Proteins binding to the 5‘—flanking regualtory elements of the human β—globin gene

The binding of nuclear proteins prepared from mouse erythroid tissue in different developmental stages to the 5‘-flanking regulatory elements of human β-globin gene,two negative control regions(NCR1,-610to-490 bp;NCR2,-338,to-233bp),was identified.Two stage specific protein factors corresponding to embryonic and fetal stages were found to be capable of binding to NCR2.These data provided evidence that the cis acting elements of the 5‘-flanking region might be involved in the developmental control of β-globin gene and NCR2 might be responsible in art for the silence of β-glolbin gene in the embryonic and fetal stages.     

Studies on DNA—protein interactions in the upstream regulatory region of the human ε—globin gene promoter

The erythroid- and developmental stage-specific expression of the human ε-globin gene is controlled,in part,by the 5‘-flanking DNA sequence of this gene.In the present study,we have used DNA-protein binding assays to identify trans-acting factors which regulate the temporal expression of the human ε-globin gene during development.Using gel mobility shift assays and DNaseI footprinting assays,a nuclear protein factor (termed ε-SSF1) in the nuclear extracts from mouse haematopoietic tissues at d 11 and d 13 of gestation was identified.It could specifically bind to the positive control region (between-535 and -453bp) of the human ε-globin gene.We speculated that the ε-SSF1 might be an erythroid-and developmental stage-specific activator.In addition,we found another nuclear protein factor (terned ε-R1) in the nuclear extract from mouse fetal liver at d18 of gestation,which could strongly bind to the silencer region (between-392 and -177bp) of this gene.Therefore,we speculated that the ε-R1 might be an erythroid-and developmental stagespecific repressor.Our data suggest that both ε-SSF1 and ε-R1 might play important roles in developmental regulation of the human ε-globin gene expression during the early embryonic life.On the hand,we observed that the binding patterns of nuclear proteins from three cell lines (K562,HEL and Raji) to these regulatory regions were partially different.These results suggest that different trans-acting factors in K562,HEL and Raji cells might be responsible for activating or silencing the human ε-globin gene in three different cell lines.     

Identification of the development stage—specific factors in mouse fetal liver binding to the human β—globin gene promoter

In order to elucidate the molecular mechanisms of globin gene expression during embryonic development,the nuclear extracts from mouse hematopoietic tissue at different stages of development have been prepared.By using DNase I footprinting and gel mobility shift assays,the binding of protein factors in these extracts to the human β-globin promoter was analyzed.The differences in the binding patterns of protein factors during development were observed.An erythroid-specific and stage-specific nuclear protein in the nuclear extrace from d 18 mouse fetal liver was identified,which can bind to the sequence(from-66bp to-90bp) of human β-globin promoter.We therefore speculate that the function of this cis-acting element may be similar to stage selector element(SSE) in chicken β^A-promoter.     

Trans—acting factors from the human fetal liver binding to the human ε—globin gene silencer

The developmental stage-specific silencing of the human ε-globin gene during embryonic life is controlled,in part,by the silencer (-392bp- -177bp) upstream of this gene.In order to elucidate its role,the nuclear extract from the human fetal liver has been prepared and the interactions between trans-acting factors and this silencer element have been examined.By using DNaseI footprinting assay,a major protected region from -278bp to -235bp within this silencer element was identified.Furthermore,we found in gel mobility shift assay and Southwestern blotting assay that there were at least four trans-acting factors (MV≈32,28,26 and 22kD) in the nuclear extract isolated from the human fetal liver,which could specifically bind to this region.Our results suggested that these trans-acting factors might play an important role in silencing the human embryonic ε-globin gene expression at the fetal stage through the interactions with this silencer.     

The 5‘—flanking cis—acting elements of the human ε—globin gene associates with the nuclear matrix and binds to the nuclear matrix proteins

The nuclear matrix attachment regions(MARs) and the binding nuclear matrix proteins in the 5‘-flanking cisacting elements of the human ε-globin gene have been examined.Using in vitro DNA-matrix binding assay,it has been shown that the positive stage-specific regulatory element (ε-PREII,-446bp- -419bp) upstream of this gene could specifically associate with the nuclear matrix from K562 cells,indicating that ε-PREII may be an erythroidspecific facultative MAR.In gel mobility shift assay and Southwestern blotting assay,an erythroid-specific nuclear matrix protein (ε-NMPk) in K562 cells has been revealed to bind to this positive regulatory element (ε-PREII).Furthermore,we demonstrated that the silencer (-392bp- -177bp) upstream of the human ε-globin gene could associate with the nuclear matrices from K562,HEL and Raji cells.In addition,the nuclear matrix proteins prepared from these three cell lines could also bind to this silencer,suggesting that this silencer element might be a constitutive nuclear matrix attachment region(constitutive MAR).Our results demonstrated that the nuclear matrix and nuclear matrix proteins might play an important role in the regulation of the human ε-globin gene expression.     

cDNA cloning and function analysis of two novel erythroid differentiation related genes

Our previous studies showed that some nuclear proteins that were expressed especially during terminal differentiation of erythroid cells might interact directly or indirectly with HS2 sequence to form the HS2-protein complexes and thus play an important role in the globin gene regulation and erythroid differentiation. Monoclonal antibodies against the nuclear proteins of terminal differentiated erythroid cells, including intermediate and late erythroblasts of human fetal liver and hemin induced K562 cells, were prepared by hybridoma technique. The monoclonal antibodies were used to screen λ-gtll human cDNA expression library of fetal liver in order to obtain the relevant cDNA clones. By the analysis of their cDNA clones and the identification of the proteins' functions, the regulation mechanism of the HS2 binding proteins might be better understood. Two cDNA clones (GenBank accession number AF040247 and AF040248 respectively) were obtained and one of them owns a full length and the other encodes a prote     

Cloning and expression analysis of p26 gene in Artemia sinica

The protein p26 is a small heat shock protein that functions as a molecular chaperone to protect embryos by preventing irreversible protein damage during embryonic development. A 542 bp fragment of the p26 gene was cloned and sequenced. The fragment encoded 174 amino acid residues and the amino acid sequence contained the α-crystallin domain. Phylogenetic analysis showed that eight Artemia populations were divided into four major groups. Artemia sinica (YC) belonged to the East Asia bisexual group. Expression of the p26 gene at different developmental stages ofA. sinica was quantified using real-time quantitative polymerase chain reaction followed by cloning and sequencing. The relationship between the quantity of p26 gene expression and embryonic development was analyzed. The results indicated that massive amounts of p26 were expressed during the development of A. sinica. At the developmental stage of 0 h, A. sinica expressed the highest level of p26. As development proceeded, expression levels of the p26 gene reduced significantly. There was a small quantity of p26 gene expression at the developmental stages of 16 h and 24 h. We concluded that p26 might be involved in protecting the embryo from physiological stress during embryonic development.     

The in vitro reconstitution of nucleosome and its binding patterns with HMG1／2 and HMG14／17 proteins

Using atomic force microscopy (AFM), the dynamic process of the in vitro nucleosome reconstitution followed by slow dilution from high salt to low salt was visualized. Data showed that the histone octamers were dissociatedfrom DNA at 1M NaC1. When the salt concentration was slowly reduced to 650 mM and 300 mM, the core histones bound to the naked DNA gradually. Once the salt concentration was reduced to 50 mM the classic “beads-on-a-string“ structure was clearly visualized. Furthermore, using the technique of the in vitro reconstitution of nucleosome,the mono- and di- nucleosomes were assembled in vitro with both HS2core (-10681 to -10970 bp) and NCR2 (-372to -194 bp) DNA sequences in the 5‘flanking sequence of human b-globin gene. Data revealed that HMG 1/2 and HMG 14/17 proteins binding to both DNA sequences are changeable following the assembly and disassembly of nucleosomes. We suggest that the changeable binding patterns of HMG 14/17 and HMG1/2 proteins with these regulatory elements may be critical in the process of nucleosome assembly, recruitment of chromatin-modifying activities, and the regulation of human b-globin gene expression.     

The interaction between the human β-globin locus control region and nuclear matrix

Our previous study showed that hydroxyurea (Hu) could induce HEL cells to express humanβ-globin gene. However the molecular mechanisms by which the expression of β-globin gene is activated and regulated are poorly understood. Here we show that the binding patterns between the core DNA sequences (HS2 core sequence -10681- -10971 bp , HS3 core sequence -14991- -14716 bp and HS4 core sequence -18586- -18306 bp) of DNase I hypersensitive sites in the human β-globin LCR and nuclear matrix proteins isolated from Hu induced and uninduced HEL cells are quite different. Results demonstrated that nuclear matrix proteins might play important roles in regulating the expression of humanβ-like globin genes through their interaction with HSs (HS2,HS3 and HS4 core sequences) in the LCR. Moreover, the results obtained from the in vitro DNA-matrix binding assay showed that the core DNA sequences of DNase I hypersensitive sites (HS2, HS3 and HS4) were unable to bind to the nuclear matrix isolated from uninduced HEL cel     

A stage—specific protein factor binding to a CACCC motif in both human β—globin gene promoter and 5‘—HS2 region

The DNaseI hypersensitive site 2 (HS2) of human β-globin locus control region(LCR) is required for the high level expression of human β-globin genes.In the present study,a stage-specific protein factor (LPF-β) was identified in the nuclear extract prepared from mouse fetal liver at d 18 of gestation,which could bind to the HS2 region of human β-globin LCR.We also found that the shift band of LPF-β factor could be competed by human β-globin promoter.However,it couldn‘t be competed by human ε-globin promoter or by human ^Aγ-globin promoter.Furthermore,our data demonstrated that the binding-sequence of LPF-β factor is 5‘CACACCCTA 3‘,which is located at the HS2 region of β-LCR(from-10845 to-10853 bp)and human β-globin promoter(from-92 to -84 bp).We speculated that these regions containing the CACCC box in both the human β-globin promoter and HS2 might function as stage selector elements in the regulation of human β-globin switching and the LPF-β factor might be a stage-specific protein factor involved in the regulation of human β-globin gene expression.     

Interactions between HMG proteins and the core sequence of DNaseI hypersensitive site 2 in the locus control region (LCR) of the human β-Mike globin gene cluster

HMG proteins are abundant chromosomal non-histone proteins. It has been suggested that the HMG proteins may play an important role in the structure and function of chromatin. In the present study, the binding of HMG proteins (HMG1/2 and HMG14/17) to the core DNA sequence of DNasel hypersensitive site 2 (HS2core DNA sequence, -10681-10970 bp) in the locus control region (LCR) of the human β-like globin gene cluster has been examined by using both the in vitro nucleosome reconstitution and the gel mobility shift assays. Here we show that HMG1/2 can bind to the naked HS2core DNA sequence, however, HMG 14/17 cannot. Using the in vitro nucleosome reconstitution we demonstrate that HMG14/17 can bind to the HS2core DNA sequence which is assembled into nucleosomes with the core histone octamer transferred from chicken erythrocytes. In contrast, HMG 1/2 cannot bind to the nucleosomes reconstituted in vitro with the HS2core DNA sequence. These results indicate that the binding patterns between HMG proteins and t     

Identification of a NF-кB site in the negative regulatory element (ε-NRAII) of human ε-globin gene and its binding protein NF-кB p50 in the nuclei of K562 cells

INTRODUCTIONThe human P-like globin genes are arranged as acluster of five genes(e, Gry, Ary, 8 and P) in the orderof their temporal expression. The human embryonicE-globin gene is expressed in the blood island of theembryonic yolk sac and is silenced completely at 6~8w of gestation in the fetal liverI11. Studies on trans-genic mice suggested that the regulation of 5-globingene expression is autonomous. The activating andsilencing of 5-globin gene expression rely on distallocus control …