Abstract
GA-binding protein (GABP) is the only Ets family transcription factor that functions as a heterodimer. The GABPalpha subunit binds to DNA, and the GABPbeta subunit possesses the ability to transactivate target genes. Inactivation of GABPalpha caused embryonic lethality and defective lymphocyte development and immune responses. There are 3 isoforms of the GABPbeta subunit, but whether they have distinct functions has not been addressed. In this study, we selectively ablated the expression of GABPbeta2 using a gene trap strategy. GABPbeta2-deficient mice were viable and had normal T and B cell development, suggesting that loss of GABPbeta2 is compensated for by other GABPbeta isoforms during these processes. GABPbeta2-deficient T cells can be activated and proliferate similarly to wild-type controls. In contrast, B cells lacking GABPbeta2 showed 2-3-fold increases in proliferation in response to B cell receptor stimulation. In addition, GABPbeta2-deficient mice exhibited moderately increased antibody production and germinal center responses when challenged with T-dependent antigens. These results indicate that albeit GABPbeta isoforms are redundant in lymphocyte development, GABPbeta2 has a distinct role in restraining B cell expansion and humoral responses.
Highlights
The GA-binding protein (GABP)␣/ complex has versatile roles in regulating basic cellular functions and tissue-specific functions [1,2,3]
Structure of 5Ј-Untranslated Regions in the Gabpb2 Gene—In our previous studies, we used ES clones that have a Gabpa allele inactivated by a gene trap strategy to generate GABP␣-deficient mice [14, 16]
By searching the data base of the International Gene Trap Consortium, we identified an ES clone which has an insertion of the geo reporter gene in the Gabpb2 locus
Summary
The GABP␣/ complex has versatile roles in regulating basic cellular functions and tissue-specific functions [1,2,3]. We targeted GABP1L by deleting exon 9 of the Gabpb1 gene that encodes the entire leucine zipper-like structure without eliminating the GABP1S isoform [22]. These findings indicate that the Gabpb1 gene products are required for normal embryogenesis, whereas loss of GABP1L expression can be compensated for by other GABP isoforms including GABP1S.
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