Signal transducer and activator of transcription 3 (STAT3) is the main mediator of interleukin 6 (IL-6)-type cytokine signaling. It exists in two isoforms: the full-length STAT3 alpha and the truncated STAT3 beta, generally thought to act as a dominant negative factor. To assess their relative functions, we ablated the expression of either isoform by gene targeting. We show here that in vivo STAT3 beta is not a dominant negative factor. Its expression can rescue the embryonic lethality of a STAT3-null mutation and it can by itself induce the expression of specific STAT3 target genes. Nevertheless, STAT3 alpha has nonredundant roles such as modulation of cellular responses to IL-6 and mediation of IL-10 function in macrophages.
We generated mice carrying a STAT3 allele amenable to Cre-mediated deletion and intercrossed them with Mx-Cre transgenic mice, in which the expression of Cre recombinase can be induced by type I interferon. Interferon-induced deletion of STAT3 occurred very efficiently (more than 90%) in the liver and slightly less efficiently (about 70%) in the bone marrow. Analysis of the induction of liver acute-phase genes in response to bacterial lipopolysaccharide unequivocally identifies STAT3 as a fundamental mediator of their induction. The different degrees of defectiveness displayed by the various genes allowed us to differentiate them into three separate groups according to their degree of dependence on STAT3. Induction was totally defective for group I genes, defective at 24 h but almost normal at earlier time points for group II genes, and only slightly defective for group III genes. This division was in good agreement with the known structures of the respective promoters. We also found that the overall induction of the transcription factors C/EBP beta and -delta was only minimally defective in the absence of STAT3. Finally, even though corticosterone levels and action were found to be normal in the conditional-mutant mice, production of both proinflammatory and antiinflammatory cytokines was increased and prolonged, probably as a result of STAT3 deletion in macrophages.
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