Ranganath S, Murphy K M
Department of Pathology and Center for Immunology, Howard Hughes Medical Institute, Washington University School of Medicine, St. Louis, Missouri 63110, USA.
Mol Cell Biol. 2001 Apr;21(8):2716-25. doi: 10.1128/MCB.21.8.2716-2725.2001.
Development of Th2 subset of CD4+ T cells involves the interleukin-4 (IL-4)- and Stat6-dependent increase in GATA-3 expression during primary activation. Recently we reported that the phenotypic stability and factor independence of Th2 cells involves acquisition of an intracellular pathway that maintains GATA-3 expression. Evidence from retroviral expression studies implied that this pathway involved an autoactivation of GATA-3 expression, since Stat6-deficient T cells induced endogenous GATA-3 when infected with GATA-3-expressing retroviruses. That study left unresolved the issue of whether GATA-3 autoactivation was direct or indirect. Several other Th2-specific transcription factors have been described, including c-Maf and JunB. We therefore examined the ability of these other transcription factors to induce GATA-3 expression and promote Th2 development. Neither c-Maf nor JunB induced Th2 development in Stat6-deficient CD4+ T cells, in contrast to GATA-3. Consistent with this indication of a possible direct autoactivation pathway, we also observed that heterologous GATA family proteins GATA-1, GATA-2, and GATA-4 were also capable of inducing GATA-3 expression in developing Stat6-deficient T cells and promote Th2 development. Mutational analysis revealed evidence for two distinct mechanisms of GATA-3 action. IL-4 induction by GATA-3 required each of the functional domains to be present, whereas repression of gamma interferon could occur even when mutants of GATA-3 lacking the second transactivation domain, TA2, were expressed. The GATA-dependent induction of the GATA-3 but not the other GATA genes in T cells suggests that T-cell-specific cis elements within the GATA-3 locus likely cooperate with a general GATA recognition motif to allow GATA-3-dependent autoactivation.
CD4+ T细胞Th2亚群的发育涉及在初次激活期间白细胞介素4(IL-4)和Stat6依赖性的GATA-3表达增加。最近我们报道,Th2细胞的表型稳定性和因子独立性涉及获得维持GATA-3表达的细胞内途径。逆转录病毒表达研究的证据表明,该途径涉及GATA-3表达的自激活,因为Stat6缺陷型T细胞在感染表达GATA-3的逆转录病毒时会诱导内源性GATA-3。该研究未解决GATA-3自激活是直接还是间接的问题。还描述了其他几种Th2特异性转录因子,包括c-Maf和JunB。因此,我们研究了这些其他转录因子诱导GATA-3表达和促进Th2发育的能力。与GATA-3相反,c-Maf和JunB均未在Stat6缺陷型CD4+ T细胞中诱导Th2发育。与这种可能的直接自激活途径的迹象一致,我们还观察到异源GATA家族蛋白GATA-1、GATA-2和GATA-4也能够在发育中的Stat6缺陷型T细胞中诱导GATA-3表达并促进Th2发育。突变分析揭示了GATA-3作用的两种不同机制的证据。GATA-3诱导IL-4需要每个功能域都存在,而即使表达缺乏第二个反式激活域TA2的GATA-3突变体,γ干扰素的抑制也可能发生。T细胞中GATA-3的GATA依赖性诱导而非其他GATA基因的诱导表明,GATA-3基因座内的T细胞特异性顺式元件可能与一般的GATA识别基序协同作用,以允许GATA-3依赖性自激活。