrial cups and attachment and initial interdigitation of the allantochorion. During early pregnancy mares had the same pattern of PR in the endometrium as that reported for other mammals; namely, a loss of PR from the endometrial epithelia but continued localisation in stromal cells. The spatial arrangement of ERα over the same time period showed cytoplasmic staining of endometrial epithelia and in the nuclei of occasional stromal cells. In the fetal tissues, no cells had PR although ERα was evident in some tissue compartments. No major change in localisation of either receptor was noted throughout the time period examined despite important changes occurring at the placental interface. Nevertheless, these steroid receptor molecules probably play important roles in the production of histotroph and growth factors by the endometrium which go on to stimulate differentiation and growth of the feto-maternal tissues.     

Regulation of prostacyclin synthase expression and prostacyclin content in the pig endometrium

Prostaglandins (PGs) are critical regulators of a number of reproductive processes, including embryo development and implantation. In the present study, prostacyclin (PGI₂) synthase (PGIS) mRNA and protein expression, as well as 6-keto PGF_1α (a PGI₂ metabolite) concentration, were investigated in the pig uterus. Endometrial tissue and uterine luminal flushings were obtained on Days 4 to 18 of the estrous cycle and pregnancy. Additionally, conceptuses were collected and examined for PGIS mRNA expression and 6-keto PGF_1α concentration. Regulation of PGI₂ synthesis in the porcine endometrium by steroids, conceptus products, and cytokines was studied in vitro and/or in vivo. Endometrial PGIS protein level increased on Days 12 and 16 in pregnant but not in cyclic gilts. Moreover, higher PGIS protein expression on Day 12 of pregnancy was accompanied by a greater content of 6-keto PGF_1α in the endometrium. The concentration of 6-keto PGF_1α in uterine luminal flushings increased substantially on Days 16 and 18 in pregnant gilts and was higher than in cyclic animals. Greater PGIS mRNA expression and PGI₂ metabolite concentration were detected in Day 12 and 14 conceptuses, respectively. Incubation of endometrial explants with conceptus-conditioned medium resulted in upregulation of PGIS protein expression and increased PGI₂ secretion. Moreover, PGIS mRNA and protein expression were upregulated in the endometrium collected from gravid uterine horn on Day 14 of pregnancy. In summary, PGIS is differentially expressed in the endometrium of cyclic and pregnant gilts resulting in higher PGI₂ synthesis in pregnant animals. Porcine conceptuses are important regulators of endometrial PGIS expression and PGI₂ release during the implantation period.     

Changes in vascular perfusion of the endometrium in association with changes in location of the embryonic vesicle in mares

The equine embryonic vesicle is mobile on Days 12-14 (Day 0 = ovulation), when it is approximately 9-15 mm in diameter. Movement from one uterine horn to another occurs, on average, approximately 0.5 times per hour. Mobility ceases (fixation) on Days 15-17. Transrectal color Doppler ultrasonography was used to study the relationship of embryo mobility (experiment 1) and fixation (experiment 2) to endometrial vascular perfusion. In experiment 1, mares were bred and examined daily from Day 1 to Day 16 and were assigned, retrospectively, to a group in which an embryo was detected (pregnant mares; n = 16) or not detected (n = 8) by Day 12. Endometrial vascularity (scored 1-4, for none to maximal, respectively) did not differ on Days 1-8 between groups or between the sides with and without the corpus luteum. Endometrial vascularity scores were higher (P < 0.05) on Days 12-16 in both horns of pregnant mares compared to mares with no embryo. In pregnant mares, the scores increased (P < 0.05) between Day 10 and Day 12 in the horn with the embryo and were higher (P < 0.05) than scores in the opposite horn on Days 12-15. In experiment 2, 14 pregnant mares were examined from Day 13 to 6 days after fixation. Endometrial vascularity scores and number of colored pixels per cross-section of endometrium were greater (P < 0.05) in the endometrium surrounding the fixed vesicle than in the middle portion of the horn of fixation. Results supported the hypothesis that transient changes in endometrial vascular perfusion accompany the embryonic vesicle as the vesicle changes location during embryo mobility.     

Influences of treatment of early pregnant mares with the progestin altrenogest on embryonic development and gene expression in the endometrium and conceptus

A positive influence of altrenogest treatment on a retarded development of the conceptus around the beginning of placentation in mares older than 8 years could be recently demonstrated. In the present study, effects of altrenogest treatment in early-pregnant mares on conceptus development and expression of endometrial and embryonic genes were investigated. Genes were chosen according to a possible involvement in embryo-maternal interaction and embryonic development in the equine species. Mares were treated with altrenogest (0.044 mg/kg bodyweight) or sunflower oil (placebo) from day 5 to 11 after ovulation. Embryos (altrenogest n = 13, placebo n = 12) and biopsies were collected on day 11. Pregnancy rate and embryonic size were not influenced by treatment (embryonic diameter: altrenogest 7.0 ± 2.5, placebo 6.5 ± 1.7 mm, n.s.). The percentage of luminal epithelial cells, superficial glandular epithelial cells and interstitial cells with nuclei staining positively for the progesterone receptor was significantly lower (P < 0.05) in samples collected from altrenogest-treated than from placebo-treated mares (e.g., luminal epithelium: altrenogest 1.9 ± 1.7%, placebo 23.0 ± 10.5%, P < 0.05). Staining for COX2 (cyclooxygenase-2) was not affected by treatment. In the endometrium a slight but significant increase in the number of PMN (polymorph nuclear neutrophils) was seen in response to treatment (altrenogest 0.8 ± 0.5 PMN/field, placebo 0.3 ± 0.3 PMN/field; P < 0.05). No differences in the relative gene expression of COX2, the receptors for progesterone, estrogens and growth hormone as well as for IGF (insulin-like growth factor) 1 and 2 were detected. The relative gene expression of aquaporin 3 in relation to β-actin differed significantly (P < 0.05) between embryos from altrenogest (3.2 ± 0.8) and placebo-treated mares (1.3 ± 0.2), but no other genes were affected. The study demonstrates down-regulation of progesterone receptors in the endometrium of early pregnant mares by treatment with the progestin altrenogest. This increased expression of aquaporin 3 in the conceptus was not related to changes in embryonic size or development.     

Prostaglandin‐endoperoxide synthase 2 is not required for preimplantation ovine conceptus development in sheep

Conceptus development and elongation is required for successful pregnancy establishment in ruminants and is coincident with the production of interferon τ (IFNT) and prostaglandins (PGs). In both the conceptus trophectoderm and endometrium, PGs are primarily synthesized through a prostaglandin‐endoperoxide synthase 2 (PTGS2) pathway and modify endometrial gene expression and thus histotroph composition in the uterine lumen to promote conceptus growth and survival. Chemical inhibition of PG production by both the endometrium and the conceptus prevented elongation in sheep. However, the contributions of conceptus‐derived PGs to preimplantation conceptus development remain unclear. In this study, CRISPR‐Cas9 genome editing was used to inactivate PTGS2 in ovine embryos to determine the role of PTGS2‐derived PGs in conceptus development and elongation. PTGS2 edited conceptuses produced fewer PGs, but secreted similar amounts of IFNT to their Cas9 control counterparts and elongated normally. Expression of PTGS1 was lower in PTGS2 edited conceptuses, but PPARG expression and IFNT secretion were unaffected. Content of PGs in the uterine lumen was similar as was gene expression in the endometrium of ewes who received either Cas9 control or PTGS2 edited conceptuses. These results support the idea that intrinsic PTGS2‐derived PGs are not required for preimplantation embryo or conceptus survival and development in sheep.     

Prostaglandin production by horse embryos and the effect of co-culture of embryos with endometrium from pregnant mares

Embryos, endometrial biopsies, and uterine lavage fluid were collected from pregnant and non-pregnant mares 14 days after ovulation. Embryos were cultured for 20.5 h with and without endometrial tissue from pregnant mares, and endometrial tissue was cultured alone. Endometrial content of PGF tended to be higher (P = 0.06) in non-pregnant than in pregnant mares, but the amount of PGF released from tissue during culture was similar for pregnant and non-pregnant mares. Lavage fluid from non-pregnant mares also tended (P = 0.08) to contain higher concentrations of PGF. Coincubation of embryos with endometrium from pregnant mares significantly (P = 0.01) lowered concentrations of PGF in medium. Tissue concentrations and release of PGE-2 and 6-keto-PGF-1 alpha were similar in endometrial samples from pregnant and non-pregnant mares and prostaglandin production was unaffected by the presence of an embryo during incubation. Horse embryos released all three prostaglandins during a 20.5-h incubation.     

Estrus synchronization affects WNT signaling in the porcine reproductive tract and embryos

The purpose of the study was to investigate an effect of estrus synchronization with prostaglandin (PG) F_2α and PMSG/hCG on WNT4, WNT5A, WNT7A, β-catenin (CTNNB1) and E-cadherin (CDH1) gene expression. The weight of the uterus, morphometrical parameters of the endometrium and the number of CL were recorded. The analysis of estradiol (E₂), prostaglandin (PG) F_2α and E₂ content in the uterine luminal flushings (ULFs) and progesterone (P₄) level in the blood serum were conducted. RNA was isolated from endometrial, luteal and embryonic tissue of pregnant non-synchronized (Control; n = 15) and pregnant synchronized (PGF_2α/PMSG/hCG; n = 15) pigs. Whereas there was no change in uterine weight, differences in height of endometrial surface and glandular epithelium were found. However, height of the endometrium, number of the glands and capillaries were unaffected. The total number of the CLs was higher (P < 0.05) in animals treated with PGF_2α/PMSG/hCG. The amount of E₂ and P₄ was lower (P < 0.05, P < 0.001, respectively) in pregnant gilts administrated with PGF_2α/PMSG/hCG. The concentration of PGF_2α in ULFs was not affected by hormonal management, while PGE₂ was higher (P < 0.01) in hormonally in comparison to non-hormonally treated pigs. The content of WNT4 mRNA in conceptuses increased on particular Days studied in Control and PGF_2α/PMSG/hCG administered animals. WNT7A and CTNNB1 were affected by PGF_2α/PMSG/hCG treatment in both conceptuses (P < 0.001, P < 0.05) and endometrial tissue (P < 0.001, P < 0.01). The PGF_2α/PMSG/hCG treatment resulted in elevated expression of WNT4 (P < 0.001) and CTNNB1 (P < 0.05) in luteal tissue in comparison to the Control gilts. Moreover, luteal amount of WNT5A mRNA was higher in PGF_2α/PMSG/hCG animals in comparison to the Control group (P < 0.05). Presented data show that exogenous hormones administration can affect gene expression in the porcine reproductive tract and embryo.     

Estrus synchronization affects WNT signaling in the porcine reproductive tract and embryos

The purpose of the study was to investigate an effect of estrus synchronization with prostaglandin (PG) F_2α and PMSG/hCG on WNT4, WNT5A, WNT7A, β-catenin (CTNNB1) and E-cadherin (CDH1) gene expression. The weight of the uterus, morphometrical parameters of the endometrium and the number of CL were recorded. The analysis of estradiol (E₂), prostaglandin (PG) F_2α and E₂ content in the uterine luminal flushings (ULFs) and progesterone (P₄) level in the blood serum were conducted. RNA was isolated from endometrial, luteal and embryonic tissue of pregnant non-synchronized (Control; n = 15) and pregnant synchronized (PGF_2α/PMSG/hCG; n = 15) pigs. Whereas there was no change in uterine weight, differences in height of endometrial surface and glandular epithelium were found. However, height of the endometrium, number of the glands and capillaries were unaffected. The total number of the CLs was higher (P < 0.05) in animals treated with PGF_2α/PMSG/hCG. The amount of E₂ and P₄ was lower (P < 0.05, P < 0.001, respectively) in pregnant gilts administrated with PGF_2α/PMSG/hCG. The concentration of PGF_2α in ULFs was not affected by hormonal management, while PGE₂ was higher (P < 0.01) in hormonally in comparison to non-hormonally treated pigs. The content of WNT4 mRNA in conceptuses increased on particular Days studied in Control and PGF_2α/PMSG/hCG administered animals. WNT7A and CTNNB1 were affected by PGF_2α/PMSG/hCG treatment in both conceptuses (P < 0.001, P < 0.05) and endometrial tissue (P < 0.001, P < 0.01). The PGF_2α/PMSG/hCG treatment resulted in elevated expression of WNT4 (P < 0.001) and CTNNB1 (P < 0.05) in luteal tissue in comparison to the Control gilts. Moreover, luteal amount of WNT5A mRNA was higher in PGF_2α/PMSG/hCG animals in comparison to the Control group (P < 0.05). Presented data show that exogenous hormones administration can affect gene expression in the porcine reproductive tract and embryo.     

Factors controlling epidermal growth factor (EGF) gene expression in the endometrium of the mare

Previous studies showed a dramatic increase in EGF gene expression in the endometrial glands of pregnant mares around day 40 after ovulation. To investigate how the steroid hormones of pregnancy might regulate this expression, in situ hybridization was used to monitor the levels of EGF mRNA in endometrial biopsies obtained from seasonally anoestrous or ovariectomised mares given exogenous progesterone and oestrogen, alone or in combination, for up to 46 days. Biopsies were also taken from mares during the non‐pregnant cycle, during normal pregnancies and pregnancies compromised by endometrial pathology (endometrosis) or because of incompatible extraspecific embryo transfers (donkey‐in‐horse pregnancies). Only a few samples showed weak EGF expression during the late luteal phase of the oestrous cycle. During normal pregnancy, the previously observed dramatic increase of expression after day 40 of gestation was confirmed. Although aged mares suffering from endometrosis and mares carrying an extraspecific donkey conceptus showed the same increase of EGF mRNA in normal glands, this was virtually absent from gland cross‐sections compromised due to inflammatory or fibrotic changes. Administration of various doses and combinations of progesterone and oestrogen for <35 days yielded negative or only weakly positive hybridization results, whereas progesterone alone for ≥40 days upregulated EGF expression strongly irrespective of additional treatment with oestrogen. This is the first experimental evidence that EGF expression in the endometrium can be induced by progesterone alone. The requirement for prolonged progesterone priming is of considerable interest in the context of the unusually late stage of gestation at which placental attachment commences in equids. Mol. Reprod. Dev. 53:255–265, 1999. © 1999 Wiley‐Liss, Inc.     

Do mares possess an intracellular endometrial inhibitor of prostaglandin synthesis during early pregnancy?

Cytosol was prepared from endometrium collected from pregnant or nonpregnant mares 14 d after ovulation and was added to a prostaglandin-generating system (bovine fetal cotyledonary microsomes). Addition of endometrial cytosol from pregnant mares suppressed microsomal synthesis of prostaglandin F, but addition of endometrial cytosol from nonpregnant mares increased microsomal synthesis of prostaglandin F. The results suggest that mares possess an intracellular inhibitor of prostaglandin F synthesis during early pregnancy.     

Porcine endometrial expression of kininogen,factor XII,and plasma kallikrein in cyclic and pregnant gilts

Establishment of pregnancy in the pig is accompanied by a localized uterine acute inflammatory response and increase in uterine blood flow. Following rapid trophoblast elongation on Day 12 of pregnancy there is an increase in tissue kallikrein activity and release of bradykinin into the uterine lumen, suggesting the kallikrein-kininogen-kinin system is active in the porcine uterus. The present study investigated endometrial expression and presence of the various factors of the kallikrein-kininogen-kinin system. Endometrial L- and H-kininogen gene expression as well as presence of kininogens in the uterine flushings was evaluated throughout the estrous cycle and early pregnancy in the pig. The possible involvement of plasma kallikrein and Factor XII, activators of the kallikrein-kininogen-kinin system, were evaluated through analysis of gene expression in endometrial and conceptus tissues. Gene expression for plasma kallikrein, Factor XII, and H-kininogen were detected in endometrium but not early conceptus tissues. Factor XII and H-kininogen gene expression were similar across the days of the estrous cycle and early pregnancy. Endometrial plasma kallikrein gene expression was low but increased on Day 15 of the estrous cycle, whereas expression was similar across the days of early pregnancy. In comparison to cyclic gilts, endometrial L-kininogen gene expression increased fourfold on Days 15 and 18 of pregnancy. Both L- and H-kininogen were detected in the uterine flushings of cyclic and pregnant gilts. Presence of L- and H-kininogen in the porcine uterus and endometrial gene expression of plasma kallikrein and Factor XII provide evidence that the kallikrein-kininogen-kinin system is biologically active during establishment of pregnancy in the pig.     

Constitutive expression of uterine receptors for insulin-like growth factor-I during the peri-implantation period in the pig.

Insulin-like growth factor-I (IGF-I), synthesized by the uterine endometrium of cyclic and early pregnant gilts, accumulates in the uterine luminal fluid, where it comes in contact with the developing conceptus and the rapidly growing uterus. The uterus and the conceptus thus represent potential target sites for the biological effects of IGF-I, provided high-affinity Type I receptors are present. This study was undertaken to evaluate the expression of functional IGF-I receptors in the endometrium and myometrium of pregnant (Day 10, 12, and 15) gilts and in the endometrium of cyclic (Day 15) and pseudopregnant (Day 15) gilts and to correlate levels of these receptors with temporally regulated uterine production of IGF-I. Specific binding of 125I-IGF-I to endometrial membranes pretreated with MgCl2 (4 M) at 4 degrees C for 16 h, was saturable and membrane concentration-dependent. Competition of 125I-IGF-I binding to endometrial membranes was highest with unlabeled IGF-I greater than IGF-II much greater than insulin, whereas porcine relaxin was noncompetitive. Affinity cross-linking of endometrial membranes with 125I-IGF-I followed by SDS-PAGE and autoradiography revealed two labeled bands of Mr greater than 200,000 and Mr 135,000, with the major band being the Mr 135,000 species. Scatchard analysis of 125I-IGF-I binding to endometrial membranes from Day 12 pregnant gilts revealed a single class of binding sites with a dissociation constant (Kd) = 4.08 +/- 0.09 nM. Membranes prepared from endometrium of Day 10, 12, and 15 pregnant gilts exhibited comparable 125I-IGF-I binding (p greater than 0.05) that was higher (p less than 0.001) than that for the corresponding myometrial membranes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cell-specific expression of estrogen-responsive genes in the uteri of cyclic, early pregnant and ovariectomized ewes

A single physiological dose of estradiol up-regulates estrogen receptor-alpha(ER), progesterone receptor (PR), glyceraldehyde 3-phosphate dehydrogenase (GAPDH), c-fos, cyclophilin, and actin mRNAs in the endometrium of ovariectomized ewes. Therefore, we hypothesized that these genes would be up-regulated by the preovulatory surge of estrogen which occurs on the evening of Day 15 in the estrous cycle of sheep. ER and PR mRNA concentrations increased between Day 15 and Day 1 in cyclic ewes in most endometrial epithelial cells, while GAPDH mRNA increased in epithelial and stromal cells in the deep endometrium. Day 15 pregnant ewes had lower expression of ER, PR, GAPDH, cyclophilin and actin genes. For ER and GAPDH mRNAs, the greatest reduction occurred in the superficial endometrium. Ovariectomized ewes demonstrated concentrations of ER, PR, and GAPDH mRNAs that were similar to those in the cyclic ewes. While concentrations of c-fos mRNA did not differ between groups, those of cyclophilin and actin mRNAs were lower in the pregnant and ovariectomized ewes. In conclusion, ER, PR and GAPDH gene expression rose during estrus in endometrial cells with the highest ER gene expression and were repressed in pregnant ewes in superficial endometrial cells with the greatest PR gene expression.     

Regulation of expression and role of leukemia inhibitory factor and interleukin-6 in the uterus of early pregnant pigs

Cytokines, which are generally involved in the process of inflammation, may also play a critical role in conceptus implantation. We examined: (1) the expression profiles of leukemia inhibitory factor (LIF) and interleukin (IL)-6 mRNA and their protein content in the endometrium of cyclic and pregnant gilts on Days 10 to 18 after estrus; (2) the effect of conceptus-exposed medium on LIF and IL-6 synthesis in the endometrium; (3) the profiles of IL6R and LIFR mRNA expression in pig conceptuses collected on Days 10 to 18 of pregnancy; and (4) the effect of LIF and IL-6 on the attachment and proliferation of porcine trophoblast cells. The expression of LIF mRNA in the endometrium increased between Days 10 and 12 in both cyclic and pregnant gilts, and tended to be higher in Day 12 pregnant animals compared with nonpregnant ones. The LIF protein content in the uterine lumen peaked on Day 12 of pregnancy, and was higher than on Day 12 of the estrous cycle. Endometrial IL-6 mRNA expression was upregulated on Day 12 in pregnant gilts compared with nonpregnant animals. Moreover, a higher content of IL-6 protein was observed in pregnant than in cyclic gilts. The addition of conceptus-exposed medium resulted in up-regulation of LIF and IL6 mRNA expression, and increased IL-6 content in endometrial slices. In conceptuses, increased mRNA expression was detected on Days 10 to 14 for IL6R and on Day 14 for LIFR, when compared with other days studied. LIF and IL-6 stimulated the attachment and proliferation of trophoblast cells in vitro. In summary, LIF and IL-6 are important components of embryo-uterine interactions during early pregnancy in the pig, and may contribute to successful conceptus implantation.     

Localization of prostaglandin F in the ovine uterus during early pregnancy

As part of a study on the anti-luteolytic action of the sheep conceptus, the distribution of prostaglandin F (PGF) within the uteri of 19 pregnant and 14 non-pregnant ewes was studied using three antisera to PGF_2α and fluorescent antibody tracing. In the uteri of seven non-pregnant ewes up to Day 11 after estrus (Day 0) and in uteri of $\text{18}\text{19}$ pregnant ewes up to Day 50, PGF was localized mainly in the lamina propria, with very little on epithelial cells lining the uterine lumen. After Day 11, in the uteri of seven non-pregnant ewes, PGF was localized on the surface of luminal epithelial cells and throughout their cytoplasm, and to a lesser extent in the lamina propria. The distribution of PGF on Days 14 and 17 in the gravid and non-gravid horns of the uteri of 13 ewes made unilaterally pregnant (conceptus confined to one uterine horn) was similar to that described above for normal pregnant and non-pregnant ewes after Day 11 respectively.These results are interpreted to indicate a change in the distribution of PGF in sheep uteri due to the presence of a conceptus.