NFY和RFX1对人PNRC启动子的调控作用

探讨核因子Y（nuclear factor Y, NFY）和调节因子X1（regulatory factors that bind to the X box, RFX1）对人PNRC（proline rich nuclear receptor coactivator）基因的调控作用及机制.根据凝胶电泳迁移率变化实验,分析NFY和RFX1与PNRC启动子区域的结合.将含有NFY和RFX1的真核表达质粒(pCMV-NFY, pCMV-RFX1)和含有PNRC启动子的荧光素酶报告基因质粒共转染HepG2细胞,检测转染细胞的荧光素酶活性,并用RT-PCR和Western印迹检测PNR的表达情况.Quick-Change法对PNRC启动子区NFY和RFX1结合位点进行突变,将包含突变点的重组荧光素酶报告质粒与含有NFY和RFX1的真核表达质粒共同转染HepG2细胞,检测各组荧光素酶活性.结果发现,NFY和RFX1能与PNRC启动子区域特异性结合;转染pCMV-NFY和pCMV-RFX1可抑制PNRC启动子活性并下调PNRC在HepG2细胞中的表达;包含NFY和RFX1结合位点的突变质粒与pCMV-NFY和pCMV-RFX1共转染后,NFY和RFX1对PNRC启动子活性的抑制作用消失. 以上结果提示,NFY和RFX1能调控PNRC基因的表达,其机制是与PNRC启动子区域的特异性结合位点相结合,发挥其反式抑制作用.     

NFY结合位点缺失下调NPCEDRG基因启动子转录活性和效率

NPCEDRG基因是一个鼻咽癌(nasopharyngeal carcinoma, NPC)相关基因. NPCEDRG基因启动子为TATA-less启动子,其核心启动子区域位于-146 ～-8 bp区,该区域包含NFY、STAT1和cMYB等转录因子结合位点. 前期研究结果提示,转录因子NFY可能参与NPCEDRG基因的转录调控. 为明确NFY转录因子在NPCEDRG基因转录中的作用,本研究应用报告基因载体系统分析方法对NPCEDRG基因核心启动子区进行NFY结合位点（或CCAAT-box）缺失突变及其功能分析,分别构建NPCEDRG基因核心启动子区NFY结合位点缺失突变的Luc和EGFP报告基因表达载体. 比较核心启动子和NFY结合位点缺失突变体报告基因载体的转录活性和效率. 结果表明,在MCF7和CNE2细胞中,NFY结合位点缺失突变体的转录活性分别约为其核心启动子转录活性66.94%和75.72%,即NFY结合位点缺失致使该启动子转录效率在MCF7和CNE2细胞中分别降低了33.06%和24.28%;EGFP报告基因表达载体系统研究结果与Luc报告基因载体系统结果基本吻合. 本研究再次证实,转录因子NFY通过结合NPCEDRG基因启动子的核心元件NFY结合位点参与NPCEDRG基因的转录调控,并提高其基因转录活性和效率.     

The roles of C-terminal helices of human apolipoprotein A-I in formation of high-density lipoprotein particles

Apolipoprotein A-I (apoA-I) accepts cholesterol and phospholipids from ATP-binding cassette transporter A1 (ABCA1)-expressing cells to form high-density lipoprotein (HDL). Human apoA-I has two tertiary structural domains and the C-terminal domain (approximately amino acids 190–243) plays a key role in lipid binding. Although the high lipid affinity region of the C-terminal domain of apoA-I (residues 223–243) is essential for the HDL formation, the function of low lipid affinity region (residues 191–220) remains unclear. To evaluate the role of residues 191–220, we analyzed the structure, lipid binding properties, and HDL formation activity of Δ191–220 apoA-I, in comparison to wild-type and Δ223–243 apoA-I. Although deletion of residues 191–220 has a slight effect on the tertiary structure of apoA-I, the Δ191–220 variant showed intermediate behavior between wild-type and Δ223–243 regarding the formation of hydrophobic sites and lipid interaction through the C-terminal domain. Physicochemical analysis demonstrated that defective lipid binding of Δ191–220 apoA-I is due to the decreased ability to form α-helix structure which provides the energetic source for lipid binding. In addition, the ability to form HDL particles in vitro and induce cholesterol efflux from ABCA1-expressing cells of Δ191–220 apoA-I was also intermediate between wild-type and Δ223–243 apoA-I. These results suggest that despite possessing low lipid affinity, residues 191–220 play a role in enhancing the ability of apoA-I to bind to and solubilize lipids by forming α-helix upon lipid interaction. Our results demonstrate that the combination of low lipid affinity region and high lipid affinity region of apoA-I is required for efficient ABCA1-dependent HDL formation.     

Characterization of two distinct positive cis-acting elements in the mouse alpha 1 (III) collagen promoter

We have identified two distinct sequence elements in the mouse alpha 1(III) collagen promoter which are protected from DNase I digestion by the binding of factors present in crude nuclear extracts of NIH 3T3 fibroblasts. Small substitution mutations were introduced into these promoter elements and shown by the gel retardation (gel mobility shift) and DNase I protection assays to decrease or eliminate factor binding to the mutated element but not to the remaining wild-type element, indicating that two distinct factors recognize these separate promoter regions. Region A appears to bind a factor related to the Jun/AP-1 protein, whereas the factor binding to region B remains as yet unidentified. Mutagenesis of either region decreased the activity of the alpha 1(III) collagen promoter in DNA transfection assays by about 3-fold for the A region (located between - 122 and - 106) and about 5-fold for the B region (located between -83 and -61). These results indicate that regions A and B in the mouse alpha 1(III) collagen promoter are positive cis-regulatory elements, independently binding two distinct trans-activating factors.