特异AT序列结合蛋白-1促进胰岛素样生长因子 结合蛋白-2在K562细胞中的表达

探讨过表达特异AT序列结合蛋白-1 ( special AT-rich sequence binding protein ,SATB1)核基质结合区（MAR）结合蛋白对胰岛素样生长因子结合蛋白-2（IGFBP2）基因表 达的影响,并对其影响机制进行初步探索．首先用脂质体将SATB1的真核表达载体pcDNA3.1-SATB1转染至K562细胞,通过6周G418的筛选获得阳性克隆,RT-PCR、实时PCR及Western 印迹验证过表达情况,对阳性克隆细胞中IGFBP2的表达用RT-PCR、实时PCR及Western 印迹方法进行检测;然后用RNAi的方法干扰阳性细胞中SATB1 的表达后,同样用上述3种方法再次检测IGFBP2的表达状况;用生物信息学方法对IGFBP2基因进行MAR序列与SATB1结合位点搜索分析,寻找SATB1影响IGFBP2基因表达的机制．结果显示,在稳定转染的情况下,实验组K562-SATB1细胞与转染空载体pcDNA3.1的K562-3.1细胞和未转染细胞K562相比,IGFBP2 mRNA水平上调了近7倍,而蛋白水平变化不明显．RNA干扰后,IGFBP2的表达在mRNA水平也相应下调,蛋白水平的变化同样不明显．通过生物信息学分析发现,IGFBP2第1个内含子中可能存在2. 5 kb MAR样序列,且MAR样序列上存在多个SATB1的潜在结合位点．综上所述,过表达SATB1可以使K562细胞中IGFBP2 mRNA表达水平提高,而且其调控机制可能与SATB1直接和IGFBP2基因中的MAR样序列结合有关．     

SATB1 regulates β-like globin genes through matrix related nuclear relocation of the cluster

The nuclear location and relocation of genes play crucial regulatory roles in gene expression. SATB1, a MAR-binding protein, has been found to regulate β-like globin genes through chromatin remodeling. In this study, we generated K562 cells over-expressing wild-type or nuclear matrix targeting sequences (NMTS)-deficient SATB1 and found that like wild-type SATB1, NMTS-deficient SATB1 induces out loop of β-globin cluster from its chromosome territory (CT), while it is unable to associate the cluster with the nuclear matrix as wild-type SATB1 does and had no regulatory functions to the β-globin cluster. Besides, our data showed that the transacting factor occupancies and chromatin modifications at β-globin cluster were differentially affected by wild-type and NMTS-deficient SATB1. These results indicate that SATB1 regulates β-like globin genes at the nuclear level interlaced with chromatin and DNA level, and emphasize the nuclear matrix binding activity of SATB1 to its regulatory function.     

人SATB1基因5′上游序列的转录激活功能分析

在对人SATB1基因进行生物信息学分析的基础上 ,采用PCR技术 ,扩增人基因组DNA中SATB1基因 5′上游序列的 - 2 95 5～ - 9片段 ,构建了 3个分别由SATB1基因 5′上游 - 2 95 5～ - 9,- 172 7～ - 9和 - 76 0～ - 9序列片段驱动的报告载体 -pGL3 SP2 94 6 luc ,pGL3 SP1718 luc和pGL3 SP75 1 luc ,分别瞬时转染JurkatT ,K5 6 2 ,U937和HeLa细胞 ,通过测定荧光素酶的表达活性 ,观察SATB1基因 5′上游序列片段 3个删除突变体在不同细胞内活性的差异 .结果显示 ,SATB1上游序列- 2 95 5 - 9在 4种细胞中的转录激活能力为U937>JurkatT >K5 6 2 ,在HeLa细胞中基本无激活 ,提示SATB1的转录激活可能具有一定的细胞类型特异性 .3种 5′删除突变体转录激活性由大至小顺序为 - 76 0 - 9>- 2 95 5 - 9>- 172 7 - 9,提示SATB1的核心启动子可能存在于其 5′上游序列的- 76 0至 - 9bp区域中 .     

A novel DNA-binding motif in the nuclear matrix attachment DNA-binding protein SATB1.

The nuclear matrix attachment DNA (MAR) binding protein SATB1 is a sequence context-specific binding protein that binds in the minor groove, making virtually no contact with the DNA bases. The SATB1 binding sites consist of a special AT-rich sequence context in which one strand is well-mixed A's, T's, and C's, excluding G's (ATC sequences), which is typically found in clusters within different MARs. To determine the extent of conservation of the SATB1 gene among different species, we cloned a mouse homolog of the human STAB1 cDNA from a cDNA expression library of the mouse thymus, the tissue in which this protein is predominantly expressed. This mouse cDNA encodes a 764-amino-acid protein with a 98% homology in amino acid sequence to the human SATB1 originally cloned from testis. To characterize the DNA binding domain of this novel class of protein, we used the mouse SATB1 cDNA and delineated a 150-amino-acid polypeptide as the binding domain. This region confers full DNA binding activity, recognizes the specific sequence context, and makes direct contact with DNA at the same nucleotides as the whole protein. This DNA binding domain contains a novel DNA binding motif: when no more than 21 amino acids at either the N- or C-terminal end of the binding domain are deleted, the majority of the DNA binding activity is lost. The concomitant presence of both terminal sequences is mandatory for binding. These two terminal regions consist of hydrophilic amino acids and share homologous sequences that are different from those of any known DNA binding motifs. We propose that the DNA binding region of SATB1 extends its two terminal regions toward DNA to make direct contact with DNA.     

A tissue-specific MAR/SAR DNA-binding protein with unusual binding site recognition.

A human cDNA was cloned that encodes a DNA-binding protein (SATB1) that is expressed predominantly in thymus and binds selectively to the nuclear matrix/scaffold-associating DNAs (MARs/SARs). Missing nucleoside experiments showed that SATB1 selectively binds in a special AT-rich sequence context where one strand consists of mixed A's, T's, and C's, excluding G's (ATC sequences). When this feature is destroyed by mutation, SATB1 binding is greatly reduced even if the direct contact sequence remains intact. Conjunctional SATB1-binding sequences become stably unpaired in supercoiled DNA. Specific mutations that diminish the unwinding potential greatly reduce SATB1 binding. However, SATB1 does not bind single-stranded DNA. Chemical interference assays show that SATB1 binds along the minor groove with very little contact with the bases. This suggests that SATB1 recognizes the ATC sequence indirectly through the altered sugar-phosphate backbone structure present in the double-stranded DNA.     

LINE L1 retrotransposable element is targeted during the initial stages of apoptotic DNA fragmentation

Using a directional cloning strategy, DNA sequence information was obtained corresponding to the site of early radiation-induced apoptotic DNA fragmentation within the human lymphoblastoid cell line TK6. Data were obtained from 88 distinct clones comprising approximately 65 kbp of sequenced material. Analysis of all cloned material showed that sequences in the 10 bp immediately adjacent to the cleavage sites were enriched in short oligoT tracts. The proportion of repetitive DNA within the entire cloned material was found to be within the normal range. However the distribution of Alu and LINE repetitive DNA were biased to positions at or adjacent to the apoptotic cleavage site. In particular, a non-random distribution of five cleavage sites was found clustered within the second ORF of the LINE L1 that partially overlapped with two binding sites for the nuclear matrix-associated protein SATB1. Three other clones, containing alpha satellite elements, were also linked to a DNA matrix binding function. These data indicate that the site of chromatin loop formation at the nuclear matrix may be a specific target for early DNA fragmentation events during apoptosis.     

The Genomic Sequences Bound to Special AT-rich Sequence-binding Protein 1 (SATB1) In Vivo in Jurkat T Cells Are Tightly Associated with the Nuclear Matrix at the Bases of the Chromatin Loops

Special AT-rich sequence-binding protein 1 (SATB1), a DNA-binding protein expressed predominantly in thymocytes, recognizes an ATC sequence context that consists of a cluster of sequence stretches with well-mixed A's, T's, and C's without G's on one strand. Such regions confer a high propensity for stable base unpairing. Using an in vivo cross-linking strategy, specialized genomic sequences (0.1–1.1 kbp) that bind to SATB1 in human lymphoblastic cell line Jurkat cells were individually isolated and characterized. All in vivo SATB1-binding sequences examined contained typical ATC sequence contexts, with some exhibiting homology to autonomously replicating sequences from the yeast Saccharomyces cerevisiae that function as replication origins in yeast cells. In addition, LINE 1 elements, satellite 2 sequences, and CpG island–containing DNA were identified. To examine the higher-order packaging of these in vivo SATB1-binding sequences, high-resolution in situ fluorescence hybridization was performed with both nuclear “halos” with distended loops and the nuclear matrix after the majority of DNA had been removed by nuclease digestion. In vivo SATB1-binding sequences hybridized to genomic DNA as single spots within the residual nucleus circumscribed by the halo of DNA and remained as single spots in the nuclear matrix, indicating that these sequences are localized at the base of chromatin loops. In human breast cancer SK-BR-3 cells that do not express SATB1, at least one such sequence was found not anchored onto the nuclear matrix. These findings provide the first evidence that a cell type–specific factor such as SATB1 binds to the base of chromatin loops in vivo and suggests that a specific chromatin loop domain structure is involved in T cell–specific gene regulation.     

SATB1在基因表达调控中作用的研究进展

SATB1是一种组织特异性的核基质结合蛋白,参与了染色质高级结构的形成和组织特异性基因的表达调控,对于胸腺细胞的发育和T细胞的成熟起到了尤为重要的作用。虽然已经知道SATB1可以通过与MAR序列结合,以促进染色质重塑,调节组蛋白乙酰化和甲基化水平等多种途径对基因的表达进行调控,但是对于该过程所涉及到的分子机制仍然不是很清楚。本文对SATB1在基因表达调控方面的研究进展作一综述。     

A regulated interaction between alpha5beta1 integrin and osteopontin

The extracellular matrix protein osteopontin (OPN) interacts with a number of integrins, namely alphavbeta1, alphavbeta3, alphavbeta5, alpha9beta1, alpha8beta1, and alpha4beta1. We have investigated the interaction of alpha5beta1 integrin with OPN using K562 cells, which only express alpha5beta1. alpha5beta1 is in a low activation state in this cell line, but can be stimulated to a higher activation state by the phorbol ester TPA. Treating K562 wild-type cells (K562-WT) with TPA stimulated an interaction between alpha5beta1 and OPN. No interaction was seen in the absence of TPA. alpha5beta1 selectively interacted with a GST fusion protein of the N-terminal fragment of OPN (aa17-168), which is generated in vivo by thrombin cleavage of OPN. Expression of the alpha4 integrin in K562 cells (K562-alpha4beta1) stimulated alpha5beta1-dependent binding to aa17-168 in the absence of TPA, suggesting that alpha4beta1 activates alpha5beta1 in K562 cells. Adhesion via alpha5beta1 is mediated by the Arg-Gly-Asp (RGD) motif of OPN, as mutating this sequence to Arg-Ala-Asp (RAD) blocked binding of both cell types. These data demonstrate that thrombin cleavage regulates the adhesive properties of OPN and that alpha5beta1 integrin can interact with thrombin-cleaved osteopontin when in a high activation state.     

人类不同类型细胞中X-盒结合蛋白1转录活性研究

人类X-盒结合蛋白1(X-box binding protein1,XBP1)作为一种重要的转录因子,在细胞中涉及了广泛的信号调控过程。为进一步研究XBP1的生物学功能,首先利用生物信息学技术确定XBP1基因的启动子区域和2个缺失突变体的基因序列,聚合酶链反应扩增XBP1启动子和2个缺失突变体的基因序列,分别克隆至真核报告载体pCAT3-Basic中,构建3个报告载体p1-XBP1p、p2-XBP1p和p3-XBP1p,确定启动子活性最强的序列,并以该序列分别转染正常人肝细胞L02、人肝母细胞瘤细胞HepG2、人肝癌细胞SMMC-7721、人类红白血病细胞K562、人皮肤成纤维细胞HSF和人贮脂细胞Lipocyte Ito Cell 6种不同类型的细胞后(FuGENE 6 transfection reagents),CAT-ELISA方法检测氯霉素乙酰转移酶(CAT)在不同细胞系中的表达活性。每一组CAT结果反应了XBP1启动子转录活性的大小,其中p3-XBP1p在HepG2细胞中活性最强,是pCAT3-Basic的12.4倍,其次是K562和SMMC-7721,分别是10.9倍和10.0倍;在L02细胞中CAT酶活性低于上述3种异常细胞,在HSF和Ito细胞中CAT酶活性低或没有活性。运用适时荧光PCR方法和免疫印迹分别从mRNA水平和蛋白水平检测了XBP1在不同细胞中的表达情况,结果均显示XBP1在HepG2、K562和SMMC-7721细胞中的转录和表达强于L02、HSF和Ito细胞,在HSF细胞和L02细胞中转录和表达较低,在Ito细胞中几乎检测不到XBP1的表达,与CAT-ELISA检测结果一致。因此,XBP1启动子的转录活性在不同细胞中是具有差异的,而XBP1启动子转录活性的大小直接调控下游基因XBP1的表达,导致不同细胞中XBP1的表达丰度也不相同,XBP1启动子的转录活性和表达与细胞类型、细胞周期和组织特异性密切相关。本研究发现XBP1启动子的ATG上游-227bp～66bp区域与XBP1的转录活性密切相关,属于XBP1启动子的核心区域;进一步比较XBP1基因核心启动子区在不同细胞中转录活性的差别和XBP1基因表达丰度的差异,为揭示真核细胞中XBP1的转录调控机制奠定基础。     

A common protein binds to two silencers 5'' to the human beta-globin gene.

The temporal sequence of expression of human globin genes during development suggests precise regulation of these genes. Recent studies have characterized a number of DNA sequences within or flanking the human beta-globin gene which are important in its regulation and several proteins which bind to these sequences have been identified. We have found two proteins which bind 5' to the human beta-globin gene. One of these proteins, which we designate BP1, binds to two sequences, one between -550 and -527 bp relative to the cap site, the other between -302 and -294 bp. A second protein, BP2, binds to sequences between -275 and -263 bp. The binding sites for both BP1 and BP2 are in two regions which function as silencers in a transient expression assay using the human erythroleukemia cell line K562. These results and others presented here suggest that BP1 may act as a repressor protein. Negative regulation seems to be an important component of tissue and developmental specific globin gene regulation.     

Structural basis for recognition of the matrix attachment region of DNA by transcription factor SATB1

Special AT-rich sequence binding protein 1 (SATB1) regulates gene expression essential in immune T-cell maturation and switching of fetal globin species, by binding to matrix attachment regions (MARs) of DNA and inducing a local chromatin remodeling. Previously we have revealed a five-helix structure of the N-terminal CUT domain, which is essentially the folded region in the MAR-binding domain, of human SATB1 by NMR. Here we determined crystal structure of the complex of the CUT domain and a MAR DNA, in which the third helix of the CUT domain deeply enters the major groove of DNA in the B-form. Bases of 5'-CTAATA-3' sequence are contacted by this helix, through direct and water-mediated hydrogen bonds and apolar and van der Waals contacts. Mutations at conserved base-contacting residues, Gln402 and Gly403, reduced the DNA-binding activity, which confirmed the importance of the observed interactions involving these residues. A significant number of equivalent contacts are observed also for typically four-helix POU-specific domains of POU-homologous proteins, indicating that these domains share a common framework of the DNA-binding mode, recognizing partially similar DNA sequences.