Fischer D F, Gibbs S, van De Putte P, Backendorf C
Laboratory of Molecular Genetics, Leiden Institute of Chemistry, Leiden University, The Netherlands.
Mol Cell Biol. 1996 Oct;16(10):5365-74. doi: 10.1128/MCB.16.10.5365.
Expression of the SPRR2A gene, a member of the small proline-rich family of cornified cell envelope precursor proteins, is strictly linked to keratinocyte terminal differentiation both in vivo and in vitro. In this study, we explored the molecular mechanisms underlying this regulation in transiently transfected primary keratinocytes induced to differentiate in vitro. Deletion mapping and site-directed mutagenesis of SPRR2A promoter-chloramphenicol acetyltransferase constructs indicate that four transcription control elements are essential and sufficient for promoter activity. These elements were further characterized by electrophoretic mobility shift and identified as (i) an inverted octamer doublet, bound by the POU domain factor Oct-11 (Skn-1a/i, Epoc-1), (ii) an interferon-stimulated response element recognized by interferon regulatory factors 1 and 2, (iii) an Ets binding site partially overlapping the interferon-stimulated response element, and (iv) a TG box recognized by the Sp1 family of zinc finger transcription factors. Destruction of a single terminal differentiation element is sufficient to completely abolish transcription from the SPRR2A promoter, indicating that these transcription control elements function in concert in an interdependent manner. Apparently, integration of signals transmitted by the above-mentioned transcription factors is necessary and sufficient to promote gene expression during keratinocyte terminal differentiation.
富含脯氨酸的角质化细胞包膜前体蛋白小家族成员SPRR2A基因的表达,在体内和体外均与角质形成细胞的终末分化密切相关。在本研究中,我们探讨了在体外诱导分化的瞬时转染原代角质形成细胞中这种调控的分子机制。对SPRR2A启动子-氯霉素乙酰转移酶构建体进行缺失定位和定点诱变表明,四个转录控制元件对启动子活性至关重要且足够。通过电泳迁移率变动进一步表征这些元件,并确定为:(i) 一个反向八聚体双峰,由POU结构域因子Oct-11(Skn-1a/i,Epoc-1)结合;(ii) 一个干扰素刺激反应元件,由干扰素调节因子1和2识别;(iii) 一个Ets结合位点,部分与干扰素刺激反应元件重叠;(iv) 一个TG盒,由锌指转录因子Sp1家族识别。破坏单个终末分化元件足以完全消除SPRR2A启动子的转录,表明这些转录控制元件以相互依赖的方式协同发挥作用。显然,上述转录因子传递的信号整合对于促进角质形成细胞终末分化过程中的基因表达是必要且足够的。