Retinol-binding protein (RBP), retinol and β-carotene in the bovine uterus and plasma during the oestrous cycle and the relationship between systemic progesteroneand RBP on Day 7

Costello, Lisa M.; O'Boyle, Padraic; Godkin, James D.; Diskin, M.G.; Hynes, A. C.; Morris, Deborah

doi:10.1071/rd10034

Cited by 15 publications

(20 citation statements)

References 47 publications

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“…These findings highlight the somewhat paradoxical actions of P4. On the one hand, increased P4 concentrations stimulate conceptus elongation (Garrett et al 1988a;Satterfield et al 2006;Carter et al 2008) via well-characterised changes induced in the endometrial transcriptome (Forde et al , 2011b and associated changes in the histotroph (Costello et al 2010;Hugentobler et al 2010). Conversely, there is convincing evidence in the literature that administration of P4 early in the cycle may compromise CL function, ultimately leading to luteolysis and embryo loss (Ginther 1970;Garrett et al 1988a;Burke et al 1994;Pope et al 1995;Van Cleeff et al 1996).…”

Section: Discussionmentioning

confidence: 99%

Paradoxical effect of supplementary progesterone between Day 3 and Day 7 on corpus luteum function and conceptus development in cattle

O'Hara¹,

Forde²,

Carter³

et al. 2014

Reprod. Fertil. Dev.

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Abstract. The aim of the present study was to investigate the effect of short-term progesterone (P4) supplementation during the early metoestrous period on circulating P4 concentrations and conceptus development in cattle. The oestrous cycles of cross-bred beef heifers were synchronised using a 7-day P4-releasing intravaginal device (PRIDÒ Delta; 1.55 g P4) treatment with administration of a prostaglandin F 2a analogue (Enzaprost; CEVA Sante Animale) the day before PRIDÒ Delta removal. Only those heifers recorded in standing oestrus (Day 0) were used. In Experiment 1, heifers were randomly assigned to one of five groups: (1) control: no treatment; (2) placebo: insertion of a blank device (no P4) from Day 3 to Day 7; (3) insertion of a PRIDÒ Delta from Day 3 to Day 7; (4) insertion of a PRIDÒ Delta from Day 3 to Day 5; or (5) insertion of a PRIDÒ Delta from Day 5 to Day 7. In vitro-produced blastocysts were transferred to each heifer in Groups 2-5 on Day 7 (n ¼ 10 blastocysts per heifer) and conceptuses were recovered when heifers were killed on Day 14. Based on the outcome of Experiment 1, in Experiment 2 heifers were artificially inseminated at oestrus and randomly assigned to one of three treatment groups: (1) placebo; (2) PRID from Day 3 to Day 5; or (3) PRID from Day 3 to Day 7. All heifers were killed on Day 16 and recovered conceptuses were incubated in synthetic oviducal fluid medium for 24 h; spent media and uterine flushes were analysed for interferon-t (IFNT). In both experiments, daily blood samples were taken to determined serum P4 concentrations. Data were analysed using the PROC MIXED procedure of SAS (SAS Institute, Cary, NC, USA). Insertion of a PRID resulted in an increase (P , 0.05) in serum P4 that declined following removal. In Experiment 1, P4 supplementation from Day 3 to Day 5 (17.0 AE 1.4 mm) or Day 3 to Day 7 (11.3 AE 2.3 mm) increased conceptus length compared with placebo (2.1 AE 1.8 mm). Serum P4 was significantly lower from Day 9 to Day 14 (P , 0.05) and the weight of the Day 14 corpus luteum (CL) was lower in the PRID Day 3-7 group than the placebo or control groups. In Experiment 2, supplementation from Day 3 to Day 5 (94.0 AE 18.8 mm) or Day 3 to Day 7 (143.6 AE 20.6 mm) increased conceptus length on Day 16 compared with placebo (50.3 AE 17.4 mm). Serum P4 was significantly lower in the two supplemented groups following PRID removal compared with placebo (P , 0.05) and was associated with a lower CL weight in the Day 3-7 group. Conceptus length was strongly correlated with the IFNT concentration in the uterine flush (r ¼ 0.58; P ¼ 0.011) and spent culture medium (r ¼ 0.68; P , 0.002). The findings of the present study highlight the somewhat paradoxical effects of P4 supplementation when given in the early metoestrous period in terms of its positive effect on conceptus development and its potentially negative effects on CL lifespan.

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Section: Discussionmentioning

confidence: 99%

Paradoxical effect of supplementary progesterone between Day 3 and Day 7 on corpus luteum function and conceptus development in cattle

O'Hara¹,

Forde²,

Carter³

et al. 2014

Reprod. Fertil. Dev.

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“…Coordinate with this event is an alteration in the overall transcriptional profile of the endometrium (Forde et al, 2012a and allowing the switching on of genes (and their protein products) that have been shown to drive conceptus elongation in cattle or other species. This includes the increased expression and or secretion of the proteins IGFBP1 (Simmons et al, 2009), GRP, APOA1, ARSA, LCAT, NCDN, PLIN , Legumin, TIMP2 (Ledgard et al, 2009) and RBP4 (Costello et al, 2010;Mullen et al, 2012) into the uterine lumen where they are available to help promote conceptus elongation.…”

Section: Introductionmentioning

confidence: 99%

“…First, supplementation with exogenous P4 advances the down-regulation of the PGR (Okumu et al, 2010) while delaying the output of P4 from the CL, delays the down-regulation of the PGR (Forde et al, 2011a). This has consequences for the expression of genes that contribute to the histotroph; elevating P4 advances or increases the expression of genes while low P4 delays or decreases the expression of genes known to be important for histotroph composition including ANPEP, APOA1, DGAT2, FABP3, IGFBP1, IHH, LCAT, LPL, LTF, MEP1B, NID2, NMN, NPNT, NXPH3, PENK, PLIN2, PRSS23, RBP4, SCG5, SERPINA14, TINGAL1 and TFF3 (Costello et al, 2010;Forde et al, 2011a and2012a;Mullen et al, 2012). The P4 modification of the expression of these genes, and in some cases their protein products, results in a change in the capacity of the uterus to support conceptus elongation.…”

Section: Introductionmentioning

confidence: 99%

Maternal-embryo interaction leading up to the initiation of implantation of pregnancy in cattle

Lonergan¹,

Forde²

2014

Animal

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Early embryo development following fertilization occurs in the oviduct. However, despite being the site of fertilization in cattle, it is possible to by-pass the oviduct by producing embryos in vitro and/or by transferring blastocysts recovered from one female into the uterus of another. While there is substantial evidence for the oviduct having an influence on the quality of the developing embryo, manifested in altered morphology, gene expression and cryotolerance, evidence for a two-way dialogue is weak. In contrast, successful growth and development of the post-hatching blastocyst and pregnancy establishment are a result of the two-way interaction between a competent embryo and a receptive uterine environment. Progesterone (P4) plays a key role in reproductive events associated with establishment and maintenance of pregnancy through its action on the uterine endometrium. Elevated concentrations of circulating P4 in the immediate post-conception period have been associated with an advancement of conceptus elongation, an increase in interferon-tau production and, in some studies, higher pregnancy rates in cattle. This review summarizes current knowledge on the communication between the developing embryo and the maternal reproductive tract.

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“…Gene expression is given in italics and protein abundance is given in normal font. Data compiled from references [20,27,34,35,49,64,65,67,[74][75][76][77]. FORDE and LONERGAN 192 in both beef and dairy cattle have identified a correlation between concentrations of progesterone up to Day 7 following insemination and subsequent pregnancy rates [44,45].…”

Section: Cycle Related Changesmentioning

confidence: 99%

“…One could hypothesise that this would hold true for cattle; however, there are very limited data available to test this hypothesis. The presence of both retinol and retinol binding protein (RBP) have been detected in uterine luminal fluid on Day 15 in cyclic animals [74] and the use of 2-D gel electorphoresis identified increased protein abundance of carbonic anhydrase, ezrin, heat shock protein 70, isocitrate dehydrogenase, nucleoside diphosphate kinase, peroxiredoxin 1, purine nucleoside phosphorylase, thioredoxin and triosephosphate isomerise with a coordinate decrease in cystatin E/M, legumain, RBP and tissue inhibitor of matrix metalloproteinase 2 [75]. In addition to these proteins, the concentration of 6-keto PGF1alpha, PEF2a, PGE2, PGD2 and TXB2 are higher in the uterine fluid from pregnant heifers on Day 15 and 18 compared to their cyclic counterparts [76] as well as increased concentrations of both essential and non-essential proteinogenic amino acids in the gravid uterine horn on Day 18 [77].…”

mentioning

confidence: 99%

Transcriptomic Analysis of the Bovine Endometrium: What is Required to Establish Uterine Receptivity to Implantation in Cattle ?

2012

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Abstract. In cattle, the majority of pregnancy loss can be attributed to early embryonic loss which occurs prior maternal recognition of pregnancy on Day 16 (Day 0 = ovulation). During this time, carefully orchestrated spatio-temporal alterations in the transcriptomic profile of the endometrium are required to drive conceptus elongation, via secretions from the endometrium (termed histotroph) and establish uterine receptivity to implantation. The two main modulators of these processed are progesterone (P4) and the pregnancy recognition signal interferon tau (IFNT). Altered concentrations of P4 in circulation mediate its effects via the endometrium and have been associated with different rates of conceptus elongation in cattle. Transcriptomic analysis of the endometrium has shown that modulation of circulating P4 alters endometrial expression of genes that can contribute to histotroph composition, which is beneficial (when P4 is supplemented) or detrimental (when P4 is reduced) to the developing conceptus. In addition, down-regulation of the progesterone receptor, required to establish uterine receptivity, is altered in the endometrium of heifers with altered P4 concentrations. IFNT, a type 1 interferon, also significantly impacts on the endometrial transcriptome. It induces the expression of a large number of classical interferon stimulated genes as early as Day 15 of pregnancy. In summary, the successful establishment of pregnancy in cattle requires a sequence of key events to ensure appropriate maternally derived secretions, establish uterine receptivity to implantation as well as an adequate endometrial response to IFNT production. Key words: Estrous cycle, Gene expression, Pregnancy, Progesterone (J. Reprod. Dev. 58: [189][190][191][192][193][194][195] 2012) I n cattle, as in other ungulate ruminants, the implantation process is characterized by a protracted period of elongation of the hatched blastocyst followed by apposition, attachment and adhesion of the trophectoderm to the uterine luminal epithelium (LE) [1,2]. Following successful fertilisation of an oocyte in the oviduct, the resulting embryo enters the uterus on approximately day 4 of pregnancy where it undergoes a number of cell divisions to form the morula which, after further differentiation, forms a blastocyst consisting of the inner cells mass (which will eventually give rise to the embryo/foetus) and an outer cell mass consisting of trophectoderm cells which ultimately give rise to the placenta. Up to the blastocyst stage of development, the embryo is relatively autonomous i.e. contact with the maternal uterine environment is not strictly required, as evidenced by the fact it is possible to culture embryos in vitro up to the blastocyst stage of development. However, once the embryo hatches from the zona pellucida (approximately day 9-10), significant morphological changes occur in the conceptus of domestic animals, including cattle, that differentiate the early pregnancy events from those of rodents, humans and non-human primates. The hatch...

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Retinol-binding protein (RBP), retinol and β-carotene in the bovine uterus and plasma during the oestrous cycle and the relationship between systemic progesteroneand RBP on Day 7

Cited by 15 publications

References 47 publications

Paradoxical effect of supplementary progesterone between Day 3 and Day 7 on corpus luteum function and conceptus development in cattle

Paradoxical effect of supplementary progesterone between Day 3 and Day 7 on corpus luteum function and conceptus development in cattle

Maternal-embryo interaction leading up to the initiation of implantation of pregnancy in cattle

Transcriptomic Analysis of the Bovine Endometrium: What is Required to Establish Uterine Receptivity to Implantation in Cattle ?

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