Methodology article

A new method to transfect the hypoblast of the chick embryo reveals conservation of the regulation of an Otx2 enhancer between mouse and chick extraembryonic endoderm

Amanda Albazerchi^1,2 , Olivier Cinquin^1,3 and Claudio D Stern¹

¹  Department of Anatomy and Developmental Biology, University College London, Gower Street, London WC1E 6BT. UK

²  Laboratory of Genetics, 425-G Henry Mall, University of Wisconsin, Madison, WI 53706, USA

³  Deparment of Biochemistry, University of Wisconsin, Madison, WI 53706, USA

author email corresponding author email

BMC Developmental Biology 2007, 7:25doi:10.1186/1471-213X-7-25

Published:	2 April 2007

Abstract

Background

The mouse anterior visceral endoderm (AVE) and the chick hypoblast are thought to have homologous roles in the early stages of neural induction and primitive streak formation. In mouse, many regulatory elements directing gene expression to the AVE have been identified. However, there is no technique to introduce DNA into the chick hypoblast that would enable a comparison of their activity and this has hampered a direct comparison of the regulation of gene expression in the mouse and chick extraembryonic endoderm.

Results

Here we describe a new method to introduce DNA into the chick hypoblast, using lipofectamine-mediated transfection. We show that the hypoblast can be easily transfected and that it starts to express a luciferase reporter within 2 hours of transfection. The validity of technique is tested by following the movement and fate of hypoblast cells, which reveals their translocation to the anterior germinal crescent. We then introduce a vector containing GFP driven by the mouse VEcis-Otx2 enhancer (which directs gene expression to the mouse AVE) and we detect activity in the hypoblast.

Conclusion

The new technique for delivering expression constructs to the chick hypoblast will enable studies on gene activity and regulation to be performed in this tissue, which has proved difficult to transfect by electroporation. Our findings also reveal that regulatory elements that direct gene expression to the mouse AVE are active in chick hypoblast, supporting the idea that these two tissues have homologous functions.