The use of insulin-transferrin-selenium (ITS), and folic acid on individual in vitro embryo culture systems in cattle

Individual embryo culture is the only strategy that allows the tracking of embryos throughout the culture period. However, this procedure leads to lower embryo development. This study aimed to evaluate different alternatives to improve embryo development in a single in vitro production system. First...

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Veröffentlicht in:Theriogenology 2022-05, Vol.184, p.153-161
Hauptverfasser: dos Santos Mendonça-Soares, Anelise, Guimarães, Ana Luiza Silva, Fidelis, Andrei Antonioni Guedes, Franco, Maurício Machaim, Dode, Margot Alves Nunes
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Sprache:eng
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Zusammenfassung:Individual embryo culture is the only strategy that allows the tracking of embryos throughout the culture period. However, this procedure leads to lower embryo development. This study aimed to evaluate different alternatives to improve embryo development in a single in vitro production system. First, embryo production was compared between individual cultures on a 20 μL droplet and Cell-Tak® system. Then, various concentrations of folic acid were tested for use in combination with insulin-transferrin-selenium (ITS). To determine the concentration, embryos were analyzed not only by development but also by their methylation status. Finally, the supplementation of individual culture media with ITS and/or folic acid was evaluated. The results showed that embryos cultured in the Cell-Tak® system presented lower blastocyst rates than the microdroplets system. When the concentration of folic acid was tested, 20 μM and 500 μM presented a higher level of insulin-like growth factor (IGF2) DNA methylation pattern compared to control, suggesting that in vitro conditions alter DNA methylation pattern in that region and folic acid reestablishes the pattern. However, when it was used in an individual culture system, folic acid did not improve embryo development. Conversely, ITS which is composed of three important components, proved to be an alternative to individual embryo culture, improving embryo rates, showing similar rates to grouped culture embryos. Since Folic Acid change epigenetic profile, additional studies are needed to evaluate its use in IVP culture systems. •Microdroplets is a better system for embryo individual culture that Cell-Tak® system.•Folic acid during embryo culture reestablishes the methylation pattern of IGF2 gene, which is alter due to in vitro system.•ITS improves individual embryo production system with similar rates to grouped culture embryos.
ISSN:0093-691X
1879-3231
DOI:10.1016/j.theriogenology.2022.03.008