MICROBE | Metagenomic Investigation of Cow Reproductive Biology and Ecology

Summary
Low rates of embryo survival can be attributed to endometritis, an inflammatory disease of the endometrium lining the uterus. The disease affects ~30% of cows, increases embryo mortality by 25%4, and costs the EU and USA dairy industries €2 billion annually. The endometrium and microbiome are usually in a state of symbiosis when the cow is either receptive to pregnancy or pregnant. This symbiosis is disrupted (dysbiosis) at calving when pathogens populate the uterus. Endometritis has long term negative effects on embryo survival, but the mechanisms of how endometrium-microbe interactions affect embryo survival are unknown. The goals of MICROBE: Metagenomic Investigation of Cow Reproductive Biology and Ecology (Figure) are to (1) establish myself as an independent, internationally respected scientist in reproductive biology; (2) reintegrate into a long-term research position in Ireland after completing postdoctoral research at the University of Missouri; and (3) acquire new technical skills to broaden the scope of my research, and to expand my leadership and project management capabilities. I will be hosted by Teagasc with supervision from Dr. Stephen Butler and Dr. Paul Cotter with a secondment at University College Dublin with Prof. Patrick Lonergan. I will explore whether the endometrium and microbiome interact to affect embryo survival by testing novel hypotheses. The research objectives are to (1) examine endometrium-microbe interactions at the level of the transcriptome and metagenome of dairy cows, and test the hypothesis that such interactions are responsive to genomic selection for fertility; (2) isolate and culture specific uterine microbes from two genotypes of dairy cows divergent in fertility; and (3) use ex-vivo tissue culture systems to validate novel functional mechanisms by which uterine bacteria isolated from cows divergent in genetic merit for fertility interact with the oviduct and endometrium during sperm transport and embryo development
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/793855
Start date: 28-05-2018
End date: 27-05-2020
Total budget - Public funding: 175 866,00 Euro - 175 866,00 Euro
Cordis data

Original description

Low rates of embryo survival can be attributed to endometritis, an inflammatory disease of the endometrium lining the uterus. The disease affects ~30% of cows, increases embryo mortality by 25%4, and costs the EU and USA dairy industries €2 billion annually. The endometrium and microbiome are usually in a state of symbiosis when the cow is either receptive to pregnancy or pregnant. This symbiosis is disrupted (dysbiosis) at calving when pathogens populate the uterus. Endometritis has long term negative effects on embryo survival, but the mechanisms of how endometrium-microbe interactions affect embryo survival are unknown. The goals of MICROBE: Metagenomic Investigation of Cow Reproductive Biology and Ecology (Figure) are to (1) establish myself as an independent, internationally respected scientist in reproductive biology; (2) reintegrate into a long-term research position in Ireland after completing postdoctoral research at the University of Missouri; and (3) acquire new technical skills to broaden the scope of my research, and to expand my leadership and project management capabilities. I will be hosted by Teagasc with supervision from Dr. Stephen Butler and Dr. Paul Cotter with a secondment at University College Dublin with Prof. Patrick Lonergan. I will explore whether the endometrium and microbiome interact to affect embryo survival by testing novel hypotheses. The research objectives are to (1) examine endometrium-microbe interactions at the level of the transcriptome and metagenome of dairy cows, and test the hypothesis that such interactions are responsive to genomic selection for fertility; (2) isolate and culture specific uterine microbes from two genotypes of dairy cows divergent in fertility; and (3) use ex-vivo tissue culture systems to validate novel functional mechanisms by which uterine bacteria isolated from cows divergent in genetic merit for fertility interact with the oviduct and endometrium during sperm transport and embryo development

Status

CLOSED

Call topic

MSCA-IF-2017

Update Date

28-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.3. EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions (MSCA)
H2020-EU.1.3.2. Nurturing excellence by means of cross-border and cross-sector mobility
H2020-MSCA-IF-2017
MSCA-IF-2017