An inducible Cre mouse for studying roles of the RPE in retinal physiology and disease
Elliot H. Choi, … , Krzysztof Palczewski, Philip D. Kiser
Elliot H. Choi, … , Krzysztof Palczewski, Philip D. Kiser
Published March 30, 2021
Citation Information: JCI Insight. 2021;6(9):e146604. https://doi.org/10.1172/jci.insight.146604.
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Resource and Technical Advance Genetics Ophthalmology

An inducible Cre mouse for studying roles of the RPE in retinal physiology and disease

Abstract

The retinal pigment epithelium (RPE) provides vital metabolic support for retinal photoreceptor cells and is an important player in numerous retinal diseases. Gene manipulation in mice using the Cre-LoxP system is an invaluable tool for studying the genetic basis of these retinal diseases. However, existing RPE-targeted Cre mouse lines have critical limitations that restrict their reliability for studies of disease pathogenesis and treatment, including mosaic Cre expression, inducer-independent activity, off-target Cre expression, and intrinsic toxicity. Here, we report the generation and characterization of a knockin mouse line in which a P2A-CreERT2 coding sequence is fused with the native RPE-specific 65 kDa protein (Rpe65) gene for cotranslational expression of CreERT2. Cre+/– mice were able to recombine a stringent Cre reporter allele with more than 99% efficiency and absolute RPE specificity upon tamoxifen induction at both postnatal days (PD) 21 and 50. Tamoxifen-independent Cre activity was negligible at PD64. Moreover, tamoxifen-treated Cre+/– mice displayed no signs of structural or functional retinal pathology up to 4 months of age. Despite weak RPE65 expression from the knockin allele, visual cycle function was normal in Cre+/– mice. These data indicate that Rpe65CreERT2 mice are well suited for studies of gene function and pathophysiology in the RPE.

Authors

Elliot H. Choi, Susie Suh, David E. Einstein, Henri Leinonen, Zhiqian Dong, Sriganesh Ramachandra Rao, Steven J. Fliesler, Seth Blackshaw, Minzhong Yu, Neal S. Peachey, Krzysztof Palczewski, Philip D. Kiser

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Figure 1

Generation, identification, and Rpe65 expression analysis of Rpe65CreERT2 mice.

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Generation, identification, and Rpe65 expression analysis of Rpe65CreERT...
(A) KI strategy to introduce a P2A-CreERT2 coding sequence in-frame with the final coding exon (exon 14) of the Rpe65 gene. Primer-binding sites and expected PCR product sizes are shown below the wild-type and targeted alleles. The neomycin cassette in the targeting vector was removed during expansion of the embryonic stem cell clone. FLP-recombinase was subsequently bred out by crossing with C57BL/6 mice. The KI allele allows cotranslational expression of RPE65-P2A and CreERT2 as 2 separate polypeptides. The modified RPE65 protein contains an additional G534SGATNFSLLKQAGDVEENPG554 polypeptide sequence at its C-terminus, while CreERT2 contains an additional Pro residue at its N-terminus. (B) Genotyping results from wild-type, Cre+/–, and Cre+/+ animals. (C) Western blot analysis of RPE65 expression. After normalization to the α-tubulin loading controls, the RPE65 expression levels in Cre+/– and Cre+/+ mice were estimated to be 59.7% and 1.1% of that for wild-type mice.