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11 results on '"Marigorta, Pilar"'

3. MEK signalling pathway is required for hypoblast specification and migration in ovine

Author

Martínez de Los Reyes, Nuria [0009-0009-1578-5537], Flores-Borobia, Inés [0009-0001-1551-0439], Carvajal-Serna, Melissa [0000-0003-3929-5064], Marigorta, Pilar [0000-0002-6287-5780], Bermejo Álvarez, Pablo [0000-0001-9907-2626], Ramos Ibeas, Priscila [0000-0003-4578-0189], Martínez de Los Reyes, Nuria, Flores-Borobia, Inés, Carvajal-Serna, Melissa, Marigorta, Pilar, Bermejo Álvarez, Pablo, Ramos Ibeas, Priscila, Martínez de Los Reyes, Nuria [0009-0009-1578-5537], Flores-Borobia, Inés [0009-0001-1551-0439], Carvajal-Serna, Melissa [0000-0003-3929-5064], Marigorta, Pilar [0000-0002-6287-5780], Bermejo Álvarez, Pablo [0000-0001-9907-2626], Ramos Ibeas, Priscila [0000-0003-4578-0189], Martínez de Los Reyes, Nuria, Flores-Borobia, Inés, Carvajal-Serna, Melissa, Marigorta, Pilar, Bermejo Álvarez, Pablo, and Ramos Ibeas, Priscila

Abstract

MEK signalling pathway is required for hypoblast differentiation in mouse embryos, but its role in ungulate embryos remains controversial. This paper demonstrates that MEK is required for hypoblast specification in the inner cell mass of the ovine blastocyst and that it plays a role during the hypoblast migration occurring following blastocyst hatching.

Published
2024

6. MEK signalling pathway is required for hypoblast specification and migration in ovine.

Author

de los Reyes, Nuria Martínez, Flores-Borobia, Inés, Carvajal-Serna, Melissa, Marigorta, Pilar, Bermejo-Álvarez, Pablo, and Ramos-Ibeas, Priscila

Subjects
EPIBLAST, CELLULAR signal transduction, FETAL membranes, CELL differentiation, BLASTOCYST
Abstract

In brief: MEK signalling pathway is required for hypoblast differentiation in mouse embryos, but its role in ungulate embryos remains controversial. This paper demonstrates that MEK is required for hypoblast specification in the inner cell mass of the ovine blastocyst and that it plays a role during the hypoblast migration occurring following blastocyst hatching. Abstract: Early embryo development requires the differentiation of three cell lineages in two differentiation events. The second lineage specification differentiates the inner cell mass into epiblast, which will form the proper fetus, and hypoblast, which together with the trophectoderm will form the extraembryonic membranes and the fetal part of the placenta. MEK signalling pathway is required for hypoblast differentiation in mouse embryos, but its role in ungulate embryos remains controversial. The aim of this work was to analyse the role of MEK signalling on hypoblast specification at the blastocyst stage and on hypoblast migration during post-hatching stages in vitro in the ovine species. Using well-characterized and reliable lineage markers, and different MEK inhibitor concentrations, we demonstrate that MEK signalling pathway is required for hypoblast specification in the inner cell mass of the ovine blastocyst, and that it plays a role during the hypoblast migration occurring following blastocyst hatching. These results show that the role of MEK signalling pathway on hypoblast specification is conserved in phylogenetically distant mammals. [ABSTRACT FROM AUTHOR]

Published
2024
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7. In vitro culture of ovine embryos up to early gastrulating stages

Author

European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), Ramos Ibeas, Priscila [0000-0003-4578-0189], González-Brusi, Leopoldo [0000-0002-6371-6423], Cocero Oviedo, María Jesús [0000-0002-6254-3057], Marigorta, Pilar [0000-0002-6287-5780], Alberio, Ramiro [0000-0001-6560-3919], Bermejo Álvarez, Pablo [0000-0001-9907-2626], Ramos Ibeas, Priscila, González-Brusi, Leopoldo, Used, María Torres, Cocero Oviedo, María Jesús, Marigorta, Pilar, Alberio, Ramiro, Bermejo Álvarez, Pablo, European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), Ramos Ibeas, Priscila [0000-0003-4578-0189], González-Brusi, Leopoldo [0000-0002-6371-6423], Cocero Oviedo, María Jesús [0000-0002-6254-3057], Marigorta, Pilar [0000-0002-6287-5780], Alberio, Ramiro [0000-0001-6560-3919], Bermejo Álvarez, Pablo [0000-0001-9907-2626], Ramos Ibeas, Priscila, González-Brusi, Leopoldo, Used, María Torres, Cocero Oviedo, María Jesús, Marigorta, Pilar, Alberio, Ramiro, and Bermejo Álvarez, Pablo

Abstract

Developmental failures occurring shortly after blastocyst hatching from the zona pellucida constitute a major cause of pregnancy losses in both humans and farm ungulates. The developmental events occurring following hatching in ungulates include the proliferation and maturation of extra-embryonic membranes - trophoblast and hypoblast - and the formation of a flat embryonic disc, similar to that found in humans, which initiates gastrulation prior to implantation. Unfortunately, our understanding of these key processes for embryo survival is limited because current culture systems cannot sustain ungulate embryo development beyond hatching. Here, we report a culture system that recapitulates most developmental landmarks of gastrulating ovine embryos: trophoblast maturation, hypoblast migration, embryonic disc formation, disappearance of the Rauber's layer, epiblast polarization and mesoderm differentiation. Our system represents a highly valuable platform for exploring the cell differentiation, proliferation and migration processes governing gastrulation in a flat embryonic disc and for understanding pregnancy failures during the second week of gestation. This article has an associated 'The people behind the papers' interview.

Published
2022

8. In vitro culture of ovine embryos up to early gastrulating stages

Author

Ramos-Ibeas, Priscila, Marigorta, Pilar, and Alberio, Ramiro

Subjects
Molecular Biology, Developmental Biology
Abstract

Developmental failures occurring shortly after blastocyst hatching from the zona pellucida constitute a major cause of pregnancy losses in both humans and farm ungulates. The developmental events occurring following hatching in ungulates include the proliferation and maturation of extra-embryonic membranes - trophoblast and hypoblast - and the formation of a flat embryonic disc, similar to that found in humans, which initiates gastrulation prior to implantation. Unfortunately, our understanding of these key processes for embryo survival is limited because current culture systems cannot sustain ungulate embryo development beyond hatching. Here, we report a culture system that recapitulates most developmental landmarks of gastrulating ovine embryos: trophoblast maturation, hypoblast migration, embryonic disc formation, disappearance of the Rauber's layer, epiblast polarization and mesoderm differentiation. Our system represents a highly valuable platform for exploring the cell differentiation, proliferation and migration processes governing gastrulation in a flat embryonic disc and for understanding pregnancy failures during the second week of gestation. This article has an associated 'The people behind the papers' interview.

Published
2022

9. Effect of lactose and glycerol on the motility, normal apical ridge, chromatin condensation and chromatin stability of frozen boar spermatozoa

Author

Marigorta, Pilar [0000-0002-6287-5780], Corcuera, B. D., Marigorta, Pilar, Sagüés, A., Saiz-Cidoncha, F., Pérez-Gutiérrez, J. F., Marigorta, Pilar [0000-0002-6287-5780], Corcuera, B. D., Marigorta, Pilar, Sagüés, A., Saiz-Cidoncha, F., and Pérez-Gutiérrez, J. F.

Abstract

The effect of lactose and glycerol concentration, as well as the equilibration time with glycerol was studied on motility, normal apical ridge (NAR), and chromatin state of boar spermatozoa after the freezing and thawing process. In the first experiment, samples were frozen in first and second extenders containing different concentrations of lactose (11, 12 and 14%). In the second experiment samples were frozen using second extenders with different concentrations of glycerol (4, 6, 8 and 10%) and were incubated at 5 °C for 0 and 30 min. Motility, motility after caffeine treatment, NAR, chromatin condensation and stability (susceptibility to decondense after heparin treatment) were evaluated. The results indicated that freezing spermatozoa in extenders with increasing concentrations of lactose adversely affected motility but provided a protective effect on acrosomes. Increased lactose concentration induced higher chromatin condensation but maintained the same stability. Increasing the glycerol concentration in the second extender from 4-6 to 8% led to higher motility and NAR as well as lower chromatin condensation and stability. When 30 min equilibration time was allowed after dilution with the same extenders, spermatozoa showed higher NAR and lower chromatin condensation and stability. The longer equilibration time was detrimental for motility when freezing in the 8% glycerol extender but favourable when using the 4% glycerol extender. Compared to the 8% glycerol, spermatozoa frozen in the 10% glycerol extender showed similar motility and increased chromatin condensation and stability, as well as low values of NAR that did not improve by longer incubation time. © 2007 Elsevier Inc. All rights reserved.

Published
2007

10. In vitro culture of ovine embryos up to early gastrulating stages

Author

Priscila Ramos-Ibeas, Leopoldo González-Brusi, María Torres Used, María Jesús Cocero, Pilar Marigorta, Ramiro Alberio, Pablo Bermejo-Álvarez, European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), Ramos-Ibeas, Priscila, González-Brusi, Leopoldo, Cocero, María Jesús, Marigorta, Pilar, Alberio, Ramiro, Bermejo-Álvarez, Pablo, Ramos-Ibeas, Priscila [0000-0003-4578-0189], González-Brusi, Leopoldo [0000-0002-6371-6423], Cocero, María Jesús [0000-0002-6254-3057], Marigorta, Pilar [0000-0002-6287-5780], Alberio, Ramiro [0000-0001-6560-3919], and Bermejo-Álvarez, Pablo [0000-0001-9907-2626]

Subjects
Sheep, animal structures, Gastrulation, Embryonic Development, Post-hatching culture, Embryo, Mammalian, Ovine, Blastocyst, In vitro, Pregnancy, Embryo, embryonic structures, Animals, Humans, Female, Molecular Biology, Germ Layers, Developmental Biology
Abstract

11 Pág., Developmental failures occurring shortly after blastocyst hatching from the zona pellucida constitute a major cause of pregnancy losses in both humans and farm ungulates. The developmental events occurring following hatching in ungulates include the proliferation and maturation of extra-embryonic membranes - trophoblast and hypoblast - and the formation of a flat embryonic disc, similar to that found in humans, which initiates gastrulation prior to implantation. Unfortunately, our understanding of these key processes for embryo survival is limited because current culture systems cannot sustain ungulate embryo development beyond hatching. Here, we report a culture system that recapitulates most developmental landmarks of gastrulating ovine embryos: trophoblast maturation, hypoblast migration, embryonic disc formation, disappearance of the Rauber's layer, epiblast polarization and mesoderm differentiation. Our system represents a highly valuable platform for exploring the cell differentiation, proliferation and migration processes governing gastrulation in a flat embryonic disc and for understanding pregnancy failures during the second week of gestation. This article has an associated 'The people behind the papers' interview., This work was funded by the European Research Council (StG-757886-ELONGAN), the Ministerio de Economía y Competitividad (MINECO; AGL2017-58739-R) and the Spanish Ministerio de Ciencia e Innovación (ECQ2018-005184-P) to P.B.Á. P.R.-I. was funded by a Ramón y Cajal Contract from MINECO (RYC2018-025666-I). Open Access funding provided by Consejo Superior de Investigaciones Científicas (CSIC).

Published
2022

11. In vitro culture of ovine embryos up to early gastrulating stages.

Author

Ramos-Ibeas P, González-Brusi L, Used MT, Cocero MJ, Marigorta P, Alberio R, and Bermejo-Álvarez P

Subjects
Animals, Blastocyst, Embryo, Mammalian, Embryonic Development, Female, Humans, Pregnancy, Sheep, Gastrulation, Germ Layers
Abstract

Developmental failures occurring shortly after blastocyst hatching from the zona pellucida constitute a major cause of pregnancy losses in both humans and farm ungulates. The developmental events occurring following hatching in ungulates include the proliferation and maturation of extra-embryonic membranes - trophoblast and hypoblast - and the formation of a flat embryonic disc, similar to that found in humans, which initiates gastrulation prior to implantation. Unfortunately, our understanding of these key processes for embryo survival is limited because current culture systems cannot sustain ungulate embryo development beyond hatching. Here, we report a culture system that recapitulates most developmental landmarks of gastrulating ovine embryos: trophoblast maturation, hypoblast migration, embryonic disc formation, disappearance of the Rauber's layer, epiblast polarization and mesoderm differentiation. Our system represents a highly valuable platform for exploring the cell differentiation, proliferation and migration processes governing gastrulation in a flat embryonic disc and for understanding pregnancy failures during the second week of gestation. This article has an associated 'The people behind the papers' interview., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2022. Published by The Company of Biologists Ltd.)

Published
2022
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