A 27 bp cis-acting sequence is essential for L-type calcium channel alpha(1C) subunit expression in vascular smooth muscle cells

Expression of L-type calcium channels in cardiac myocytes and vascular smooth muscle cells (VSMC) critically regulates the contractile state of these cells. In order to discover the elements in the promoter region of the Ca(v)1.2 gene encoding the vascular/cardiac calcium channel alpha(1C) subunit that are important for the basal gene expression, approximately 2 kb of the 5'-flanking sequence of the Ca(v)1.2 gene has been cloned in our lab. In this study, using various lengths of the 5'-flanking DNA fused with a luciferase gene as a reporter, we have defined a 493-bp fragment of the cis-regulatory DNA which carries the majority of promoter activity in pulmonary artery smooth muscle (PAC1) cells. DNase I footprinting analysis of this 493-bp DNA using nuclear extracts from PAC1 cells revealed a 27-bp DNA sequence that contains a c-Ets like motif (CAGGATGC). Mutation of the Ets-like site and the respective flanking sequence within the DNase I footprinting protection region induced a marked change in the promoter activity in PAC1 cells. Electrophoretic mobility shift assays (EMSA) confirmed the presence of specific binding factor(s) in PAC1 cells' nuclear extracts for this 27-bp DNA. Competition studies with the wild-type and mutated DNA fragments established the importance of the 27 bp DNA sequence for high-affinity binding of the nuclear proteins to the promoter. We conclude that there is a 27 bp region in the promoter of the Ca(v)1.2 gene to which nuclear proteins from VSMC bind and strongly regulate the basal promoter activity.     

SV40 T抗原与人U_1和U_2 snRNA基因的特异结合

利用DNA结合免疫分析证明,编码人U_1和U_2 snRNA基因的5′端区域含有与SV40 T抗原特异结合的序列。SV40 T抗原与U_2基因的亲和力大于U_1基因。DNasel足印(footprinting)分析取得与DNA结合免疫分析一致的结果。U_1和U_2基因的5′端区域含有能被T抗原所保护的,免于DNasel降解的序列。这两个基因的两条链上都含有约30bp长的DNA被T抗原所保护。U_1基因被保护的区域在-11bp—-42bp之间,而U_2基因被保护区域是在-58bp—-90bp之间。     

TGGCA protein is present in erythroid nuclei and binds within the nuclease-hypersensitive sites 5' of the chicken beta H- and beta A-globin genes

The developmentally regulated 5'-flanking DNase-I-hypersensitive site of the chicken beta H-globin gene in nuclei contains a subregion which is resistant to DNase I and which disappears when nuclei are extracted with 0.3 M NaCl, suggesting that there are salt-extractable proteins bound to sequences within this region. The 0.3 M NaCl extract contains two proteins which bind in vitro to these sequences. One of the binding sequences has an inverted repeat very similar to that bound by TGGCA protein. Partially purified TGGCA protein from chicken liver binds to this sequence in vitro giving exactly the same footprint as that obtained with erythroid nuclear proteins. Similarly TGGCA protein binds to an inverted repeat with the beta A-globin 5'-hypersensitive site giving a footprint identical to that obtained with erythroid nuclear protein extracts. From competition footprinting experiments and the electrophoretic mobility of the protein-DNA complex, it is concluded that the erythroid proteins previously described as binding to the beta H- and beta A-globin inverted repeats within the 5'-flanking hypersensitive sites both belong to the TGGCA protein family.     

Identification of a nuclear protein interacting with a novel site on rat androgen receptor promoter after transcription factor NFkB is displaced from adjacent site

Sequence-specific DNA-protein interactions mediate the regulation of rat androgen receptor (rAR) gene expression. Previously, DNase I footprinting revealed that nuclear factor kappa B (NFkB) binds to region -574 to -554 on rAR promoter and represses its expression. In this study, we demonstrate that when NFkB protein is removed from its site by competitor DNA in DNase I footprinting reaction, a new DNase I protected region is formed overlapping adjacently (-594 to -561). This indicates that another nuclear protein (named here as FRN, factor repressed by NFkB) binds to rAR promoter only after NFkB protein is displaced. By competitive electrophoretic mobility shift assay and mutation analysis, we confirmed the formation of FRN-DNA complex. FRN interacts with a novel sequence on rAR promoter and may play a role in regulation of rAR gene expression in concert with NFkB.     

HMG protein binding to an A/T-rich positive regulatory region of the pea plastocyanin gene promoter

Gel retardation assays using pea nuclear extracts have detected specific binding to regions of the promoter of the pea plastocyanin gene (petE). Several complexes which differ in sensitivity to competition with unlabelled promoter fragments and various DNA alternating copolymers, to heat treatment and to digestion with proteinase K have been detected. A protein factor, PCF1, forming one of these complexes was heat-stable and most sensitive to competition with poly(dAdT).poly(dAdT) compared to other alternating copolymers. DNase I footprinting assays showed that tracts of A/T-rich sequence within the -444 to -177 positive regulatory region of the petE promoter were protected in the presence of the pea nuclear extract. The factor PCF1 copurified with a high-mobility-group (HMG) protein preparation from pea chromatin. DNase I footprinting with the HMG protein preparation demonstrated that similar tracts of A/T-rich sequences within the promoter were protected. Southwestern-blot analysis of pea HMG proteins purified by gel filtration through Superose 12 detected a single DNA-binding species of 21 kDa. The properties of the factor PCF1 suggest that it is likely to be an HMG I protein.     

cis elements that control the expression of chick aggrecan

Aggrecan is a large chondroitin sulfate proteoglycan whose expression is both cell-specific and developmentally regulated. Cloning and sequencing of the 1.8-kilobase genomic 5'-flanking sequence of the chick aggrecan gene revealed the presence of potential tissue-specific control elements including a consensus sequence found in the cartilage-associated silencers, CSIIS1 and CSIIS2, that were first characterized in the type II collagen promoter sequences, as well as numerous other cis elements. Transient transfections of chick sternal chondrocytes and fibroblasts with reporter plasmids bearing progressively deleted portions of the chick aggrecan promoter and enhancer region demonstrated cell type-specific promoter activity and identified a 420-base pair region in the genomic 5-flanking region responsible for negative regulation of the aggrecan gene. In this report, three complementary methods, DNase I footprinting assays, transient transfections, and electrophoretic mobility shift assays (EMSA), provided an integral approach to better understand the regulation of the aggrecan gene. DNase I footprinting revealed that six regions of this genomic sequence bind to nuclear proteins in a tissue-specific manner. Transient transfection of reporter constructs bearing ablations of these protected sequences showed that four of the six protected sequences, which contain the sequence TCCTCC or TCCCCT, had repressor activities in transfected chick chondrocytes. Cross-competition EMSA using nuclear protein extracted from chondrocytes or fibroblasts explored the contributions of the different sequence elements in formation of DNA-protein complexes specific to cell type. This is the first parallel examination of the EMSA patterns for six functionally defined cis elements with highly similar sequences, using protein from primary cultured cells.     

Interaction of nuclear factors with the upstream region of the alpha-subunit gene of chicken muscle acetylcholine receptor: variations with muscle differentiation and denervation.

The region lying between nucleotides (nt) -110 and -45 of chicken acetylcholine receptor alpha-subunit gene 5' upstream sequence confers developmental control of expression in primary cultures of chicken myotubes. This region interacts with several nuclear factors present in muscle cells as shown by DNase I footprinting and gel-retardation experiments. An Sp1-like factor and a guanine stretch-binding protein were found to bind to overlapping sites immediately upstream of the TATA box. Several factors interacting in the same region with a domain similar to the SV40 enhancer core appeared during in vitro differentiation of myoblasts into myotubes. The concentration of some of these factors increased also after denervation of leg muscle in newborn chickens. The specific interaction of nuclear factors with this domain may thus play a critical role in the regulation of alpha-subunit gene expression by muscle differentiation and electrical activity.