Huang Ying, Qiu Jihui, Dong Shuo, Redell Michele S, Poli Valeria, Mancini Michael A, Tweardy David J
Department of Medicine, Section of Infectious Diseases, Baylor College of Medicine, Houston, Texas 77030, USA.
J Biol Chem. 2007 Nov 30;282(48):34958-67. doi: 10.1074/jbc.M704548200. Epub 2007 Sep 12.
Two isoforms of Stat3 (signal transducer and activator of transcription 3) are expressed in cells, alpha (p92) and beta (p83), both derived from a single gene by alternative mRNA splicing. The 55-residue C-terminal transactivation domain of Stat3alpha is deleted in Stat3beta and replaced by seven unique C-terminal residues (CT7) whose function remains uncertain. We subcloned the open reading frames of Stat3alpha and Stat3beta into the C terminus of green fluorescent protein (GFP). Fluorescent microscopic analysis of HEK293T cells transiently transfected with GFP-Stat3alpha or GFP-Stat3beta revealed similar kinetics and cytokine concentration dependence of nuclear accumulation; these findings were confirmed by high throughput microscope analysis of murine embryonic fibroblasts that lacked endogenous Stat3 but stably expressed either GFP-Stat3alpha or GFP-Stat3beta. However, although time to half-maximal cytoplasmic reaccumulation after cytokine withdrawal was 15 min for GFP-Stat3alpha, it was >180 min for GFP-Stat3beta. Furthermore, although the intranuclear mobility of GFP-Stat3alpha was rapid and increased with cytokine stimulation, the intranuclear mobility of GFP-Stat3beta in unstimulated cells was slower than that of GFP-Stat3alpha in unstimulated cells and was slowed further following cytokine stimulation. Deletion of the unique CT7 domain from Stat3beta eliminated prolonged nuclear retention but did not alter its intranuclear mobility. Thus, Stat3alpha and Stat3beta have distinct intracellular dynamics, with Stat3beta exhibiting prolonged nuclear retention and reduced intranuclear mobility especially following ligand stimulation. Prolonged nuclear retention, but not reduced intranuclear mobility, mapped to the CT7 domain of Stat3beta.
信号转导子与转录激活子3(Stat3)在细胞中有两种亚型表达,即α(p92)和β(p83),二者均由同一基因通过可变mRNA剪接产生。Stat3α的55个氨基酸残基的C末端反式激活结构域在Stat3β中缺失,取而代之的是7个独特的C末端残基(CT7),其功能尚不确定。我们将Stat3α和Stat3β的开放阅读框亚克隆到绿色荧光蛋白(GFP)的C末端。对瞬时转染了GFP-Stat3α或GFP-Stat3β的HEK293T细胞进行荧光显微镜分析,结果显示核积累的动力学和细胞因子浓度依赖性相似;这些发现通过对缺乏内源性Stat3但稳定表达GFP-Stat3α或GFP-Stat3β的小鼠胚胎成纤维细胞进行高通量显微镜分析得到了证实。然而,尽管细胞因子撤除后GFP-Stat3α达到最大细胞质再积累时间的一半为15分钟,但GFP-Stat3β则大于180分钟。此外,尽管GFP-Stat3α在细胞核内的移动速度很快且随细胞因子刺激而增加,但未受刺激的细胞中GFP-Stat3β在细胞核内的移动速度比未受刺激的细胞中GFP-Stat3α的移动速度慢,并且在细胞因子刺激后进一步减慢。从Stat3β中缺失独特的CT7结构域消除了延长的核滞留,但并未改变其在细胞核内的移动性。因此,Stat3α和Stat3β具有不同的细胞内动力学,Stat3β表现出延长的核滞留和降低的细胞核内移动性,尤其是在配体刺激后。延长的核滞留而非降低的细胞核内移动性定位于Stat3β的CT7结构域。
