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1.
Biol Reprod ; 111(1): 174-185, 2024 Jul 12.
Artigo em Inglês | MEDLINE | ID: mdl-38501810

RESUMO

Interferon-gamma (IFNG) is a pro-inflammatory cytokine secreted by the porcine conceptus (embryo and extra-embryonic membranes) during the peri-implantation period of pregnancy. IFNG modifies the endometrial inflammatory immune response and is required for the implantation and survival of the conceptus. It is not known how IFNG from the conceptus trophectoderm is transported across the endometrial luminal epithelium (LE). In the present study, immunofluorescence analyses detected immunoreactive IFNG protein in both the trophectoderm and endometrial LE on Day 15 of pregnancy, while our previous research localized IFNG mRNA only to conceptus trophectoderm. Using minced endometrial explants to disrupt the barrier posed by the intact endometrial LE, treatment with recombinant IFNG induced the expression of genes that were not induced when IFNG was infused into the uterine lumen in vivo by McLendon et al. (Biology of Reproduction. 2020;103(5):1018-1029). We hypothesized that during pregnancy extracellular vesicles (EVs) serve as intercellular signaling vehicles to transport conceptus-derived IFNG across the intact endometrial LE and into the stromal compartment of the uterus. Western blotting detected the presence of IFNG in EVs isolated from the uterine fluid of pregnant gilts, but not nonpregnant gilts. Real-time PCR demonstrated increased expression of IFNG-stimulated genes in EV-treated endometrial explants and EV-mediated IFNG transport was confirmed in whole uterine sections cultured with EVs from Day 15 of pregnancy. These results suggest that EVs are involved in IFNG transport across the endometrial LE to enable paracrine communication between the conceptus and cells within the endometrial stroma.


Assuntos
Endométrio , Vesículas Extracelulares , Interferon gama , Comunicação Parácrina , Animais , Feminino , Endométrio/metabolismo , Interferon gama/metabolismo , Interferon gama/farmacologia , Vesículas Extracelulares/metabolismo , Suínos , Gravidez , Embrião de Mamíferos/metabolismo , Implantação do Embrião/fisiologia
2.
Biol Reprod ; 111(3): 694-707, 2024 Sep 14.
Artigo em Inglês | MEDLINE | ID: mdl-38836439

RESUMO

In pigs, the majority of embryonic mortality occurs when free-floating conceptuses (embryos/fetuses and associated placental membranes) elongate, and the uterine-placental interface undergoes folding and develops areolae. Both periods involve proliferation, migration, and changes in morphology of cells that require adenosine triphosphate (ATP). We hypothesize that insufficient ATP in conceptus and uterine tissues contributes to conceptus loss in pigs. Creatine is stored in cells as phosphocreatine for ATP regeneration through the creatine-creatine kinase- phosphocreatine pathway. However, the expression of components of this pathway in pigs has not been examined throughout gestation. Results of qPCR analyses indicated increases in AGAT, GAMT, CKM, CKB, and SLC6A8 mRNAs in elongating porcine conceptuses, and immunofluorescence microscopy localized guanidinoacetate N-methyltransferase, creatine kinase M, and creatine kinase B proteins to the trophectoderm of elongating conceptuses, to the columnar chorionic epithelial cells at the bottom of chorioallantoic troughs, and to endometrial luminal epithelium at the tops of the endometrial ridges of uterine-placental folds on Days 40, 60, and 90 of gestation. Guanidinoacetate N-methyltransferase protein is expressed in endometrial luminal epithelium at the uterine-placental interface, but immunostaining is more intense in luminal epithelium at the bottoms of the endometrial ridges. Results of this study indicate that key elements of the pathway for creatine metabolism are expressed in cells of the conceptus, placenta, and uterus for potential production of ATP during two timepoints in pregnancy with a high demand for energy; elongation of the conceptus for implantation and development of uterine-placental folding during placentation.


Assuntos
Trifosfato de Adenosina , Creatina , Placenta , Útero , Animais , Feminino , Creatina/metabolismo , Gravidez , Suínos , Útero/metabolismo , Trifosfato de Adenosina/metabolismo , Placenta/metabolismo , Desenvolvimento Embrionário/fisiologia , Embrião de Mamíferos/metabolismo
3.
Biol Reprod ; 111(1): 148-158, 2024 Jul 12.
Artigo em Inglês | MEDLINE | ID: mdl-38501845

RESUMO

Fructose, the most abundant hexose sugar in fetal fluids and the blood of sheep and other ungulates and cetaceans, is synthesized from glucose via the polyol pathway in trophectoderm and chorion. However, the cell-specific and temporal expression of enzymes for the synthesis and metabolism of fructose in sheep conceptuses (embryo and placental membranes) and placentomes has not been characterized. This study characterized key enzymes involved in fructose synthesis and metabolism by ovine conceptuses throughout pregnancy. Day 17 conceptuses expressed mRNAs for the polyol pathway (SORD and AKR1B1) and glucose and fructose metabolism (HK1, HK2, G6PD, OGT, and FBP), but not those required for gluconeogenesis (G6Pase or PCK). Ovine placentomes also expressed mRNAs for SORD, AKR1B1, HK1, and OGT. Fructose can be metabolized via the ketohexokinase (KHK) pathway, and isoforms, KHK-A and KHK-C, were expressed in ovine conceptuses from Day 16 of pregnancy and placentomes during pregnancy in a cell-specific manner. The KHK-A protein was more abundant in the trophectoderm and cotyledons of placentomes, while KHK-C protein was more abundant in the endoderm of Day 16 conceptuses and the chorionic epithelium in placentomes. Expression of KHK mRNAs in placentomes was greatest at Day 30 of pregnancy (P < 0.05), but not different among days later in gestation. These results provide novel insights into the synthesis and metabolism of fructose via the uninhibited KHK pathway in ovine conceptuses to generate ATP via the tricarboxylic cycle, as well as substrates for the pentose cycle, hexosamine biosynthesis pathway, and one-carbon metabolism required for conceptus development throughout pregnancy.


Assuntos
Frutose , Glucose , Placenta , Animais , Feminino , Frutose/metabolismo , Gravidez , Ovinos/metabolismo , Glucose/metabolismo , Placenta/metabolismo , Redes e Vias Metabólicas/genética , Embrião de Mamíferos/metabolismo
4.
Biol Reprod ; 111(1): 159-173, 2024 Jul 12.
Artigo em Inglês | MEDLINE | ID: mdl-38531778

RESUMO

Lactate, an abundant molecule in fetal fluids and blood of mammalian species, is often overlooked as a metabolic waste product generated during pregnancy. Most of the glucose and fructose consumed by ovine conceptuses is converted to lactate, but proteins involved in lactate metabolism and transport have not been investigated. This study characterized total lactate produced by ovine conceptuses throughout gestation, as well as expression of mRNAs and proteins involved in lactate metabolism. Lactate increased in abundance in the uterine lumen during the preimplantation period and was more abundant than pyruvate. The abundance of lactate in allantoic and amniotic fluids increased with advancing days of gestation and most abundant on Day 125 of pregnancy (P < 0.05). Lactate dehydrogenase subunits A (converts pyruvate to lactate) and B (converts lactate to pyruvate) were expressed by conceptuses throughout gestation. Lactate is transported via monocarboxylic acid transporters SLC16A1 and SLC16A3, both of which were expressed by the conceptus throughout gestation. Additionally, the interplacentomal chorioallantois from Day 126 expressed SLC16A1 and SLC16A3 and transported lactate across the tissue. Hydrocarboxylic acid receptor 1 (HCAR1), a receptor for lactate, was localized to the uterine luminal and superficial glandular epithelia of pregnant ewes throughout gestation and conceptus trophectoderm during the peri-implantation period of gestation. These results provide novel insights into the spatiotemporal profiles of enzymes, transporters, and receptor for lactate by ovine conceptuses throughout pregnancy.


Assuntos
Frutose , Glucose , Ácido Láctico , Animais , Feminino , Gravidez , Ácido Láctico/metabolismo , Ácido Láctico/sangue , Ovinos , Glucose/metabolismo , Frutose/metabolismo , Redes e Vias Metabólicas/genética , Transportadores de Ácidos Monocarboxílicos/metabolismo , Transportadores de Ácidos Monocarboxílicos/genética , Transporte Biológico , Embrião de Mamíferos/metabolismo , Regulação da Expressão Gênica no Desenvolvimento
5.
Reproduction ; 168(4)2024 10 01.
Artigo em Inglês | MEDLINE | ID: mdl-39028589

RESUMO

In Brief: The trophectoderm of the elongating conceptuses of cattle, sheep, and pigs secrete high amounts of interferons that increase or induce the expression of interferon-stimulated genes (ISGs) in the endometrium. Research concerning ISGs, performed from 1995 through 2023, is reviewed in this manuscript. Abstract: Expression of the classical interferon (IFN) stimulated genes (ISGs) increases in the endometrial stroma and glandular epithelium (GE) through activation of signal transducer and activator of transcription (STAT) signaling in response to the secretion of IFN tau (IFNT) and IFN gamma (IFNG) by the conceptuses of ruminants, including cattle and sheep, and pigs, respectively. The first of the classical ISGs to be characterized was ISG15 in cattle. Classical ISGs are not expressed by the endometrial luminal epithelium (LE) due to the expression of interferon regulatory factor 2 (IRF2) in the LE that prevents the expression of ISGs in the LE. Classical ISG expression in the endometrium serves as a reliable indicator of conceptus health and elongation in cattle. There are also nonclassical ISGs that are upregulated in endometrial LE in response to progesterone (P4) that are further stimulated by IFNT in sheep, the intracellular signaling pathway responsible for IFN effects on expression is unknown. ISGs are also upregulated in extrauterine tissues including CL and peripheral blood mononuclear cells (PBMCs). The expression of ISGs by the PBMCs of cattle serves as an early prognosticator of pregnancy. The physiological roles of ISGs remain obscure, but evidence suggests that they are at least in part involved in modifying the immune system to support endometrial remodeling necessary for the successful implantation of the conceptus. Our understanding of these ISGs is primarily the result of work from the laboratories of Drs Fuller Bazer, Thomas (Tod) Hansen, Gregory Johnson, Hakhyun Ka, Patrick Lonergan, Troy Ott, and Thomas Spencer.


Assuntos
Endométrio , Interferons , Animais , Feminino , Gravidez , Bovinos , Ovinos , Endométrio/metabolismo , Interferons/metabolismo , Interferons/genética , Suínos
6.
Biol Reprod ; 109(1): 107-118, 2023 07 11.
Artigo em Inglês | MEDLINE | ID: mdl-37171613

RESUMO

The placenta requires high levels of adenosine triphosphate to maintain a metabolically active state throughout gestation. The creatine-creatine kinase-phosphocreatine system is known to buffer adenosine triphosphate levels; however, the role(s) creatine-creatine kinase-phosphocreatine system plays in uterine and placental metabolism throughout gestation is poorly understood. In this study, Suffolk ewes were ovariohysterectomized on Days 30, 50, 70, 90, 110 and 125 of gestation (n = 3-5 ewes/per day, except n = 2 on Day 50) and uterine and placental tissues subjected to analyses to measure metabolites, mRNAs, and proteins related to the creatine-creatine kinase-phosphocreatine system. Day of gestation affected concentrations and total amounts of guanidinoacetate and creatine in maternal plasma, amniotic fluid and allantoic fluid (P < 0.05). Expression of mRNAs for arginine:glycine amidinotransferase, guanidinoacetate methyltransferase, creatine kinase B, and solute carrier 16A12 in endometria and for arginine:glycine amidinotransferase and creatine kinase B in placentomes changed significantly across days of gestation (P < 0.05). The arginine:glycine amidinotransferase protein was more abundant in uterine luminal epithelium on Days 90 and 125 compared to Days 30 and 50 (P < 0.01). The chorionic epithelium of placentomes expressed guanidinoacetate methyltransferase and solute carrier 6A13 throughout gestation. Creatine transporter (solute carrier 6A8) was expressed by the uterine luminal epithelium and trophectoderm of placentomes throughout gestation. Creatine kinase (creatine kinase B and CKMT1) proteins were localized primarily to the uterine luminal epithelium and to the placental chorionic epithelium of placentomes throughout gestation. Collectively, these results demonstrate cell-specific and temporal regulation of components of the creatine-creatine kinase-phosphocreatine system that likely influence energy homeostasis for fetal-placental development.


Assuntos
Creatina , Placenta , Gravidez , Feminino , Animais , Ovinos , Placenta/metabolismo , Creatina/metabolismo , Guanidinoacetato N-Metiltransferase/metabolismo , Fosfocreatina/metabolismo , Creatina Quinase/metabolismo , Trifosfato de Adenosina/metabolismo , Arginina
7.
Mol Reprod Dev ; 90(7): 673-683, 2023 07.
Artigo em Inglês | MEDLINE | ID: mdl-35460118

RESUMO

Conceptus elongation and early placentation involve growth and remodeling that requires proliferation and migration of cells. This demands conceptuses expend energy before establishment of a placenta connection and when they are dependent upon components of histotroph secreted or transported into the uterine lumen from the uterus. Glucose and fructose, as well as many amino acids (including arginine, aspartate, glutamine, glutamate, glycine, methionine, and serine), increase in the uterine lumen during the peri-implantation period. Glucose and fructose enter cells via their transporters, SLC2A, SLC2A3, and SLC2A8, and amino acids enter the cells via specific transporters that are expressed by the conceptus trophectoderm. However, porcine conceptuses develop rapidly through extensive cellular proliferation and migration as they elongate and attach to the uterine wall resulting in increased metabolic demands. Therefore, coordination of multiple metabolic biosynthetic pathways is an essential aspect of conceptus development. Oxidative metabolism primarily occurs through the tricarboxylic acid (TCA) cycle and the electron transport chain, but proliferating and migrating cells, like the trophectoderm of pigs, enhance aerobic glycolysis. The glycolytic intermediates from glucose can then be shunted into the pentose phosphate pathway and one-carbon metabolism for the de novo synthesis of nucleotides. A result of aerobic glycolysis is limited availability of pyruvate for maintaining the TCA cycle, and trophectoderm cells likely replenish TCA cycle metabolites primarily through glutaminolysis to convert glutamine into TCA cycle intermediates. The synthesis of ATP, nucleotides, amino acids, and fatty acids through these biosynthetic pathways is essential to support elongation, migration, hormone synthesis, implantation, and early placental development of conceptuses.


Assuntos
Glutamina , Placenta , Suínos , Gravidez , Feminino , Animais , Placenta/metabolismo , Glutamina/metabolismo , Útero/metabolismo , Aminoácidos/metabolismo , Redes e Vias Metabólicas , Frutose/metabolismo , Glucose/metabolismo , Nucleotídeos/metabolismo
8.
Amino Acids ; 55(1): 125-137, 2023 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-36383272

RESUMO

Highly proliferative cells rely on one carbon (1C) metabolism for production of formate required for synthesis of purines and thymidine for nucleic acid synthesis. This study was to determine if extracellular serine and/or glucose and fructose contribute the production of formate in ovine conceptuses. Suffolk ewes (n = 8) were synchronized to estrus, bred to fertile rams, and conceptuses were collected on Day 17 of gestation. Conceptuses were either snap frozen in liquid nitrogen (n = 3) or placed in culture in medium (n = 5) containing either: 1) 4 mM D-glucose + 2 mM [U-13C]serine; 2) 6 mM glycine + 4 mM D-glucose + 2 mM [U-13C]serine; 3) 4 mM D-fructose + 2 mM [U-13C]serine; 4) 6 mM glycine + 4 mM D-fructose + 2 mM [U-13C]serine; 5) 4 mM D-glucose + 4 mM D-fructose + 2 mM [U-13C]serine; or 6) 6 mM glycine + 4 mM D-glucose + 4 mM D-fructose + 2 mM [U-13C]serine. After 2 h incubation, conceptuses in their respective culture medium were homogenized and the supernatant analyzed for 12C- and 13C-formate by gas chromatography and amino acids by high performance liquid chromatography. Ovine conceptuses produced both 13C- and 12C-formate, indicating that the [U-13C]serine, glucose, and fructose were utilized to generate formate, respectively. Greater amounts of 12C-formate than 13C-formate were produced, indicating that the ovine conceptus utilized more glucose and fructose than serine to produce formate. This study is the first to demonstrate that both 1C metabolism and serinogenesis are active metabolic pathways in ovine conceptuses during the peri-implantation period of pregnancy, and that hexose sugars are the preferred substrate for generating formate required for nucleotide synthesis for proliferating trophectoderm cells.


Assuntos
Interferon Tipo I , Serina , Gravidez , Ovinos , Animais , Feminino , Masculino , Glucose , Frutose , Carneiro Doméstico/metabolismo , Glicina , Formiatos
9.
Reprod Fertil Dev ; 36(2): 93-111, 2023 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-38064193

RESUMO

Mammals differ regarding their placentae, but in all species placental trophoblasts interact intimately with the uterine endometrium to mediate the transfer of nutrients from the mother to the embryo/fetus through the closely juxtaposed microcirculatory systems of the uterus and placenta. Placentation in ruminants is intermediate between the non-invasive type, as observed in the epitheliochorial placenta of pigs, and the invasive type, as observed in the haemochorial placentae of mice and humans. In ruminants, placental trophoblast cells invade uterine endometrial tissue, but invasion is believed to be limited to the endometrial luminal epithelium (LE). In the LE there are varying degrees of syncytialisation among species, with syncytialisation being more extensive in sheep than cows. The hallmarks of placentation in ruminants include: (1) an extended period in which conceptuses (embryos and associated placental membranes) elongate and must be supported by secretions (histotroph) from the uterus; (2) a cascade involving an array of adhesion molecules that includes integrin-mediated attachment of the conceptus trophoblast to the endometrial LE for implantation; (3) syncytialisation of the developing early placenta, a process for which there is currently limited understanding; and (4) development of placentomes that define the cotyledonary placentae of cows and sheep, and provide haemotrophic support of fetal development.


Assuntos
Placenta , Placentação , Humanos , Gravidez , Bovinos , Feminino , Ovinos , Suínos , Animais , Microcirculação , Útero , Implantação do Embrião , Endométrio/química , Ruminantes
10.
Biol Reprod ; 106(5): 865-878, 2022 05 17.
Artigo em Inglês | MEDLINE | ID: mdl-35098299

RESUMO

Progesterone (P4) and interferon tau (IFNT) are important for establishment and maintenance of pregnancy in ruminants. Agmatine and polyamines (putrescine, spermidine, and spermine) have important roles in the survival, growth, and development of mammalian conceptuses. This study tested the hypothesis that P4 and/or IFNT stimulate the expression of genes and proteins involved in the metabolism and transport of polyamines in the ovine endometrium. Rambouillet ewes (n = 24) were surgically fitted with intrauterine catheters on Day 7 of the estrous cycle. They received daily intramuscular injections of 50 mg P4 in corn oil vehicle and/or 75-mg progesterone receptor antagonist (RU486) in corn oil vehicle from Days 8-15, and twice daily intrauterine injections (25 µg/uterine horn/day) of either control serum proteins (CX) or IFNT from Days 11-15, resulting in four treatment groups: (i) P4 + CX; (ii) P4 + IFNT; (iii) RU486 + P4 + CX; or (iv) RU486 + P4 + IFNT. On Day 16, ewes were hysterectomized. The total amounts of arginine, citrulline, ornithine, agmatine, and putrescine in uterine flushings were affected (P < 0.05) by P4 and/or IFNT. P4 increased endometrial expression of SLC22A2 (P < 0.01) and SLC22A3 (P < 0.05) mRNAs. IFNT affected endometrial expression of MAT2B (P < 0.001), SAT1 (P < 0.01), and SMOX (P < 0.05) mRNAs, independent of P4. IFNT increased the abundance of SRM protein in uterine luminal (LE), superficial glandular (sGE), and glandular epithelia (GE), as well as MAT2B protein in uterine LE and sGE. These results indicate that P4 and IFNT act synergistically to regulate the expression of key genes required for cell-specific metabolism and transport of polyamines in the ovine endometrium during the peri-implantation period of pregnancy.


Assuntos
Agmatina , Interferon Tipo I , Agmatina/metabolismo , Agmatina/farmacologia , Animais , Óleo de Milho/metabolismo , Endométrio/metabolismo , Feminino , Interferon Tipo I/metabolismo , Mifepristona , Poliaminas/metabolismo , Gravidez , Proteínas da Gravidez , Progesterona/metabolismo , Proteínas/metabolismo , Putrescina , RNA Mensageiro/metabolismo , Ovinos , Carneiro Doméstico , Útero/metabolismo
11.
Biol Reprod ; 106(5): 888-899, 2022 05 17.
Artigo em Inglês | MEDLINE | ID: mdl-35134855

RESUMO

Given recent reports of expression of postnatal mineral transport regulators at the maternal-conceptus interface during the peri-implantation period, this study tested the hypothesis that progesterone (P4) and interferon tau (IFNT) regulate phosphate, calcium, and vitamin D signaling in the ovine endometrium. Mature Rambouillet ewes (n = 24) were surgically fitted with intrauterine catheters on day 7 of the estrous cycle. Ewes received daily intramuscular injections of 50 mg of P4 in corn oil vehicle and 75 mg of progesterone receptor antagonist (RU486) in corn oil from days 8 to 15, and twice-daily intrauterine injections of either control proteins (CX) or IFNT (25 µg/uterine horn/day) from days 11 to 15 resulting in four treatment groups: P4 + CX; P4 + IFNT; RU486 + P4 + CX; and RU486 + P4 + IFNT. On day 16, ewes were hysterectomized. RU486 + P4 + CX treated ewes had lower concentrations of 25 (OH) D in plasma than P4 + CX treated ewes (P < 0.05). Endometria from ewes treated with IFNT had greater expression of FGF23 (P < 0.01), S100A9 (P < 0.05), and S100A12 (P = 0.05) mRNAs and lower expression of ADAM10 mRNA (P < 0.01) than of ewes treated with CX proteins. Expression of FGF23 mRNA was greater in endometria of ewes that received RU486 + P4 + IFNT than in ewes that received RU486 + P4 + CX (hormone × protein interaction, P < 0.05). The expression of S100G mRNA was greater in endometria of ewes that received P4 + IFNT compared to ewes that received RU486 + P4 + IFNT (P < 0.05; hormone × protein interaction, P < 0.01). These data implicate P4 and IFNT in the regulation of phosphate, calcium, and vitamin D signaling during the peri-implantation period of pregnancy and provide a platform for continued mechanistic investigations.


Assuntos
Interferon Tipo I , Progesterona , Animais , Cálcio/metabolismo , Óleo de Milho/metabolismo , Óleo de Milho/farmacologia , Endométrio/metabolismo , Feminino , Interferon Tipo I/metabolismo , Mifepristona/farmacologia , Fosfatos/metabolismo , Fosfatos/farmacologia , Gravidez , Proteínas da Gravidez , Progesterona/metabolismo , Progesterona/farmacologia , Proteínas/metabolismo , RNA Mensageiro/metabolismo , Ovinos , Carneiro Doméstico , Vitamina D/farmacologia
12.
Biol Reprod ; 107(6): 1528-1539, 2022 12 10.
Artigo em Inglês | MEDLINE | ID: mdl-36054379

RESUMO

Ruminant conceptuses that elongate and attach to the uterine luminal epithelium (LE) to establish pregnancy require a large amount of adenosine triphosphate (ATP). The creatine (Cr)-creatine kinase (CK)-phosphocreatine (PCr) system re-generates ATP in dividing and migrating cells such as the conceptus trophectoderm cells. However, little is known about metabolism of Cr within uterine and conceptus tissues in livestock species during early gestation. In this study, Suffolk ewes were ovariohysterectomized on Days 9, 12, 15, 16, 17, 18, 20, or 21 of pregnancy (n = 2-5 animals/per day) to investigate metabolites, mRNAs, and proteins of the Cr-CK-PCr system at uterine-conceptus interface. Amounts of Cr and guanidinoacetate (GA) in uterine flushings increased between Days 12 and 17 of pregnancy. Endometrial expression of mRNAs for GA formation (AGAT), Cr synthesis (GAMT), and Cr/PCr utilization (CKB) was greater on Days 17 and 21 than on Days 9 and 12 of pregnancy. Immunoreactive AGAT was detected in uteri only on Day 21 but not in uteri or conceptuses at earlier days of pregnancy. GAMT, SLC6A8, and CKs were expressed in uterine luminal and glandular epithelia. Immunoreactive CKs (CKB, CKM, and CKMT1) appeared greater on Day 9 than Day 17 of pregnancy. Immunoreactive GAMT and CKs appeared greater in trophectoderm of conceptuses on Day 20 than on Day 15 of pregnancy, whereas the opposite was observed for that of SLC6A8. This study provides insights into cell-, tissue-, and time-specific metabolism of Cr at the uterine-conceptus interface suggesting a role for the Cr-CK-PCr system in ovine conceptus development and implantation.


Assuntos
Creatina , Proteínas da Gravidez , Gravidez , Ovinos , Animais , Feminino , Creatina/metabolismo , Proteínas da Gravidez/metabolismo , Útero/metabolismo , Implantação do Embrião , Endométrio/metabolismo , RNA Mensageiro/genética , RNA Mensageiro/metabolismo , Trifosfato de Adenosina/metabolismo
13.
Biol Reprod ; 107(5): 1279-1295, 2022 11 14.
Artigo em Inglês | MEDLINE | ID: mdl-35871545

RESUMO

The one-carbon metabolism (OCM) pathway provides purines and thymidine for synthesis of nucleic acids required for cell division, and S-adenosyl methionine for polyamine and creatine syntheses and the epigenetic regulation of gene expression. This study aimed to determine if serine hydroxymethyltransferase 2 (SHMT2), a key enzyme in the OCM pathway, is critical for ovine trophectoderm (oTr) cell function and conceptus development by inhibiting translation of SHMT2 mRNA using a morpholino antisense oligonucleotide (MAO). In vitro treatment of oTr cells with MAO-SHMT2 decreased expression of SHMT2 protein, which was accompanied by reduced proliferation (P = 0.053) and migration (P < 0.05) of those cells. Intrauterine injection of MAO-SHMT2 in ewes on Day 11 post-breeding tended to decrease the overall pregnancy rate (on Days 16 and 18) compared with MAO-control (3/10 vs. 7/10, P = 0.07). The three viable conceptuses (n = 2 on Day 16 and n = 1 on Day 18) recovered from MAO-SHMT2 ewes had only partial inhibition of SHMT2 mRNA translation. Conceptuses from the three pregnant MAO-SHMT2 ewes had similar levels of expression of mRNAs and proteins involved in OCM as compared with conceptuses from MAO-control ewes. These results indicate that knockdown of SHMT2 protein reduces proliferation and migration of oTr cells (in vitro) to decrease elongation of blastocysts from spherical to elongated forms. These in vitro effects suggest that increased embryonic deaths in ewes treated with MAO-SHMT2 are the result of decreased SHMT2-mediated trophectoderm cell proliferation and migration supporting a role for the OCM pathway in survival and development of ovine conceptuses.


Assuntos
Implantação do Embrião , Epigênese Genética , Gravidez , Ovinos , Animais , Feminino , Implantação do Embrião/fisiologia , Biossíntese de Proteínas , Embrião de Mamíferos/metabolismo , Oligonucleotídeos Antissenso/metabolismo , Oligonucleotídeos Antissenso/farmacologia , RNA Mensageiro/genética , RNA Mensageiro/metabolismo , Monoaminoxidase/genética , Monoaminoxidase/metabolismo , Monoaminoxidase/farmacologia
14.
Biol Reprod ; 107(4): 1084-1096, 2022 10 11.
Artigo em Inglês | MEDLINE | ID: mdl-35835585

RESUMO

Roles of fructose in elongating ovine conceptuses are poorly understood, despite it being the major hexose sugar in fetal fluids and plasma throughout gestation. Therefore, we determined if elongating ovine conceptuses utilize fructose via metabolic pathways for survival and development. Immunohistochemical analyses revealed that trophectoderm and extra-embryonic endoderm express ketohexokinase and aldolase B during the peri-implantation period of pregnancy for conversion of fructose into fructose-1-phosphate for entry into glycolysis and related metabolic pathways. Conceptus homogenates were cultured with 14C-labeled glucose and/or fructose under oxygenated and hypoxic conditions to assess contributions of glucose and fructose to the pentose cycle (PC), tricarboxylic acid cycle, glycoproteins, and lipid synthesis. Results indicated that both glucose and fructose contributed carbons to each of these pathways, except for lipid synthesis, and metabolized to pyruvate and lactate, with lactate being the primary product of glycolysis under oxygenated and hypoxic conditions. We also found that (1) conceptuses preferentially oxidized glucose over fructose (P < 0.05); (2) incorporation of fructose and glucose at 4 mM each into the PC by Day 16 conceptus homogenates was similar in the presence or absence of glucose, but incorporation of glucose into the PC was enhanced by the presence of fructose (P < 0.05); (3) incorporation of fructose into the PC in the absence of glucose was greater under oxygenated conditions (P < 0.01); and (4) incorporation of glucose into the PC under oxygenated conditions was greater in the presence of fructose (P = 0.05). These results indicate that fructose is an important metabolic substrate for ovine conceptuses.


Assuntos
Frutose-Bifosfato Aldolase , Frutose , Animais , Feminino , Frutoquinases , Glucose , Lactatos , Lipídeos , Pentoses , Gravidez , Piruvatos , Ovinos , Carneiro Doméstico
15.
Biol Reprod ; 106(6): 1126-1142, 2022 06 13.
Artigo em Inglês | MEDLINE | ID: mdl-35191486

RESUMO

This study aimed to determine whether the acceleration of conceptus development induced by the administration of exogenous progesterone (P4) during the preimplantation period of pregnancy alters calcium, phosphate, and vitamin D signaling at the maternal-conceptus interface. Suffolk ewes (n = 48) were mated to fertile rams and received daily intramuscular injections of either corn oil (CO) vehicle or 25 mg of progesterone in CO (P4) for the first 8 days of pregnancy and hysterectomized on either Day 9 (CO, n = 5; P4, n = 6), 12 (CO, n = 9; P4, n = 4) or 125 (CO, n = 14; P4, n = 10) of gestation. The expression of S100A12 (P < 0.05) and fibroblast growth factor receptor (FGFR2) (P < 0.01) messenger RNAs (mRNAs) was lower in endometria from P4-treated ewes on Day 12. The expression of ADAM10 (P < 0.05) mRNA was greater in endometria from P4-treated ewes on Day 125. The expression of ADAM10 (P < 0.01), FGFR2 (P < 0.05), solute carrier (SLC)20A1 (P < 0.05), TRPV5 (P < 0.05), and TRPV6 (P < 0.01) mRNAs was greater, but KL mRNA expression was lower (P < 0.05) in placentomes from P4-treated ewes at Day 125. There was lower endometrial and greater placentomal expression of mRNAs involved in mineral metabolism and transport in twin compared to singleton pregnancies. Further, the expression of mRNAs involved in mineral metabolism and transport was greater in P4-treated twin placentomes. KL, FGF23, vitamin D receptor (VDR), S100A9, S100A12, S100G, and CYP27B1 proteins were immunolocalized in endometria and placentomes. Exogenous P4 in early pregnancy altered the expression of regulators of calcium, phosphate, and vitamin D on Day 125 of pregnancy indicating a novel effect of P4 on mineral transport at the maternal-conceptus interface.


Assuntos
Cálcio , Progesterona , Animais , Cálcio/metabolismo , Endométrio/metabolismo , Feminino , Masculino , Minerais/metabolismo , Minerais/farmacologia , Fosfatos/metabolismo , Fosfatos/farmacologia , Placenta/metabolismo , Gravidez , Progesterona/metabolismo , RNA Mensageiro/metabolismo , Proteína S100A12/metabolismo , Proteína S100A12/farmacologia , Ovinos , Carneiro Doméstico , Vitamina D/farmacologia
16.
Amino Acids ; 54(2): 193-204, 2022 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-34741684

RESUMO

Dietary supplementation with 0.4 or 0.8% L-arginine (Arg) to gilts between days 14 and 25 of gestation enhances embryonic survival and vascular development in placentae; however, the underlying mechanisms are largely unknown. This study tested the hypothesis that Arg supplementation stimulated placental expression of mRNAs and proteins that enhance angiogenesis, including endothelial nitric oxide synthase (eNOS), vascular endothelial growth factor (VEGF), placental growth factor (PGF), GTP cyclohydrolase-I (GTP-CH1), ornithine decarboxylase (ODC1), and vascular endothelial growth factor receptors 1 and 2 (VEGFR1 and VEGFR2). Beginning on the day of breeding, gilts were fed daily 2 kg of a corn-soybean meal-based diet supplemented with 0.0 (control), 0.4, or 0.8% Arg. On day 25 of gestation, gilts were hysterectomized to obtain uteri and conceptuses for histochemical and biochemical analyses. eNOS and VEGFR1 proteins were localized to endothelial cells of maternal uterine blood vessels and to the uterine luminal epithelium, respectively. Compared with the control, dietary supplementation with 0.4 or 0.8% Arg increased (P < 0.05) the amounts of nitrite plus nitrate (NOx; oxidation products of NO) and polyamines in allantoic and amniotic fluids, concentrations of NOx, tetrahydrobiopterin (BH4, an essential cofactor for all NOS isoforms) and polyamines in placentae, as well as placental protein abundances of GTP-CH1 (the key enzyme for BH4 production) and ODC1 (the key enzyme for polyamine synthesis). Placental  mRNA levels for GTP-CH1, eNOS, PGF, VEGF, and VEGFR2 increased in response to both 0.4% and 0.8% Arg supplementation. Collectively, these results indicate that dietary Arg supplementation to gilts between days 14 and 25 of pregnancy promotes placental angiogenesis by increasing the expression of mRNAs and proteins for angiogenic factors as well as NO and polyamine syntheses.


Assuntos
Proteínas Angiogênicas , Placenta , Proteínas Angiogênicas/metabolismo , Animais , Arginina/metabolismo , Arginina/farmacologia , Suplementos Nutricionais , Células Endoteliais/metabolismo , Feminino , Placenta/metabolismo , Fator de Crescimento Placentário/metabolismo , Poliaminas/metabolismo , Gravidez , Sus scrofa/metabolismo , Suínos , Fator A de Crescimento do Endotélio Vascular/genética , Fator A de Crescimento do Endotélio Vascular/metabolismo
17.
Adv Exp Med Biol ; 1354: 25-48, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-34807435

RESUMO

Precise cell-specific spatio-temporal molecular signaling cascades regulate the establishment and maintenance of pregnancy. Importantly, the mechanisms regulating uterine receptivity, conceptus apposition and adhesion to the uterine luminal epithelia/superficial glandular epithelia and, in some species, invasion into the endometrial stroma and decidualization of stromal cells, are critical prerequisite events for placentation which is essential for the appropriate regulation of feto-placental growth for the remainder of pregnancy. Dysregulation of these signaling cascades during this critical stage of pregnancy can lead to pregnancy loss, impaired growth and development of the conceptus, and alterations in the transplacental exchange of gasses and nutrients. While many of these processes are conserved across species, significant variations in the molecular mechanisms governing maternal recognition of pregnancy, conceptus implantation, and placentation exist. This review addresses the complexity of key mechanisms that are critical for the establishment and maintenance of a successful pregnancy in humans, rodents, sheep, and pigs. Improving understanding of the molecular mechanisms governing these processes is critical to enhancing the fertility and reproductive health of humans and livestock species.


Assuntos
Placentação , Roedores , Animais , Implantação do Embrião , Endométrio , Feminino , Humanos , Placenta , Gravidez , Ovinos , Suínos , Útero
18.
Adv Exp Med Biol ; 1354: 49-62, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-34807436

RESUMO

The period of conceptus (embryo and extraembryonic membrane) development between fertilization and implantation in mammalian species is critical as it sets the stage for placental and fetal development. The trophectoderm and endoderm of pre-implantation ovine and porcine conceptuses undergo elongation, which requires rapid proliferation, migration, and morphological modification of the trophectoderm cells. These complex events occur in a hypoxic intrauterine environment and are supported through the transport of secretions from maternal endometrial glands to the conceptus required for the biochemical processes of cell proliferation, migration, and differentiation. The conceptus utilizes glucose provided by the mother to initiate metabolic pathways that provide energy and substrates for other metabolic pathways. Fructose, however, is in much greater abundance than glucose in amniotic and allantoic fluids, and fetal blood during pregnancy. Despite this, the role(s) of fructose is largely unknown even though a switch to fructosedriven metabolism in subterranean rodents and some cancers are key to their adaptation to hypoxic environments.


Assuntos
Embrião de Mamíferos , Placenta , Animais , Implantação do Embrião , Endométrio , Feminino , Frutose , Gravidez , Ovinos , Suínos , Útero
19.
Adv Exp Med Biol ; 1354: 109-125, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-34807439

RESUMO

Water transport during pregnancy is essential for maintaining normal growth and development of conceptuses (embryo/fetus and associated membranes). Aquaporins (AQPs) are a family of small integral plasma membrane proteins that primarily transport water across the plasma membrane. At least 11 isoforms of AQPs (AQPs 1-9, 11, and 12) are differentially expressed in the mammalian placenta (amnion, allantois, and chorion), and organs (kidney, lung, brain, heart, and skin) of embryos/fetuses during prenatal development. Available evidence suggests that the presence of AQPs in the conceptus mediates water movement across the placenta to support the placentation, the homeostasis of amniotic and allantoic fluid volumes, as well as embryonic and fetal survival, growth and development. Abundances of AQPs in the conceptus can be modulated by nutritional status and physiological factors affecting the pregnant female. Here, we summarize the effects of maternal dietary factors (such as intakes of protein, arginine, lipids, all-trans retinoic acid, copper, zinc, and mercury) on the expression of AQPs in the conceptus. We also discuss the physiological changes in hormones (e.g., progesterone and estrogen), oxygen supply, nitric oxide, pH, and osmotic pressure associated with the regulation of fluid exchange between mother and fetus. These findings may help to improve the survival, growth, and development of embryo/fetus in livestock species and other mammals (including humans).


Assuntos
Aquaporinas , Membranas Extraembrionárias , Âmnio/metabolismo , Animais , Aquaporinas/genética , Embrião de Mamíferos , Membranas Extraembrionárias/metabolismo , Feminino , Humanos , Placenta/metabolismo , Gravidez , Água/metabolismo
20.
Proc Natl Acad Sci U S A ; 116(24): 11590-11595, 2019 06 11.
Artigo em Inglês | MEDLINE | ID: mdl-31138695

RESUMO

Exposure to fine particulate matter (PM) during pregnancy is associated with high risks of birth defects/fatality and adverse long-term postnatal health. However, limited mechanistic data are available to assess the detailed impacts of prenatal PM exposure. Here we evaluate fine PM exposure during pregnancy on prenatal/postnatal organogenesis in offspring and in predisposing metabolic syndrome for adult life. Between days 0 and 18 of gestation, two groups of adult female rats (n = 10 for each) were placed in a dual-exposure chamber device, one with clean ambient air (∼3 µg·m-3) and the other with ambient air in the presence of 100 to 200 µg·m-3 of ultrafine aerosols of ammonium sulfate. At birth (postnatal day 0, PND0), four males and four females were selected randomly from each litter to be nursed by dams, whereas tissues were collected from the remaining pups. At PND21, tissues were collected from two males and two females, whereas the remaining pups were fed either a high- or low-fat diet until PND105, when tissues were obtained for biochemical and physiological analyses. Maternal exposure to fine PM increased stillbirths; reduced gestation length and birth weight; increased concentrations of glucose and free fatty acids in plasma; enhanced lipid accumulation in the liver; and decreased endothelium-dependent relaxation of aorta. This lead to altered organogenesis and predisposed progeny to long-term metabolic defects in an age-, organ-, and sex-specific manner. Our results highlight the necessity to develop therapeutic strategies to remedy adverse health effects of maternal PM exposure on conceptus/postnatal growth and development.


Assuntos
Exposição Materna/efeitos adversos , Síndrome Metabólica/induzido quimicamente , Organogênese/efeitos dos fármacos , Material Particulado/efeitos adversos , Efeitos Tardios da Exposição Pré-Natal/patologia , Poluição do Ar/efeitos adversos , Animais , Peso ao Nascer/efeitos dos fármacos , Suscetibilidade a Doenças/sangue , Suscetibilidade a Doenças/metabolismo , Suscetibilidade a Doenças/patologia , Exposição Ambiental/efeitos adversos , Ácidos Graxos/sangue , Feminino , Glucose/metabolismo , Masculino , Síndrome Metabólica/sangue , Síndrome Metabólica/metabolismo , Síndrome Metabólica/patologia , Organogênese/fisiologia , Gravidez , Efeitos Tardios da Exposição Pré-Natal/sangue , Efeitos Tardios da Exposição Pré-Natal/metabolismo , Ratos , Ratos Sprague-Dawley
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