Department of Surgery, University of Iowa Carver College of Medicine, Iowa City, Iowa, USA.
J Surg Res. 2011 Nov;171(1):e15-20. doi: 10.1016/j.jss.2011.06.056. Epub 2011 Jul 23.
BMPR1A is a cell surface receptor in the bone morphogenetic protein (BMP) pathway. Mutations in BMPR1A predispose to juvenile polyposis (JP). Sp1 and related proteins are widely expressed regulators of gene transcription, including members of the BMP pathway. We set out to identify important transcription factor binding sites (TFBS) in the recently identified BMPR1A promoter and to assess for the role of Sp1 and associated proteins in its regulation.
The BMPR1A promoter was cloned into a luciferase reporter vector. Deletion fragments of this promoter insert were then constructed, of varying lengths and opposing directions, and were used to transfect HEK-293 and CRL-1459 cells. In silico analysis was performed to screen for relevant TFBS. Site-directed mutagenesis (SDM) was then employed to individually disrupt these TFBS in the wild-type (WT) vector. SDM constructs were then assessed for activity.
Light activity from the deletion constructs ranged between 3% and 129% of the WT promoter. ModelInspector identified eight potential binding sites for Sp1- and Sp1-associated proteins that mapped to areas of marked loss or gain of activity from the deletion constructs. SDM of these TFBS led to a drop in activity in five mutants, which included 3 Sp1 sites, an ETSF site, and NFκB site.
By combining in silico analysis and experimental data, Sp1 was found to be a candidate factor that likely plays a role in the transcriptional regulation of BMPR1A. This study potentially provides further insight toward the molecular basis of JP, and suggests that Sp1 plays a role in BMP signaling.
BMPR1A 是骨形态发生蛋白(BMP)途径中的细胞表面受体。BMPR1A 突变易导致青少年息肉病(JP)。Sp1 和相关蛋白是广泛表达的基因转录调控因子,包括 BMP 途径的成员。我们旨在确定最近鉴定的 BMPR1A 启动子中的重要转录因子结合位点(TFBS),并评估 Sp1 和相关蛋白在其调控中的作用。
将 BMPR1A 启动子克隆到荧光素酶报告载体中。然后构建了该启动子插入物的缺失片段,其长度和方向不同,并用于转染 HEK-293 和 CRL-1459 细胞。进行了计算机分析以筛选相关的 TFBS。然后采用定点突变(SDM)技术逐个破坏野生型(WT)载体中的这些 TFBS。然后评估 SDM 构建体的活性。
来自缺失构建体的光活性范围为 WT 启动子的 3%至 129%。ModelInspector 鉴定了 8 个潜在的 Sp1 和 Sp1 相关蛋白结合位点,这些结合位点位于缺失构建体中活性明显丧失或获得的区域。这些 TFBS 的 SDM 导致 5 个突变体的活性下降,其中包括 3 个 Sp1 位点、一个 ETSF 位点和一个 NFκB 位点。
通过结合计算机分析和实验数据,发现 Sp1 可能是一种候选因子,可能在 BMPR1A 的转录调控中发挥作用。这项研究为 JP 的分子基础提供了进一步的见解,并表明 Sp1 在 BMP 信号转导中发挥作用。
