Transforming growth factor-β superfamily and interferon-τ in ovarian function and embryo development in female cattle: review of biology and application

Survival of the embryo and establishment of a pregnancy is a critical period in the reproductive function of female cattle. This review examines how the transforming growth factor-β (TGFB) superfamily (i.e. bone morphogenetic protein (BMP) 15, growth differentiation factor (GDF) 9, anti-Müllerian ho...

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Veröffentlicht in:	Reproduction fertility and development 2020-03, Vol.32 (6), p.539-552
Hauptverfasser:	D Occhio, Michael J, Campanile, Giuseppe, Baruselli, Pietro S
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Anti-Mullerian Hormone - metabolism Bone Morphogenetic Protein 15 - metabolism Cattle Cell Communication Embryonic Development Female Fertility Growth Differentiation Factor 9 - metabolism Interferon Type I - metabolism Ovary - metabolism Pregnancy Pregnancy Proteins - metabolism Reproductive Techniques, Assisted - veterinary Signal Transduction TGF-beta Superfamily Proteins - metabolism
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container_issue	6
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container_title	Reproduction fertility and development
container_volume	32
creator	D Occhio, Michael J Campanile, Giuseppe Baruselli, Pietro S
description	Survival of the embryo and establishment of a pregnancy is a critical period in the reproductive function of female cattle. This review examines how the transforming growth factor-β (TGFB) superfamily (i.e. bone morphogenetic protein (BMP) 15, growth differentiation factor (GDF) 9, anti-Müllerian hormone (AMH)) and interferon-τ (IFNT) affect ovarian function and embryo development. The oocyte in a primary follicle secretes BMP15 and GDF9, which, together, organise the surrounding granulosa and theca cells into the oocyte-cumulus-follicle complex. At the same time, the granulosa secretes AMH, which affects the oocyte. This autocrine-paracrine dialogue between the oocyte and somatic cells continues throughout follicle development and is fundamental in establishing the fertilisation potential and embryo developmental competency of oocytes. The early bovine embryo secretes IFNT, which acts at the uterine endometrium, corpus luteum and blood leucocytes. IFNT is involved in the maternal recognition of pregnancy and immunomodulation to prevent rejection of the embryo, and supports progesterone secretion. Manipulation of BMP15, GDF9, AMH and IFNT in both invivo and invitro studies has confirmed their importance in reproductive function in female cattle. This review makes the case that a deeper understanding of the biology of BMP15, GDF9, AMH and IFNT will lead to new strategies to increase embryo survival and improve fertility in cattle. The enhancement of oocyte quality, early embryo development and implantation is considered necessary for the next step change in the efficiency of natural and assisted reproduction in cattle.
doi_str_mv	10.1071/RD19123
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This review examines how the transforming growth factor-β (TGFB) superfamily (i.e. bone morphogenetic protein (BMP) 15, growth differentiation factor (GDF) 9, anti-Müllerian hormone (AMH)) and interferon-τ (IFNT) affect ovarian function and embryo development. The oocyte in a primary follicle secretes BMP15 and GDF9, which, together, organise the surrounding granulosa and theca cells into the oocyte-cumulus-follicle complex. At the same time, the granulosa secretes AMH, which affects the oocyte. This autocrine-paracrine dialogue between the oocyte and somatic cells continues throughout follicle development and is fundamental in establishing the fertilisation potential and embryo developmental competency of oocytes. The early bovine embryo secretes IFNT, which acts at the uterine endometrium, corpus luteum and blood leucocytes. IFNT is involved in the maternal recognition of pregnancy and immunomodulation to prevent rejection of the embryo, and supports progesterone secretion. 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subjects	Animals Anti-Mullerian Hormone - metabolism Bone Morphogenetic Protein 15 - metabolism Cattle Cell Communication Embryonic Development Female Fertility Growth Differentiation Factor 9 - metabolism Interferon Type I - metabolism Ovary - metabolism Pregnancy Pregnancy Proteins - metabolism Reproductive Techniques, Assisted - veterinary Signal Transduction TGF-beta Superfamily Proteins - metabolism
title	Transforming growth factor-β superfamily and interferon-τ in ovarian function and embryo development in female cattle: review of biology and application
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