Cardiac injections of AntagomiRs as a novel tool for knockdown of miRNAs during heart development

Studying microRNA networks during heart development is essential to obtain a better understanding of developmental defects and diseases associated with the heart and to identify novel opportunities for therapeutics. Here we highlight the advantages of chicken embryos as a vertebrate model for studyi...

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Bibliographic Details
Published in:Developmental biology 2019-01, Vol.445 (2), p.163-169
Main Authors: Wittig, Johannes G., Billmeier, Martina, Lozano-Velasco, Estefanía, García, Miguel Robles, Münsterberg, Andrea E.
Format: Article
Language:English
Subjects:
AntagomiR
Chicken embryo
Heart development
Microinjection
Micromanipulation
MicroRNA
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Summary:Studying microRNA networks during heart development is essential to obtain a better understanding of developmental defects and diseases associated with the heart and to identify novel opportunities for therapeutics. Here we highlight the advantages of chicken embryos as a vertebrate model for studying intermediate processes of heart development. Avians develop a four-chambered heart closely resembling human anatomy and they develop ex utero, which makes them easily accessible. Furthermore, embryos are available all year with a steady supply. In this report we established a novel method for the knockdown of microRNA function by microinjecting AntagomiRs into the chicken heart in ovo. Our approach enables the targeted delivery of antagomirs into a locally restricted area and is not impacted by circulation. After further embryo development the successful miRNA knockdown was confirmed. Loss of function phenotypes can be evaluated rapidly, compared to more time-consuming genetic ablation experiments. The local application avoids potential systemic effects of microRNA knockdown, therefore allowing the assessment of impacts on heart development only. The method can be adjusted for different stages of chicken embryos (HH13–HH18) as well as for knockdown or targeted overexpression of coding genes. In conclusion our method allows targeted and locally restricted delivery of Antagomirs to the heart leading to successful knockdown of microRNA function. This method enables rapid phenotypic assessment, for example by gene expression analysis of multiple cardiac genes. •Cardiac injections into live embryos facilitates the targeted and localized delivery of AntagomiRs.•Chick embryos enable rapid phenotype analysis.•Following AntagomiR injection the successful knockdown of the cognate microRNA was observed.•The choice of RNA extraction method is critical.
ISSN:0012-1606
1095-564X
DOI:10.1016/j.ydbio.2018.11.008