The X boxes from promoters of HLA class II B genes at different loci do not complete for nuclear protein-specific binding

Identification of four novel alleles of the BoLA-DRB3 upstream regulatory region in Chinese yellow cattle

The sequence of upstream regulatory region (URR) of BoLA-DRB3 gene was amplified with polymerase chain reaction followed by DNA sequencing from six animals of Chinese yellow cattle. A total of five alleles including four newly identified ones, named BoLA-DRB3*R-03-U2, BoLA-DRB3*R-06-U2, BoLA-DRB3*R-07-U and BoLA-DRB3*R-12-U for the BoLA-DRB3 URR were found. Result of sequence analysis showed that the regulatory elements W, X, Y, CCAAT and TATA-like boxes existed in such URRs and 16 polymorphic sites (11 transitions, 3 transversions, 1 deletion and 1 insertion) located in the spacers between the conserved consensus boxes and 1 insertion within X box, while no new polymorphic site within the consensus boxes.

Immunology and genetics of type 1 diabetes

Type 1 diabetes is one of the most well-characterized autoimmune diseases. Type 1 diabetes compromises an individual's insulin production through the autoimmune destruction of pancreatic beta-cells. Although much is understood about the mechanisms of this disease, multiple potential contributing factors are thought to play distinct parts in triggering type 1 diabetes. The immunological diagnosis of type 1 diabetes relies primarily on the detection of autoantibodies against islet antigens in the serum of type 1 diabetes mellitus patients. Genetic analyses of type 1 diabetes have linked human leukocyte antigen, specifically class II alleles, to susceptibility to disease onset. Environmental catalysts include various possible factors, such as viral infections, although the evidence linking infections with type 1 diabetes remains inconclusive. Imbalances within the immune system's system of checks and balances may promote immune activation, while undermining immune regulation. A lack of proper regulation and overactive pathogenic responses provide a framework for the development of autoimmune abnormalities. Type 1 diabetes is a predictable and potentially treatable disease that still requires much research to fully understand and pinpoint the exact triggering events leading to autoimmune activation. In silico research can aid the comprehension of the etiology of complex disease pathways, including Type I diabetes, in order to and help predict the outcome of therapeutic strategies aimed at preserving beta-cell function.

Negative regulation of human parathyroid hormone gene promoter by vitamin D3 through nuclear factor Y

The negative regulation of the human parathyroid hormone (PTH) gene by biologically active vitamin D3 (1,25-dihydroxyvitamin D3; 1,25(OH)2D3) was studied in rat pituitary GH4C1 cells, which express factors needed for the negative regulation. We report here that NF-Y binds to sequences downstream of the site previously reported to bind the vitamin D receptor (VDR). Additional binding sites for NF-Y reside in the near vicinity and were shown to be important for full activity of the PTH gene promoter. VDR and NF-Y were shown to exhibit mutually exclusive binding to the VDRE region. According to our results, sequestration of binding partners for NF-Y by VDR also affects transcription through a NF-Y consensus binding element in GH4C1 but not in ROS17/2.8 cells. These results indicate that 1,25(OH)2D3 may affect transcription of the human PTH gene both by competitive binding of VDR and NF-Y, and by modulating transcriptional activity of NF-Y.

Polymorphisms of the upstream regulatory region of the major histocompatibility complex DRB genes in domestic horses

Sequence information was obtained on the variation of the ELA-DRB upstream regulatory region (URR) after polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) cloning and sequencing of approximately 220 bp upstream of the first exon of horse DRB genes. The sequence of the proximal URR of equine DRB is composed of highly conserved sequence motifs, showing the presence of the W, X, Y, CAAT and TATA conserved boxes of major histocompatibility complex (MHC) class II promoters. Five different polymorphic horse DRB promoter sequences were detected in five horse breeds. The results demonstrate the existence of polymorphism in the nucleotide sequences of the ELA-DRB URR, located in the functionally important conserved consensus sequences, the X2 box, the Y box and the TATA box, while conservation were observed in X1 and CAAT boxes. The nucleotide diversity among horse URRs was intermediate between that seen within human and mouse DRB promoters, suggesting the existence of another important source of variability in ELA-DRB genes. In addition, phylogenetic comparisons, identity analysis and sequence organization suggested that the reported sequences would correspond to an expressed ELA-DRB locus. However, further information about the functional significance of these promoter polymorphisms will probably be acquired through expression studies on the different sequences.

Polymorphism in the bovine BOLA-DRB3 upstream regulatory regions detected through PCR-SSCP and DNA sequencing

In the present work, we describe through polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) and DNA sequencing the polymorphism within the URR-BoLA-DRB3 in 15 cattle breeds. In total, seven PCR-SSCP defined alleles were detected. The alignment of studied sequences showed six polymorphic sites (four transitions, one transversion and one deletion) in the interconsensus regions of the BoLA-DRB3 upstream regulatory region (URR), while the consensus boxes were invariant. Five out of six detected polymorphic sites were of one nucleotide substitution in the interconsensus regions. It is expected that these mutations do not affect significantly the level of expression. In contrast, the deletion observed in the sequence between CCAAT and TATA boxes could have some effect on affinity interactions between the promoter region and the transcription factors. The URR-BoLA-DRB3 DNA analyzed sequences showed moderate level of nucleotide diversity, high level of identity among them and were grouped in the same clade in the phylogenetic tree. In addition, the phylogenetic tree, the similarity analysis and the sequence structure confirmed that the fragment analyzed in this study corresponds to the URR-BoLA-DRB3. The functional role of the observed polymorphic sites among the regulatory motifs in bovine needs to be analyzed and confirmed by means of gene expression assays.

Dissection of functional NF-Y-RFX cooperative interactions on the MHC class II Ea promoter

Transcription of major histocompatibility complex (MHC) class II genes depends upon the trimeric complexes RFX and NF-Y binding to the conserved X-Y promoter elements. We produced and purified the RFX subunits from Escherichia coli, reconstituted DNA-binding to the mouse Ea X box and dissected the interactions with NF-Y. RFX and NF-Y do not interact in solution, but make cooperative interactions in EMSA: a minimal NF-Y, composed of the evolutionary conserved domains, is sufficient and the RFXAP N-terminal half is expendable. Altering the X-Y distance abolishes cooperativity, indicating that DNA imposes severe spatial constraints. When tested on a highly positioned nucleosome, RFX binds DNA well and NF-Y does not increase its affinity further. Transfections of NF-Y subunits, but not RFX, in class II negative cells improves basal transcription and coexpression of the two activators has a synergistic effect, while modestly increasing CIITA-mediated activation. These results show that interactions between the two trimers on DNA are key to MHC class II expression.

An NF-Y binding site is important for basal, but not gonadotropin-releasing hormone-stimulated, expression of the luteinizing hormone beta subunit gene

Regulated synthesis of luteinizing hormone (LH) requires coordinated transcriptional control of the alpha and LHbeta subunits in pituitary gonadotropes. Several cis-acting elements and trans-acting factors have been defined for control of the LHbeta promoter through heterologous cell culture models. In this report, we describe the identification of bipartite NF-Y (CBF/CP1) binding sites within the proximal bovine LHbeta promoter. When multimerized, one of these sites activates the heterologous, minimal HSV thymidine kinase promoter in the gonadotrope-derived cell line alphaT3-1. The functional role of the promoter-distal site in regulating the full-length bovine LHbeta promoter was assessed in vivo using transgenic mice harboring a mutant promoter linked to the chloramphenicol acetyltransferase reporter gene. While this element is important for conferring high level activity of the LHbeta promoter in pituitary, it does not appear to be essential for mediating gonadotropin-releasing hormone (GnRH) regulation. This is the first characterization of a cis-acting element within this GnRH-dependent promoter that is restricted to regulating basal expression and not GnRH-induced activity.

A survey of 178 NF-Y binding CCAAT boxes

The CCAAT box is one of the most common elements in eukaryotic promoters, found in the forward or reverse orientation. Among the various DNA binding proteins that interact with this sequence, only NF-Y (CBF, HAP2/3/4/5) has been shown to absolutely require all 5 nt. Analysis of a database with 178 bona fide NF-Y binding sites in 96 unrelated promoters confirms this need and points to specific additional flanking nucleotides (C, Pu, Pu on the 5'-side and C/G, A/G, G,A/C, G on the 3'-side) required for efficient binding. The frequency of CCAAT boxes appears to be relatively higher in TATA-less promoters, particularly in the reverse ATTGG orientation. In TATA-containing promoters the CCAAT box is preferentially located in the -80/-100 region (mean position -89) and is not found nearer to the Start site than -50. In TATA-less promoters it is usually closer to the +1 signal (at -66 on average) and is sometimes present in proximity to the Cap site. The consensus and location of NF-Y binding sites parallel almost perfectly a previous general statistical study on CCAAT boxes in 502 unrelated promoters. This is an indication that NF-Y is the major, if not the sole, CCAAT box recognizing protein and that it might serve different roles in TATA-containing and TATA-less promoters.

Functional effects of a natural polymorphism in the transcriptional regulatory sequence of HLA-DQB1

DNA sequence polymorphism in the genes encoding HLA class II proteins accounts for allelic diversity in antigen recognition and presentation and, thus, in the role of these cell surface glycoproteins as determinants of the scope of the T-cell repertoire. In addition, sequence polymorphism in the promoter-proximal transcriptional regulatory regions of these genes has been described, particularly for the HLA-DQB1 locus, where these differences may contribute to variation in locus- and allele-specific expression. In this study, we measured the effect of such regulatory sequence polymorphism on the expression of endogenous alleles of DQB1 in heterozygous cells. Quantitative reverse transcriptase-mediated PCR analysis showed that expression of the DQB1*0301 allele responded more rapidly to gamma interferon induction than that of DQB1*0302. We have analyzed functional effects of a prominent allelic polymorphism that consists of a TG dinucleotide present between the W and X1 consensus elements in the DQB1*0302 allele but missing in the DQB1*0301 allele. The dominant effect of this polymorphism was to introduce a variation in the spacing between the W and X1 elements of these two alleles. A secondary compensatory effect was specific for the TG dinucleotide itself, which was essential for the binding of a nuclear protein complex to the *0302 regulatory region immediately 5' of the X1 element. Derivatives of the DQB1 5' regulatory region were used to drive expression of the chloramphenicol acetyltransferase gene in transient transfections of human B-lymphoblastoid and gamma interferon-treated melanoma cell lines, demonstrating that the additional spacing between the W and X1 elements caused by the presence of the TG dinucleotide in the *0302 allele resulted in reduced expression compared with that driven by the *0301 fragment; this difference overshadowed an up-regulating effect on expression which corresponded to the binding of the TG-dependent nuclear protein complex. The presence of this polymorphism in multiple HLA-DQB1 alleles and in several species suggests selection for two alternative transcriptional regulatory mechanisms influencing expression of alleles of the same HLA locus.

Differential expression of HLA-DQB1 alleles in a heterozygous cell line

Regulation of HLA class II transcription is complex, with both locus-specific and allele-specific polymorphisms associated with consensus regulatory region promoter elements. In order to evaluate the potential function of allele-specific elements, HLA-DQB1 transcripts and in vivo footprinting of the DQB1 promoter were studied in human cell lines inducible for HLA class II expression. In the heterozygous melanoma cell line Me9229/18, differential expression was observed for two DQB1 alleles. This variation was reflected in both steady-state and inducible transcripts, although methylation patterns of the promoter elements were similar for both alleles. This in vivo allelic difference expression, which correlates with previous studies of in vitro reporter gene transcription, indicates the potential for functionally important differences in tissue-specific and inducible expression attributable to promoter region polymorphism in HLA genes.

Dissection of positive regulatory elements in the upstream region of the HLA-DPB1 gene

We investigated the cis-acting sequences that function in the B-cell-specific expression of the HLA-DPB1 gene. Class II B major histocompatibility genes contain a conserved upstream sequence that is important in the expression of these genes. This region has been divided into three major elements, the W, X, and Y boxes. In this paper, we identified an additional positive regulatory element upstream from the DPB1 W box. Using 5' deletion mutants and a substitution mutant, we mapped a positive element, called the W' box, between -184 approximately -169 bp. Sequence comparison revealed that the W' box shares homology with the W box. Electrophoretic mobility shift assay confirmed that the W box binds proteins that also recognize the W' box. Furthermore, deletion and substitution mutants indicate that the W and W' boxes effectively enhance CAT activities only when the X and Y boxes exist.

Allele-specific DNA-protein interactions associated with the X-box regulatory region of the DQB1*0302 gene

The X box is an essential transcriptional regulatory region for both constitutive and inducible expression of HLA-class II genes, and, while highly conserved among class II genes, both locus- and allele-specific polymorphisms exist. Using gel regardation analysis, we have analyzed the binding of B cell nuclear proteins to the X box regions of the DQB1*0302, *0301, and DRA genes and have identified two distinct X box binding complexes which differ for the diabetes-associated DQB1*0302 allele.