Enhanced Transcriptional Activation in Developing Mouse Photoreceptors.

Purpose: Retinal development in the mouse continues past birth and provides a widely used model system in which photoreceptor formation can be observed and manipulated. This experimental paradigm provides opportunities for both gain-of-function and loss-of-function studies, which can be accomplished through in vivo or ex vivo plasmid delivery and electroporation. However, the cis-regulatory elements used to implement this approach have not been fully evaluated or optimized for the unique transcriptional environment of photoreceptors.

Methods: Here we investigate whether the use of a photoreceptor cis-regulatory element from the Crx gene in combination with broadly active promoter elements can increase the targeting of developing photoreceptors in the mouse. This study characterizes the in vivo activity of this element for the first time, as well as explores its use as a tool for gain-of-function and loss-of-function experiments.

Results: We report that a cis-regulatory element from the Crx gene, in combination with broadly active promoter elements, increases the targeting of developing rod photoreceptors in the mouse. Additionally, the same element can be used to target developing cones at embryonic time points by ex vivo electroporation. Utility of this combined element includes greater reporter expression, as well as enhanced overexpression and loss-of-function phenotypes in photoreceptors.

Conclusions: This study highlights the importance of identifying and testing relevant cis-regulatory elements when planning cell subtype-specific experiments. The use of specific hybrid elements will provide a more efficacious gene delivery system to study mammalian photoreceptor formation, which will benefit research with potential therapeutic relevance for blinding diseases.