Abstract
Eye phenotypes were investigated in Le-CreTg/−; Pax6fl/+ mice, which were expected to show tissue-specific reduction of Pax6 in surface ectoderm derivatives. To provide a better comparison with our previous studies of Pax6+/− eye phenotypes, hemizygous Le-CreTg/− and heterozygous Pax6fl/+mice were crossed onto the CBA/Ca genetic background. After the Le-Cre transgene had been backcrossed to CBA/Ca for seven generations, significant eye abnormalities occurred in some hemizygous Le-CreTg/−; Pax6+/+ controls (without a floxed Pax6fl allele) as well as experimental Le-CreTg/−; Pax6fl/+ mice. However, no abnormalities were seen in Le-Cre−/−; Pax6fl/+ or Le-Cre−/−; Pax6+/+ controls (without the Le-Cre transgene). The severity and frequency of the eye abnormalities in Le-CreTg/−; Pax6+/+ control mice diminished after backcrossing Le-CreTg/− mice to the original FVB/N strain for two generations, showing that the effect was reversible. This genetic background effect suggests that the eye abnormalities are a consequence of an interaction between the Le-Cre transgene and alleles of unknown modifier genes present in certain genetic backgrounds. The abnormalities were also ameliorated by introducing additional Pax6 gene copies on a CBA/Ca background, suggesting involvement of Pax6 depletion in Le-CreTg/−; Pax6+/+ mice rather than direct action of Cre recombinase on cryptic pseudo-loxP sites. One possibility is that expression of Cre recombinase from the Pax6-Le regulatory sequences in the Le-Cre transgene depletes cofactors required for endogenous Pax6 gene expression. Our observation that eye abnormalities can occur in hemizygous Le-CreTg/−; Pax6+/+ mice, in the absence of a floxed allele, demonstrates the importance of including all the relevant genetic controls in Cre-loxP experiments.
Highlights
Tg(Pax6-cre,GFP)1Pgr transgenic mice express Cre recombinase from Pax6-Le tissue-specific regulatory elements in the pancreas and developing head surface ectoderm from embryonic day (E) 8.75 [1]
Eyes from the experimental and three control genotypes produced by Le-CreTg/2; Pax6+/+6Le-Cre2/2; Pax6fl/+ crosses were compared in four discrete stages as the genetic background changed, as explained in the Materials and Methods section
Haematoxylin and eosin staining of histological sections showed that control eyes (Le-Cre2/2; Pax6+/+, Le-Cre2/2; Pax6fl/+ and Le-CreTg/2; Pax6+/+) were morphologically normal (Figs. 2A–C), apart from two of the six Le-CreTg/2; Pax6+/+ eyes examined, in which the irido-corneal angle appeared at least partly closed due to adhesion between the iris and peripheral cornea (Fig. 2D)
Summary
Tg(Pax6-cre,GFP)1Pgr transgenic mice (hereafter abbreviated to Le-Cre transgenic mice) express Cre recombinase from Pax6-Le tissue-specific regulatory elements (the Pax surface ectoderm enhancer and P0 promoter) in the pancreas and developing head surface ectoderm from embryonic day (E) 8.75 [1]. In their original study, Ashery-Padan et al produced Le-CreTg/2; Pax6fl/ lacZ mice, which were hemizygous for the Le-Cre transgene and carried both the Pax6lacZ null and floxed Pax6fl alleles [1]. We aimed to analyse the consequences of tissue-specific depletion of Pax on the corneal phenotype and compare this to the previously reported consequences of globally reducing Pax levels in Pax6+/2 heterozygotes, thereby distinguishing abnormalities caused by low levels of Pax in the surface ectoderm lineage from those caused by low levels of Pax in other tissues, such as the optic cup
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