Abstract
BackgroundThymic epithelial cells (TECs) promote thymocyte maturation and are required for the early stages of thymocyte development and for positive selection. However, investigation of the mechanisms by which TECs perform these functions has been inhibited by the lack of genetic tools. Since the Foxn1 gene is expressed in all presumptive TECs from the early stages of thymus organogenesis and broadly in the adult thymus, it is an ideal locus for driving gene expression in differentiating and mature TECs.ResultsWe generated two knock-in alleles of Foxn1 by inserting IRES-Cre or IRES-lacZ cassettes into the 3' UTR of the Foxn1 locus. We simultaneously electroporated the two targeting vectors to generate the two independent alleles in the same experiment, demonstrating the feasibility of multiplex gene targeting at this locus. Our analysis shows that the knockin alleles drive expression of Cre or lacZ in all TECs in the fetal thymus. Furthermore, the knockin alleles express Cre or lacZ in a Foxn1-like pattern without disrupting Foxn1 function as determined by phenotype analysis of Foxn1 knockin/Foxn1 null compound heterozygotes.ConclusionThese data show that multiplex gene targeting into the 3' UTR of the Foxn1 locus is an efficient method to express any gene of interest in TECs from the earliest stage of thymus organogenesis. The resulting alleles will make possible new molecular and genetic studies of TEC differentiation and function. We also discuss evidence indicating that gene targeting into the 3' UTR is a technique that may be broadly applicable for the generation of genetically neutral driver strains.
Highlights
Thymic epithelial cells (TECs) promote thymocyte maturation and are required for the early stages of thymocyte development and for positive selection
Neither TEC phenotypes, nor thymocyte numbers or differentiation profiles were affected in newborn mice carrying these alleles. These data show that multiplex gene targeting into the 3' untranslated region (UTR) of the Foxn1 locus can be used as an efficient method for creating multiple alleles to express any gene of interest in all TECs from the earliest stage of thymus organogenesis
Multiplex gene targeting at the Foxn1 locus We built two vectors, both of which were designed to create bicistronic messages expressing the normal Foxn1 mRNA followed by either internal ribosomal entry sequence (IRES)-lacZ or IRES-Cre (Fig. 1A), and utilizing the endogenous polyadenylation sequences after neo cassette deletion
Summary
Thymic epithelial cells (TECs) promote thymocyte maturation and are required for the early stages of thymocyte development and for positive selection. Since the Foxn gene is expressed in all presumptive TECs from the early stages of thymus organogenesis and broadly in the adult thymus, it is an ideal locus for driving gene expression in differentiating and mature TECs. Thymic epithelial cells (TECs) perform an essential function to promote many aspects of T cell maturation within the thymus, including thymocyte proliferation, apoptosis, and positive and negative selection [1,2]. BMC Developmental Biology 2007, 7:69 http://www.biomedcentral.com/1471-213X/7/69 they are expressed widely in epithelium, which restricts their utility for analysis of thymus phenotypes To circumvent this problem, a recent study made use of embryo chimeras using nude mouse donors and homozygous knockout embryonic stem cells (ES cells) [4]; this technique is technically challenging, time consuming, and is limited by the availability of homozygous knockout ES cells. Identifying an efficient and reproducible genetic method for expressing genes in TECs and generating TEC-specific gene knockouts would enable new molecular and genetic studies of TEC differentiation and function
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