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  • Author: Luís Lopes-da-Costa x
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Mariana R Batista, Patrícia Diniz, Daniel Murta, Ana Torres, Luís Lopes-da-Costa, and Elisabete Silva

This study investigated the role of Notch and Wnt cell signaling interplay in the mouse early embryo, and its effects on fetal development. Developmental kinetics was evaluated in embryos in vitro cultured from the 8-16-cell to the hatched blastocyst stage in the presence of signaling inhibitors of Notch (DAPT) and/or Wnt (DKK1). An embryo subset was evaluated for differential cell count and gene transcription of Notch (receptors Notch1-4, ligands Dll1, Dll4, Jagged1-2, effectors Hes1-2) and Wnt (Wnt3a, Lrp6, Gsk3β, C-myc, Tcf4, β-catenin) components, E-cadherin and pluripotency and differentiation markers (Sox2, Oct4, Klf4, Cdx2), whereas a second subset was evaluated for implantation ability and development to term following transfer into recipients. Notch and Wnt blockades had significant opposing effects on developmental kinetics – Notch blockade retarded while Wnt blockade fastened development. This evidences that Notch and Wnt regulate the pace of embryo kinetics by respectively speeding and braking development. Blockades significantly changed the transcription profile of Sox2, Oct4, Klf4 and Cdx2, and Notch and double blockades significantly changed embryonic cell numbers and cell ratio. The double blockade induced more severe phenotypes than those expected from the cumulative effects of single blockades. Implantation ability was unaffected, but Notch and double blockades significantly decreased fetal development to term. Compared to control embryos, Notch blockade and Wnt blockade embryos originated, respectively, significantly lighter and heavier fetuses. In conclusion, Notch and Wnt signaling interplay in the regulation of the pace of early embryo kinetics, and their actions at this stage have significant carry-over effects on later fetal development to term.

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Gonçalo Pereira, Ricardo Bexiga, João Chagas e Silva, Elisabete Silva, Christelle Ramé, Joëlle Dupont, Yongzhi Guo, Patrice Humblot, and Luís Lopes-da-Costa

Adipokines emerged as regulators of metabolism and inflammation in several scenarios. This study evaluated the relationship between adipokines (adiponectin, chemerin and visfatin) and cytological (subclinical) endometritis, by comparing healthy (without), transient (recovered by 45 days postpartum (DPP)) and persistent (until 45 DPP) endometritis cows (n = 49). Cows with persistent endometritis had higher adiponectin concentrations in plasma (at 21 DPP, P < 0.05 and at 45 DPP, P < 0.01) and in uterine fluid (at 45 DPP, P < 0.001), and higher chemerin concentrations in plasma (P < 0.05) and uterine fluid (P < 0.01) at 45 DPP than healthy cows. Cows with persistent endometritis had higher gene transcription in the cellular pellet of uterine fluid and protein expression in the endometrium of these adipokines and their receptors than healthy cows. Adiponectin plasma concentrations allowed to discriminate healthy from persistent endometritis cows, in 87% (21 DPP) and 98% (45 DPP) of cases, and adiponectin and chemerin uterine fluid concentrations at 45 DPP allowed for this discrimination in 100% of cases. Cows with concentrations above the cutoff were a minimum of 3.5 (plasma 21 DPP), 20.4 (plasma 45 DPP), and 33.3 (uterine fluid 45 DPP) times more at risk of evidencing persistent endometritis at 45 DPP than cows with concentrations below the cutoff. Overall, results indicate a relationship between adipokine signalling and the inflammatory status of the postpartum uterus of dairy cows, evidencing that adipokines represent suitable biomarkers of subclinical endometritis, able to predict the risk of persistence of inflammation.