Uterine selection of human embryos at implantation

Jan J. Brosens; Madhuri S. Salker; Gijs Teklenburg; Jaya Nautiyal; Scarlett Salter; Emma S. Lucas; Jennifer H. Steel; Mark Christian; Yi Wah Chan; Carolien M. Boomsma; Jonathan D. Moore; Geraldine M. Hartshorne; Sandra Šućurović; Biserka Mulac-Jericevic; Cobi J. Heijnen; Siobhan Quenby; Marian J. Groot Koerkamp; Frank C.P. Holstege; Anatoly Shmygol; Nick S. Macklon

doi:10.1038/srep03894

Uterine selection of human embryos at implantation

Jan J. Brosens, Madhuri S. Salker, Gijs Teklenburg, Jaya Nautiyal, Scarlett Salter, Emma S. Lucas, Jennifer H. Steel, Mark Christian, Yi Wah Chan, Carolien M. Boomsma, Jonathan D. Moore, Geraldine M. Hartshorne, Sandra Šućurović, Biserka Mulac-Jericevic, Cobi J. Heijnen, Siobhan Quenby, Marian J. Groot Koerkamp, Frank C.P. Holstege, Anatoly Shmygol, Nick S. Macklon

Symptom Research CAO

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Abstract

Human embryos frequently harbor large-scale complex chromosomal errors that impede normal development. Affected embryos may fail to implant although many first breach the endometrial epithelium and embed in the decidualizing stroma before being rejected via mechanisms that are poorly understood. Here we show that developmentally impaired human embryos elicit an endoplasmic stress response in human decidual cells. A stress response was also evident upon in vivo exposure of mouse uteri to culture medium conditioned by low-quality human embryos. By contrast, signals emanating from developmentally competent embryos activated a focused gene network enriched in metabolic enzymes and implantation factors. We further show that trypsin, a serine protease released by pre-implantation embryos, elicits Ca 2+ signaling in endometrial epithelial cells. Competent human embryos triggered short-lived oscillatory Ca 2+ fluxes whereas low-quality embryos caused a heightened and prolonged Ca 2+ response. Thus, distinct positive and negative mechanisms contribute to active selection of human embryos at implantation.

Original language	English (US)
Article number	3894
Journal	Scientific reports
Volume	4
DOIs	https://doi.org/10.1038/srep03894
State	Published - Feb 6 2014

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Brosens, J. J., Salker, M. S., Teklenburg, G., Nautiyal, J., Salter, S., Lucas, E. S., Steel, J. H., Christian, M., Chan, Y. W., Boomsma, C. M., Moore, J. D., Hartshorne, G. M., Šućurović, S., Mulac-Jericevic, B., Heijnen, C. J., Quenby, S., Groot Koerkamp, M. J., Holstege, F. C. P., Shmygol, A., & Macklon, N. S. (2014). Uterine selection of human embryos at implantation. Scientific reports, 4, Article 3894. https://doi.org/10.1038/srep03894

Brosens, JJ, Salker, MS, Teklenburg, G, Nautiyal, J, Salter, S, Lucas, ES, Steel, JH, Christian, M, Chan, YW, Boomsma, CM, Moore, JD, Hartshorne, GM, Šućurović, S, Mulac-Jericevic, B, Heijnen, CJ, Quenby, S, Groot Koerkamp, MJ, Holstege, FCP, Shmygol, A & Macklon, NS 2014, 'Uterine selection of human embryos at implantation', Scientific reports, vol. 4, 3894. https://doi.org/10.1038/srep03894

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title = "Uterine selection of human embryos at implantation",

abstract = "Human embryos frequently harbor large-scale complex chromosomal errors that impede normal development. Affected embryos may fail to implant although many first breach the endometrial epithelium and embed in the decidualizing stroma before being rejected via mechanisms that are poorly understood. Here we show that developmentally impaired human embryos elicit an endoplasmic stress response in human decidual cells. A stress response was also evident upon in vivo exposure of mouse uteri to culture medium conditioned by low-quality human embryos. By contrast, signals emanating from developmentally competent embryos activated a focused gene network enriched in metabolic enzymes and implantation factors. We further show that trypsin, a serine protease released by pre-implantation embryos, elicits Ca 2+ signaling in endometrial epithelial cells. Competent human embryos triggered short-lived oscillatory Ca 2+ fluxes whereas low-quality embryos caused a heightened and prolonged Ca 2+ response. Thus, distinct positive and negative mechanisms contribute to active selection of human embryos at implantation.",

author = "Brosens, {Jan J.} and Salker, {Madhuri S.} and Gijs Teklenburg and Jaya Nautiyal and Scarlett Salter and Lucas, {Emma S.} and Steel, {Jennifer H.} and Mark Christian and Chan, {Yi Wah} and Boomsma, {Carolien M.} and Moore, {Jonathan D.} and Hartshorne, {Geraldine M.} and Sandra {\v S}u{\'c}urovi{\'c} and Biserka Mulac-Jericevic and Heijnen, {Cobi J.} and Siobhan Quenby and {Groot Koerkamp}, {Marian J.} and Holstege, {Frank C.P.} and Anatoly Shmygol and Macklon, {Nick S.}",

note = "Funding Information: We are grateful to all couples who participated in this study. We are also indebted to Dr. Etsu Tashiro (Keio University, Japan) for the pcDNA3/XBP1-luc construct. This study was supported by a grant from the Netherlands Organization for Scientific Research (NWO), the Biomedical Research Unit in Reproductive Health at University Hospital Coventry and Warwickshire, and a studentship from the Genesis Research Trust (M.S.S.).",

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AU - Salker, Madhuri S.

AU - Teklenburg, Gijs

AU - Nautiyal, Jaya

AU - Salter, Scarlett

AU - Lucas, Emma S.

AU - Steel, Jennifer H.

AU - Christian, Mark

AU - Chan, Yi Wah

AU - Boomsma, Carolien M.

AU - Moore, Jonathan D.

AU - Hartshorne, Geraldine M.

AU - Šućurović, Sandra

AU - Mulac-Jericevic, Biserka

AU - Heijnen, Cobi J.

AU - Quenby, Siobhan

AU - Groot Koerkamp, Marian J.

AU - Holstege, Frank C.P.

AU - Shmygol, Anatoly

AU - Macklon, Nick S.

N1 - Funding Information: We are grateful to all couples who participated in this study. We are also indebted to Dr. Etsu Tashiro (Keio University, Japan) for the pcDNA3/XBP1-luc construct. This study was supported by a grant from the Netherlands Organization for Scientific Research (NWO), the Biomedical Research Unit in Reproductive Health at University Hospital Coventry and Warwickshire, and a studentship from the Genesis Research Trust (M.S.S.).

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N2 - Human embryos frequently harbor large-scale complex chromosomal errors that impede normal development. Affected embryos may fail to implant although many first breach the endometrial epithelium and embed in the decidualizing stroma before being rejected via mechanisms that are poorly understood. Here we show that developmentally impaired human embryos elicit an endoplasmic stress response in human decidual cells. A stress response was also evident upon in vivo exposure of mouse uteri to culture medium conditioned by low-quality human embryos. By contrast, signals emanating from developmentally competent embryos activated a focused gene network enriched in metabolic enzymes and implantation factors. We further show that trypsin, a serine protease released by pre-implantation embryos, elicits Ca 2+ signaling in endometrial epithelial cells. Competent human embryos triggered short-lived oscillatory Ca 2+ fluxes whereas low-quality embryos caused a heightened and prolonged Ca 2+ response. Thus, distinct positive and negative mechanisms contribute to active selection of human embryos at implantation.

AB - Human embryos frequently harbor large-scale complex chromosomal errors that impede normal development. Affected embryos may fail to implant although many first breach the endometrial epithelium and embed in the decidualizing stroma before being rejected via mechanisms that are poorly understood. Here we show that developmentally impaired human embryos elicit an endoplasmic stress response in human decidual cells. A stress response was also evident upon in vivo exposure of mouse uteri to culture medium conditioned by low-quality human embryos. By contrast, signals emanating from developmentally competent embryos activated a focused gene network enriched in metabolic enzymes and implantation factors. We further show that trypsin, a serine protease released by pre-implantation embryos, elicits Ca 2+ signaling in endometrial epithelial cells. Competent human embryos triggered short-lived oscillatory Ca 2+ fluxes whereas low-quality embryos caused a heightened and prolonged Ca 2+ response. Thus, distinct positive and negative mechanisms contribute to active selection of human embryos at implantation.

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Uterine selection of human embryos at implantation

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