猪妊娠期母胎对话的研究进展

doi:10.11843/j.issn.0366-6964.2022.12.002

Abstract

Abstract: Maternal-fetal dialogue is a complex dialogue between mother and fetus during pregnancy, which is a necessary process for successful implantation and pregnancy and is regulated by many factors. Abnormal mother-fetus dialogue can lead to the failure of embryo implantation and pregnancy, and can affect the normal development of fetus during pregnancy. Therefore, mother-fetus dialogue during pregnancy is of great significance for improving the litter size and reproductive efficiency of pigs. The review summarized the factors influencing the mother-fetus dialogue from pregnancy recognition (before pregnancy), embryo implantation (pregnancy) to fetal development (after pregnancy) using sows as a model, including hormones, cytokines, adhesion factors, genes and proteins, etc, which can provide reference for pig maternal-fetal dialogue study and increasing litter size in pig industry.

Key words: maternal-fetal dialogue, sow, pregnancy recognition, embryo implantation

CLC Number:

S828.3

WANG Jiaqi, LIU Yan, ZHENG Chen, FENG Tao. A Review of Mother-fetal Dialogue during Pregnancy in Sows[J]. Acta Veterinaria et Zootechnica Sinica, 2022, 53(12): 4138-4147.

References 89

[1]	MAO H G,CHEN L,BAO R P,et al.Mechanisms of oogenesis-related long non-coding RNAs in porcine ovaries treated with recombinant pig follicle-stimulating hormone[J].Front Vet Sci,2022,8:838703.
[2]	段群棚,蒋家霞,蓝常力,等.批次化生产技术对母猪繁殖性能的影响及其因素研究[J].黑龙江畜牧兽医,2021(10):30-33,40.DUAN Q P,JIANG J X,LAN C L,et al.Study on the effect of batch production technology on reproductive performance of sows and its factors[J].Heilongjiang Animal Science and Veterinary Medicine,2021(10):30-33,40.(in Chinese)
[3]	周振民,齐雅天,刘彦,等.国内外母猪批次化生产技术总结与比较[J].猪业科学,2022,39(3):47-50.ZHOU Z M,QI Y T,LIU Y,et al.Summary and comparison of sow batch production technology at home and abroad[J].Swine Industry Science,2022,39(3):47-50.(in Chinese)
[4]	秦玉圣.N-乙酰基-L-半胱氨酸对母猪定时输精效果的影响[D].北京:中国农业大学,2018.QIN Y S.The effects of N-Acetyl-L-Cysteine on the outcome of fixed-timed atificial insemination in pig[D].Beijing:China Agricultural University, 2018.(in Chinese)
[5]	李俊杰,王栋,刘彦,等.母猪批次化生产研发进展[J].猪业科学,2021,38(5):48-52.LI J J,WANG D,LIU Y,et al.Research progress on sow batch production system[J].Swine Industry Science,2021,38(5):48-52.(in Chinese)
[6]	ALMEIDA F R C L,DIAS A L N A.Pregnancy in pigs:the journey of an early life[J].Domest Anim Endocrinol,2022,78:106656.
[7]	GÓMEZ E,RUÍZ-ALONSO M,MIRAVET J,et al.Human endometrial transcriptomics:implications for embryonic implantation[J]. Cold Spring Harb Perspect Med,2015,5(7):a022996.
[8]	YANG Q Y,LIU J,WANG Y,et al.A proteomic atlas of ligand-receptor interactions at the ovine maternal-fetal interface reveals the role of histone lactylation in uterine remodeling[J].J Biol Chem,2022,298(1):101456.
[9]	GEISERT R D,WHYTE J J,MEYER A E,et al.Rapid conceptus elongation in the pig:an interleukin 1 beta 2 and estrogen-regulated phenomenon[J].Mol Reprod Dev,2017,84(9):760-774.
[10]	SÁNCHEZ J M,MATHEW D J,BEHURA S K,et al.Bovine endometrium responds differentially to age-matched short and long conceptuses[J].Biol Reprod,2019,101(1):26-39.
[11]	ARTUS J,HUE I,ACLOQUE H.Preimplantation development in ungulates:a 'ménage à quatre’ scenario[J].Reproduction, 2020, 159(3): R151-R172.
[12]	王春清,陈璐,周虚.胚胎着床期间母-胎对话研究进展[J].安徽农业科学,2009,37(20):9493-9495.WANG C Q,CHEN L,ZHOU X.Research progress on fetal-maternal crosstalk during embryo-implantation period[J].Journal of Anhui Agricultural Sciences,2009,37(20):9493-9495.(in Chinese)
[13]	GEISERT R D,JOHNSON G A,BURGHARDT R C.Implantation and establishment of pregnancy in the pig[M]//GEISERT R D,BAZER F W.Regulation of Implantation and Establishment of Pregnancy in Mammals.Cham:Springer,2015:137-163.
[14]	TAN C Q,HUANG Z H,XIONG W Y,et al.A review of the amino acid metabolism in placental function response to fetal loss and low birth weight in pigs[J].J Anim Sci Biotechnol,2022,13(1):28.
[15]	华仁武.猪胚胎附植阶段子宫腔液中细胞外囊泡小RNA测序分析及miR-92b-3p功能研究[D].武汉:华中农业大学,2021.HUA R W.Sequencing of small RNA in Extracellular vesicles of uterine fluids during porcine embryo implantation and the function of miR-92b-3p[D].Wuhan:Huazhong Agricultural University,2021.(in Chinese)
[16]	付言峰,方晓敏,李碧侠,等.猪胚胎附植部分因子研究进展[J].中国畜牧兽医,2019,46(9):2676-2682.FU Y F,FANG X M,LI B X,et al.A review of some factors related to embryo implantation in pigs[J].China Animal Husbandry & Veterinary Medicine,2019,46(9):2676-2682.(in Chinese)
[17]	甘建宇,臧旭鹏,蒋磊,等.妊娠早期猪胚胎-母体识别相关基因研究进展[J/OL].中国畜牧杂志: 1-9. [2022-04-13].http://doi.org/10.19556/j.0258-7033.20210703-01.GAN J Y,ZANG X P,JIANG L,et al.Research progress on genes related to porcine embryo-maternal interaction in early pregnancy[J/OL].Chinese Journal of Animal Science:1-9.[2022-04-13].http://doi.org/10.19556/j.0258-7033.20210703-01. (in Chinese)
[18]	VÉLEZ C,BARBEITO C,KONCURAT M.αvβ3 Integrin and fibronectin expressions and their relation to estrogen and progesterone during placentation in swine[J].Biotech Histochem,2018,93(1):15-24.
[19]	BAZER F W,SPENCER T E,JOHNSON G A,et al.Comparative aspects of implantation[J].Reproduction,2009,138(2):195-209.
[20]	BAZER F W,JOHNSON G A.Pig blastocyst-uterine interactions[J].Differentiation,2014,87(1-2):52-65.
[21]	MEYER A E,PFEIFFER C A,BROOKS K E,et al.New perspective on conceptus estrogens in maternal recognition and pregnancy establishment in the pig[J].Biol Reprod,2019,101(1):148-161.
[22]	KACZYNSKI P,GORYSZEWSKA-SZCZUREK E,BARYLA M,et al.Novel insights into conceptus-maternal signaling during pregnancy establishment in pigs[J].Mol Reprod Dev,2022.doi:10.1002/mrd.23567.
[23]	POLGE C,ROWSON L E,CHANG M C.The effect of reducing the number of embryos during early stages of gestation on the maintenance of pregnancy in the pig[J].J Reprod Fertil,1966,12(2):395-397.
[24]	WACLAWIK A,KACZMAREK M M,BLITEK A,et al.Embryo-maternal dialogue during pregnancy establishment and implantation in the pig[J].Mol Reprod Dev,2017,84(9):842-855.
[25]	WACLAWIK A.Novel insights into the mechanisms of pregnancy establishment:regulation of prostaglandin synthesis and signaling in the pig[J].Reproduction,2011,142(3):389-399.
[26]	GEISERT R D,ZAVY M T,WETTEMANN R P,et al.Length of pseudopregnancy and pattern of uterine protein release as influenced by time and duration of oestrogen administration in the pig[J].J Reprod Fertil,1987,79(1):163-172.
[27]	PERRY J S,HEAP R B,AMOROSO E C.Steroid hormone production by pig blastocysts[J].Nature,1973,245(5419):45-47.
[28]	GROOTHUIS P G,DASSEN H H N M,ROMANO A,et al.Estrogen and the endometrium:lessons learned from gene expression profiling in rodents and human[J].Hum Reprod Update,2007,13(4):405-417.
[29]	FUKUI Y,HIROTA Y,MATSUO M,et al.Uterine receptivity,embryo attachment,and embryo invasion:multistep processes in embryo implantation[J].Reprod Med Biol,2019,18(3):234-240.
[30]	FERNANDO S R,KOTTAWATTA K S A,JIANG L H,et al.Differential expression of Protein Disulfide Isomerase (PDI) in regulating endometrial receptivity in humans[J].Reprod Biol,2021,21(2):100498.
[31]	GEBRIL M,HIROTA Y,AIKAWA S,et al.Uterine epithelial progesterone receptor governs uterine receptivity through epithelial cell differentiation[J].Endocrinology,2020,161(12):bqaa195.
[32]	MATSUO M,HIROTA Y,FUKUI Y,et al.Levonorgestrel inhibits embryo attachment by eliminating uterine induction of leukemia inhibitory factor[J].Endocrinology,2020,161(2):bqz005.
[33]	KACZMAREK M M,BLITEK A,KAMINSKA K,et al.Assessment of VEGF-receptor system expression in the porcine endometrial stromal cells in response to insulin-like growth factor-I,relaxin,oxytocin and prostaglandin E2[J].Mol Cell Endocrinol,2008,291(1-2):33-41.
[34]	KRZYMOWSKI T,STEFAN＇CZYK-KRZYMOWSKA S.The oestrous cycle and early pregnancy-a new concept of local endocrine regulation[J].Vet J,2004,168(3):285-296.
[35]	FORD S P,CHRISTENSON R K.Blood flow to uteri of sows during the estrous cycle and early pregnancy:local effect of the conceptus on the uterine blood supply[J].Biol Reprod,1979,21(3):617-624.
[36]	MORAWSKA E,KACZMAREK M M,BLITEK A.Regulation of prostacyclin synthase expression and prostacyclin content in the pig endometrium[J].Theriogenology,2012,78(9):2071-2086.
[37]	MORAWSKA-PUCINSKA E,SZYMANSKA M,BLITEK A.Expression profile and role of prostacyclin receptor (PTGIR) in peri-implantation porcine conceptuses[J].Theriogenology,2014,82(4):546-556.
[38]	SZYMANSKA M,BLITEK A.Prostacyclin synthesis and prostacyclin receptor expression in the porcine corpus luteum:evidence for a luteotropic role in vitro[J].Biol Reprod,2019,100(1):162-174.
[39]	WACLAWIK A,RIVERO-MULLER A,BLITEK A,et al.Molecular cloning and spatiotemporal expression of prostaglandin F synthase and microsomal prostaglandin E synthase-1 in porcine endometrium[J].Endocrinology,2006,147(1):210-221.
[40]	KACZYNSKI P,KOWALEWSKI M P,WACLAWIK A.Prostaglandin F2α promotes angiogenesis and embryo-maternal interactions during implantation[J].Reproduction,2016,151(5):539-552.
[41]	KACZYNSKI P,BARYLA M,GORYSZEWSKA E,et al.Prostaglandin F2α promotes embryo implantation and development in the pig[J].Reproduction,2018,156(5):405-419.
[42]	CAMPANILE G,BARUSELLI P S,LIMONE A,et al.Local action of cytokines and immune cells in communication between the conceptus and uterus during the critical period of early embryo development, attachment and implantation-Implications for embryo survival in cattle:a review[J].Theriogenology,2021,167:1-12.
[43]	SESHAGIRI P B,VANI V,MADHULIKA P.Cytokines and blastocyst hatching[J].Am J Reprod Immunol,2016,75(3):208-217.
[44]	JEONG W,KIM J,BAZER F,et al.Epidermal growth factor stimulates proliferation and migration of porcine trophectoderm cells through protooncogenic protein kinase 1 and extracellular-signal-regulated kinases 1/2 mitogen-activated protein kinase signal transduction cascades during early pregnancy[J].Mol Cell Endocrinol,2013,381(1-2):302-311.
[45]	JEONG W,JUNG S,BAZER F W,et al.Epidermal growth factor:porcine uterine luminal epithelial cell migratory signal during the peri-implantation period of pregnancy[J].Mol Cell Endocrinol,2016,420:66-74.
[46]	ZHANG Z,KRAUSE M,DAVIS D L.Epidermal growth factor receptors in porcine endometrium:binding characteristics and the regulation of prostaglandin E and F2α production[J].Biol Reprod,1992,46(5):932-936.
[47]	CHOI Y,SEO H,YOO I,et al.Maternal-conceptus interactions:mediators regulating the implantation process in pigs[J].Reprod Dev Biol, 2014,38(1):9-19.
[48]	WINTHER H,AHMED A,DANTZER V.Immunohistochemical localization of vascular endothelial growth factor (VEGF) and its two specific receptors,Flt-1 and KDR,in the porcine placenta and non-pregnant uterus[J].Placenta,1999,20(1):35-43.
[49]	KENNEDY T G,BROWN K D,VAUGHAN T J.Expression of the genes for the epidermal growth factor receptor and its ligands in porcine oviduct and endometrium[J].Biol Reprod,1994,50(4):751-756.
[50]	VAUGHAN T J,JAMES P S,PASCALL J C,et al.Expression of the genes for TGFα,EGF and the EGF receptor during early pig development[J].Development,1992,116(3):663-669.
[51]	龚玲玲,卓睿,周正欣,等.母胎免疫耐受平衡与复发性流产关系的研究进展[J].实用医院临床杂志,2021,18(1):187-190.GONG L L,ZHUO R,ZHOU Z X,et al.Research progress on the relationship between maternal-fetal immune tolerance balance and recurrent spontaneous abortion[J].Practical Journal of Clinical Medicine,2021,18(1):187-190.(in Chinese)
[52]	李大金.母-胎界面交叉对话机制[C]//第八届全国中西医结合妇产科学术大会论文及摘要集.重庆:中国中西医结合学会,2012:10-15.LI D J.Maternal-fetal interface cross dialogue mechanism[C]//The 8th National Conference of Obstetrics and Gynecology of Integrated Traditional Chinese and Western Medicine Papers and Abstracts.Chongqing:Chinese Association of Integrative Medicine,2012:10-15.(in Chinese)
[53]	ROSS J W,MALAYER J R,RITCHEY J W,et al.Characterization of the interleukin-1β system during porcine trophoblastic elongation and early placental attachment[J].Biol Reprod,2003,69(4):1251-1259.
[54]	SEO H,CHOI Y,SHIM J,et al.Regulatory mechanism for expression of IL1B receptors in the uterine endometrium and effects of IL1B on prostaglandin synthetic enzymes during the implantation period in pigs[J].Biol Reprod,2012,87(2):31.
[55]	PUSATERI A E,ROTHSCHILD M F,WARNER C M,et al.Changes in morphology,cell number,cell size and cellular estrogen content of individual littermate pig conceptuses on days 9 to 13 of gestation[J].J Anim Sci,1990,68(11):3727-3735.
[56]	FRANCZAK A,ZMIJEWSKA A,KUROWICKA B,et al.Interleukin 1β-induced synthesis and secretion of prostaglandin E2 in the porcine uterus during various periods of pregnancy and the estrous cycle[J].J Physiol Pharmacol,2010,61(6):733-742.
[57]	DUBINSKY V,POEHLMANN T G,SUMAN P,et al.ORIGINAL ARTICLE:role of regulatory and angiogenic cytokines in invasion of trophoblastic cells[J].Am J Reprod Immunol,2010,63(3):193-199.
[58]	GEISERT R D,LUCY M C,WHYTE J J,et al.Cytokines from the pig conceptus:roles in conceptus development in pigs[J].J Anim Sci Biotechnol,2014,5(1):51.
[59]	LLOBAT L.Embryo gene expression in pig pregnancy[J].Reprod Domest Anim,2020,55(4):523-529.
[60]	ZŁOTKOWSKA A,ANDRONOWSKA A.Chemokines as the modulators of endometrial epithelial cells remodelling[J].Sci Rep,2019,9(1):12968.
[61]	GIACOMINI E,VAGO R,SANCHEZ A M,et al.Secretome of in vitro cultured human embryos contains extracellular vesicles that are uptaken by the maternal side[J].Sci Rep,2017,7(1):5210.
[62]	华仁武,雷明刚.外泌体调控哺乳动物妊娠作用的研究进展[J].中国畜牧杂志,2020,56(9):16-20.HUA R W,LEI M G.Research progress on the regulation of mammalian pregnancy by exosomes[J].Chinese Journal of Animal Science,2020,56(9):16-20.(in Chinese)
[63]	WESSELS J M,EDWARDS A K,KHALAJ K,et al.The microRNAome of pregnancy:deciphering miRNA networks at the maternal-fetal interface[J].PLoS One,2013,8(11):e72264.
[64]	邱梅玉,李涛,黄涛,等.妊娠早期动物体液外泌体miRNA的研究进展[J].中国兽医学报,2019,39(5):1040-1044.QIU M Y,LI T,HUANG T,et al.Progress of exosomes miRNAs in female animal at early pregnancy stage[J].Chinese Journal of Veterinary Science,2019,39(5):1040-1044.(in Chinese)
[65]	BIDARIMATH M,TAYADE C.Pregnancy and spontaneous fetal loss:a pig perspective[J].Mol Reprod Dev,2017,84(9):856-869.
[66]	贺艳娟,刘德武,吴珍芳,等.外泌体在哺乳动物胚胎附植中的作用研究进展[J].中国畜牧杂志,2020,56(2):23-28.HE Y J,LIU D W,WU Z F,et al.Research progress on exosomes in mammalian embryo implantation[J].Chinese Journal of Animal Science, 2020,56(2):23-28.(in Chinese)
[67]	张蓉,赵乐,杨海丽,等.细胞外囊泡调控哺乳动物胚胎附植研究进展[J].畜牧兽医学报,2021,52(5):1154-1162.ZHANG R,ZHAO L,YANG H L,et al.Research progress of extracellular vesicles regulating mammalian embryo implantation[J].Acta Veterinaria et Zootechnica Sinica,2021,52(5):1154-1162.(in Chinese)
[68]	KACZMAREK M M,NAJMULA J,GUZEWSKA M M,et al.MiRNAs in the peri-implantation period:contribution to embryo-maternal communication in pigs[J].Int J Mol Sci,2020,21(6):2229.
[69]	曹永芝.HMGA2在子宫内膜容受性中的作用研究[D].北京:中国农业大学,2019.CAO Y Z.Study on the function of Hmga2 in the endometrial receptivity[D].Beijing:China Agricultural University,2019.(in Chinese)
[70]	臧旭鹏,胡群,吴珍芳,等.影响附植期猪胚胎形态转变相关基因研究进展[J].中国畜牧杂志,2020,56(9):21-25.ZANG X P,HU Q,WU Z F,et al.Research progress on genes related related to morphological transformation of porcine embryos during implantation stage[J].Chinese Journal of Animal Science,2020,56(9):21-25.(in Chinese)
[71]	FRISÉN J,HOLMBERG J,BARBACID M.Ephrins and their Eph receptors:multitalented directors of embryonic development[J].EMBO J,1999,18(19):5159-5165.
[72]	童伟钊,刘伟,胡国信.促红细胞生成素产生肝细胞受体在肝纤维化、肝癌发病机制中的作用[J].临床肝胆病杂志, 2021, 37(11): 2663-2666.TONG W Z,LIU W,HU G X.Role of erythropoietin-producing hepatocyte receptors in the pathogenesis of liver fibrosis and hepatocellular carcinoma[J].Journal of Clinical Hepatology,2021,37(11):2663-2666.(in Chinese)
[73]	LIM W,BAE H,BAZER F W,et al.Functional roles of Eph A-Ephrin A1 System in endometrial luminal epithelial cells during early pregnancy[J].J Cell Physiol,2017,232(6):1527-1538.
[74]	FU Y F,LI L,FANG X M,et al.Investigation of Eph-ephrin A1 in the regulation of embryo implantation in sows[J].Reprod Domest Anim,2018,53(6):1563-1574.
[75]	FUJIWARA H,YOSHIOKA S,TATSUMI K,et al.Human endometrial epithelial cells express ephrin A1:possible interaction between human blastocysts and endometrium via Eph-ephrin system[J].J Clin Endocrinol Metab,2002,87(12):5801-5807.
[76]	FUJII H,FUJIWARA H,HORIE A,et al.Ephrin A1 induces intercellular dissociation in Ishikawa cells:possible implication of the Eph-ephrin A system in human embryo implantation[J].Hum Reprod,2011,26(2):299-306.
[77]	薛宋裔.猪胚胎附植期子宫内膜蛋白组分析及RBP4功能研究[D].武汉:华中农业大学,2021.XUE S Y.Analysis of proteome during embryo implantation in porcine endometrium and the study of RBP4[D].Wuhan:Huazhong Agricultural University,2021.(in Chinese)
[78]	GORYSZEWSKA E,KACZYNSKI P,BARYLA M,et al.Pleiotropic role of prokineticin 1 in the porcine endometrium during pregnancy establishment and embryo implantation[J].Biol Reprod,2021,104(1):181-196.
[79]	GORYSZEWSKA E,KACZYNSKI P,BALBONI G,et al.Prokineticin 1-prokineticin receptor 1 signaling promotes angiogenesis in the porcine endometrium during pregnancy[J].Biol Reprod,2020,103(3):654-668.
[80]	REYNAUD D,SERGENT F,ABI NAHED R,et al.Evidence-based view of safety and effectiveness of prokineticin receptors antagonists during pregnancy[J].Biomedicines,2021,9(3):309.
[81]	祁梦凡,谢苏,高若男,等.母猪妊娠早期血液中差异表达蛋白的鉴定[J].畜牧兽医学报,2022,53(4):1109-1121.QI M F,XIE S,GAO R N,et al.Identification of differentially expressed proteins in blood of sows at early pregnancy[J].Acta Veterinaria et Zootechnica Sinica,2022,53(4):1109-1121.(in Chinese)
[82]	郭良勇,傅金銮,王爱国.猪整合素β1基因CRS-PCR多态性与产仔数的关联性分析[J].遗传,2012,34(7):879-886.GUO L Y,FU J L,WANG A G.Analysis of association between CRS-PCR polymorphisms of in-tegrin β1 gene and litter size in pig[J].Hereditas (Beijing),2012,34(7):879-886.(in Chinese)
[83]	JALALI B M,BOGACKI M,DIETRICH M,et al.Proteomic analysis of porcine endometrial tissue during peri-implantation period reveals altered protein abundance[J].J Proteomics,2015,125:76-88.
[84]	MAREI W F A,WATHES D C,RAHEEM K A,et al.Influence of hyaluronan on endometrial receptivity and embryo attachment in sheep[J].Reprod Fertil Dev,2017,29(9):1763-1773.
[85]	BERNEAU S C,RUANE P T,BRISON D R,et al.Investigating the role of CD44 and hyaluronate in embryo-epithelial interaction using an in vitro model[J].Mol Hum Reprod,2019,25(5):265-273.
[86]	韩昆,王围围,董伟杰,等.猪胚胎附植调控机制研究[C]//中国生理学会生殖科学专业委员会—中国动物学会生殖生物学分会第二次联合学术年会暨“生殖科学专业委员会第二次学术交流会”和“生殖生物学分会第十六次学术年会”论文集.合肥: 中国生理学会,2017:248.HAN K,WNAG W W,DONG W J,et al.Research on the regulation mechanism of porcine embryo implantation[C]//Proceedings of the 2nd Joint Academic Conference of Reproductive Biology Branch of Chinese Society of Zoology and the 2nd Academic Exchange Conference of Reproductive Science Special Committee and the 16th Academic Conference of Reproductive Biology Branch of Chinese Society of Zoology.Hefei:Chinese Association for Physiological Sciences,2017:248.(in Chinese)
[87]	LIU G P,ZHANG C X,WANG Y T,et al.New exon and accelerated evolution of placental gene Nrk occurred in the ancestral lineage of placental mammals[J].Placenta,2021,114:14-21.
[88]	庞丽燕,刘彦,白佳桦,等.影响仔猪初生重和均匀度的因素及调控机理研究进展[J].中国畜牧杂志,2022,58(5):65-71.PANG L Y,LIU Y,BAI J H,et al.Research progress on factors affecting birth weight and within-litter variation of piglets and its regulation mechanism[J].Chinese Journal of Animal Science,2022,58(5):65-71.(in Chinese)
[89]	刘月帅,刘彦,曹忻,等.哺乳动物胎盘营养感应研究进展[J].畜牧兽医学报,2022,53(5):1321-1333.LIU Y S,LIU Y,CAO X,et al.Research progress on mammalian placental nutrition sensing[J].Acta Veterinaria et Zootechnica Sinica, 2022, 53(5):1321-1333.(in Chinese)

A Review of Mother-fetal Dialogue during Pregnancy in Sows

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References 89

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	ZHONG Xin, ZHANG Hui, ZHANG Chong, LIU Xiaohong. Research Progress on Genetic Breeding of Reproductive Performance in Sows [J]. Acta Veterinaria et Zootechnica Sinica, 2024, 55(2): 438-450.
[2]	HE Chenpeng, LI Baizhen, LIU Jie, HE Jianhua, WU Shusong. Research Progress on Main Causes and Mechanism of Sow Reproductive Disorder Syndrome [J]. Acta Veterinaria et Zootechnica Sinica, 2023, 54(8): 3139-3151.
[3]	QIN Xue, SHA Yiwen, YANG Menghao, CAI Rui, PANG Weijun. Advances in Regulation of Non-coding RNA on Mammalian Endometrial Receptivity and Decidualization [J]. Acta Veterinaria et Zootechnica Sinica, 2023, 54(4): 1347-1358.
[4]	HU Yamei, SONG Xiangrong, HUANG Liang, ZHANG Lutong, GAO Lei, PANG Weijun, YANG Gongshe, CHU Guiyan. FGF21 Enhances Mitochondrial Function and Inhibits Apoptosis of Porcine Ovarian Granulosa Cells [J]. Acta Veterinaria et Zootechnica Sinica, 2023, 54(3): 1034-1045.
[5]	GUO Dawei, HOU Silu, CHI Yujia, YU Feike, YU Xiaohan, DENG Qian, XIAO Chuanming, LIU Xiaoye, DONG Hong. Clinical Research of Qiying Decoction and Zigan Decoction on Promoting Reproductive Performance of Sows and Growth Performance of Weaned Piglets [J]. Acta Veterinaria et Zootechnica Sinica, 2022, 53(6): 1994-2004.
[6]	QI Mengfan, XIE Su, GAO Ruonan, SUN Yishan, SUN Xiaomei, HE Junfei, LU Huiwen, LU Shihao, CHEN Xin, LI Qingchun, HUANG Tao. Identification of Differentially Expressed Proteins in Blood of Sows at Early Pregnancy [J]. Acta Veterinaria et Zootechnica Sinica, 2022, 53(4): 1109-1121.
[7]	KUANG Jingjing, HE Yanjuan, HU Qun, GU Ting, WU Zhenfang, CAI Gengyuan, HONG Linjun. Effect of TIMP2 Protein Derived from Porcine Uterine Fluid Exosomes on Embryo Implantation During Early Pregnancy [J]. Acta Veterinaria et Zootechnica Sinica, 2022, 53(4): 1122-1132.
[8]	ZHANG Rong, ZHAO Le, YANG Haili, YANG Yongheng, CHENG Wenqiang, ZHAO Yongju. Research Progress of Extracellular Vesicles Regulating Mammalian Embryo Implantation [J]. Acta Veterinaria et Zootechnica Sinica, 2021, 52(5): 1154-1162.
[9]	LUO Fang, TAO Jinzhong. Screen of Candidate Biomarkers for Different Pregnancy Status of Cows Based on UHPLC-QTOF-MS Metabolomics [J]. Acta Veterinaria et Zootechnica Sinica, 2021, 52(11): 3118-3125.
[10]	WU Fengyang, YANG Xinyu, LI Jinli, CHEN Baojiang. Research Progress on Reproductive Toxicity of Zearalenone to Sows [J]. Acta Veterinaria et Zootechnica Sinica, 2020, 51(2): 227-233.
[11]	LI Meng-xun, HUANG Tao, MA Li-peng, LIU Yi, LI Tao, GONG Hong-bin, QIU Mei-yu, XIE Su, SUN Xiao-mei. Cloning of Porcine lncRNA-ENSSSCT00000018610 and Its Expression Pattern in Porcine Ovarian Follicles [J]. ACTA VETERINARIA ET ZOOTECHNICA SINICA, 2018, 49(9): 1830-1839.
[12]	FU Yan-feng, LI Lan, ZHAO Wei-min, FANG Xiao-min, LI Bi-xia, WANG Xue-min, ZHOU Li-sheng, REN Shou-wen. Differentially Expressed Genes Analysis between Mid-implantation and Post-implantation in Porcine Ovary by RNA Sequencing [J]. ACTA VETERINARIA ET ZOOTECHNICA SINICA, 2018, 49(9): 1879-1888.
[13]	GUO Yan-sheng, TAO Jin-zhong. Selection of Milk Biomarkers of Pregnancy Recognition in Dairy Cows Based on LC-Q/TOF-MS Metabolomics [J]. ACTA VETERINARIA ET ZOOTECHNICA SINICA, 2018, 49(8): 1633-1641.
[14]	SUN Ye, ZENG Zi-han, JIA Can-can, NING Cai-bo, WU Wang-jun, ZHAO Fang, LIU Hong-lin. The Effects of Adrenocorticotropic Hormone on the Transcript Expression and Activities of Glucose Metabolism-related Enzymes in the Liver of Sows [J]. ACTA VETERINARIA ET ZOOTECHNICA SINICA, 2018, 49(11): 2340-2348.
[15]	GUO Hong-zhou, ZHU Lin, ZHANG Long-chao, YAN Hua, WANG Li-gang, HOU Xin-hua, GAO Hong-mei, ZHAO Fu-ping, LIU Xin, WANG Li-xian. The Effect of Age at Puberty on Reproductive Performance in Yorkshire Sows [J]. ACTA VETERINARIA ET ZOOTECHNICA SINICA, 2018, 49(11): 2402-2408.