Warner Dennis R, Bhattacherjee Vasker, Yin Xiaolong, Singh Saurabh, Mukhopadhyay Partha, Pisano M Michele, Greene Robert M
Department of Molecular, Cellular, and Craniofacial Biology, University of Louisville Birth Defects Center, ULSD, Louisville, KY 40292, USA.
Biochem Biophys Res Commun. 2004 Nov 5;324(1):70-6. doi: 10.1016/j.bbrc.2004.09.017.
The transforming growth factors beta control a diversity of biological processes including cellular proliferation, differentiation, apoptosis, and extracellular matrix production, and are critical effectors of embryonic patterning and development, including that of the orofacial region. TGFbeta superfamily members signal through specific cell surface receptors that phosphorylate the cytoplasmic Smad proteins, resulting in their translocation to the nucleus and interaction with promoters of TGFbeta-responsive genes. Subsequent alterations in transcription are cell type-specific and dependent on recruitment to the Smad/transcription factor complex of coactivators, such as CBP and p300, or corepressors, such as c-ski and SnoN. Since the affinity of Smads for DNA is generally low, additional accessory proteins that facilitate Smad/DNA binding are required, and are often cell- and tissue-specific. In order to identify novel Smad 3 binding proteins in developing orofacial tissue, a yeast two hybrid assay was employed in which the MH2 domain of Smad 3 was used to screen an expression library derived from mouse embryonic orofacial tissue. The RNA helicase, p68, was identified as a unique Smad binding protein, and the specificity of the interaction was confirmed through various in vitro and in vivo assays. Co-expression of Smad 3 and a CBP-Gal4 DNA binding domain fusion protein in a Gal4-luciferase reporter assay resulted in increased TGFbeta-stimulated reporter gene transcription. Moreover, co-expression of p68 RNA helicase along with Smad 3 and CBP-Gal4 resulted in synergistic activation of Gal4-luciferase reporter expression. Collectively, these data indicate that the RNA helicase, p68, can directly interact with Smad 3 resulting in formation of a transcriptionally active ternary complex containing Smad 3, p68, and CBP. This offers a means of enhancing TGFbeta-mediated cellular responses in developing orofacial tissue.
转化生长因子β控制多种生物学过程,包括细胞增殖、分化、凋亡和细胞外基质产生,并且是胚胎模式形成和发育(包括口面部区域的发育)的关键效应因子。TGFβ超家族成员通过特定的细胞表面受体发出信号,这些受体使细胞质Smad蛋白磷酸化,导致它们转运至细胞核并与TGFβ反应基因的启动子相互作用。随后转录的改变具有细胞类型特异性,并取决于共激活因子(如CBP和p300)或共抑制因子(如c-ski和SnoN)募集至Smad/转录因子复合物。由于Smads对DNA的亲和力通常较低,因此需要其他有助于Smad/DNA结合的辅助蛋白,且这些蛋白通常具有细胞和组织特异性。为了鉴定发育中的口面部组织中新型的Smad 3结合蛋白,采用了酵母双杂交试验,其中Smad 3的MH2结构域用于筛选源自小鼠胚胎口面部组织的表达文库。RNA解旋酶p68被鉴定为一种独特的Smad结合蛋白,并且通过各种体外和体内试验证实了相互作用的特异性。在Gal4-荧光素酶报告基因试验中,Smad 3与CBP-Gal4 DNA结合结构域融合蛋白的共表达导致TGFβ刺激的报告基因转录增加。此外,p68 RNA解旋酶与Smad 3和CBP-Gal4的共表达导致Gal4-荧光素酶报告基因表达的协同激活。总体而言,这些数据表明RNA解旋酶p68可直接与Smad 3相互作用,导致形成包含Smad 3、p68和CBP的转录活性三元复合物。这提供了一种增强发育中的口面部组织中TGFβ介导的细胞反应的方法。
