Sequence elements required for activity of a murine major histocompatibility complex class II promoter bind common and cell-type-specific nuclear factors

NF-Y and the immune response: Dissecting the complex regulation of MHC genes

Nuclear Factor Y (NF-Y) was first described as one of the CCAAT binding factors. Although CCAAT motifs were found to be present in various genes, NF-Y attracted a lot of interest early on, due to its role in Major Histocompatibility Complex (MHC) gene regulation. MHC genes are crucial in immune response and show peculiar expression patterns. Among other conserved elements on MHC promoters, an NF-Y binding CCAAT box was found to contribute to MHC transcriptional regulation. NF-Y along with other DNA binding factors assembles in a stereospecific manner to form a multiprotein scaffold, the MHC enhanceosome, which is necessary but not sufficient to drive transcription. Transcriptional activation is achieved by the recruitment of yet another factor, the class II transcriptional activator (CIITA). In this review, we briefly discuss basic findings on MHCII transcription regulation and we highlight NF-Y different modes of function in MHCII gene activation. This article is part of a Special Issue entitled: Nuclear Factor Y in Development and Disease, edited by Prof. Roberto Mantovani.

Inhibition of major histocompatibility complex class II gene transcription by nitric oxide and antioxidants

Interferon (IFN)-gamma facilitates cellular immune response, in part, by inducing the expression of major histocompatibility complex class II (MHC-II) molecules. We demonstrate that IFN-gamma induces the expression of HLA-DRA in vascular endothelial cells via mechanisms involving reactive oxygen species. IFN-gamma-induced HLA-DRA expression was inhibited by nitric oxide (NO) and antioxidants such as superoxide dismutase, catalase, pyrrolidine dithiocarbamate, and N-acetylcysteine. Nuclear run-on assays demonstrated that NO and antioxidants inhibited IFN-gamma-induced HLA-DRA gene transcription. Transient transfection studies using a fully functional HLA-DRA promoter construct ([-300]DR alpha.CAT) showed that inhibition of endogenous NO synthase activity by N(omega)-monomethyl-l-arginine or addition of exogenous hydrogen peroxide (H(2)O(2)) augmented basal and IFN-gamma-stimulated [-300]DR alpha.CAT activity. However, H(2)O(2) and N(omega)-monomethyl-l-arginine could induce HLA-DRA expression suggesting that H(2)O(2) is a necessary but not a sufficient mediator of IFN-gamma-induced HLA-DRA expression. Electrophoretic mobility shift assay and Western blotting demonstrated that NO and antioxidants had little or no effect on IFN-gamma-induced IRF-1 activation or MHC-II transactivator (CIITA) expression but did inhibit IFN-gamma-induced activation of STAT1 alpha (p91) and Y box transcription factors, NF-Y(A) and NF-Y(B). These results indicate that NO and antioxidants may attenuate vascular inflammation by antagonizing the effects of intracellular reactive oxygen species generation by IFN-gamma, which is necessary for MHC-II gene transcription.

Songbird genomics: analysis of 45 kb upstream of a polymorphic Mhc class II gene in red-winged blackbirds (Agelaius phoeniceus)

Here we present the sequence of a 45 kb cosmid containing a previously characterized poly-morphic Mhc class II B gene (Agph-DAB1) from the red-winged blackbird (Agelaius phoeniceus). We compared it with a previously sequenced cosmid from this species, revealing two regions of 7.5 kb and 13.0 kb that averaged greater than 97% similarity to each another, indicating a very recent shared duplication. We found 12 retroelements, including two chicken repeat 1 (CR1) elements, constituting 6.4% of the sequence and indicating a lower frequency of retroelements than that found in mammalian genomic DNA. Agph-DAB3, a new class II B gene discovered in the cosmid, showed a low rate of polymorphism and may be functional. In addition, we found a Mhc class II B gene fragment and three genes likely to be functional (encoding activin receptor type II, a zinc finger, and a putative gamma-filamin). Phylogenetic analysis of exon 2 alleles of all three known blackbird Mhc genes indicated strong clustering of alleles by locus, implying that large amounts of interlocus gene conversion have not occurred since these genes have been diverging. Despite this, interspecific comparisons indicate that all three blackbird Mhc genes diverged from one another less than 35 million years ago and are subject to concerted evolution in the long term. Comparison of blackbird and chicken Mhc promoter regions revealed songbird promoter elements for the first time. The high gene density of this cosmid confirms similar findings for the chicken Mhc, but the segment duplications and diversity of retroelements resembles mammalian sequences.

Absence of MHC class II antigen expression in trophoblast cells results from a lack of class II transactivator (CIITA) gene expression

Although the mechanism(s) underlying the failure of the maternal immune system to reject the semiallogeneic fetus have not been clearly defined, the absence of MHC class II antigen expression by fetal trophoblast cells very likely plays a critical role in the maintenance of normal pregnancy. However, the regulation of class II antigen expression in trophoblast cells is poorly understood. Class II transactivator (CIITA) is a transacting factor that is required for both constitutive and IFN-gamma-inducible class II gene transcription. In this report we demonstrate that the inability of trophoblast cells to express class II antigens is due to a lack of CIITA gene expression. Trophoblast cell lines derived from human, mouse, and rat do not express CIITA, and expression is not inducible by IFN-gamma. The absence of CIITA gene expression in trophoblasts treated with IFN-gamma does not result from a defect in the IFN-gamma receptor or the JAK/STAT pathway, because the classical IFN-gamma inducible gene encoding the guanylate-binding protein is expressed. Transfection of CIITA expression vectors into trophoblast cells results in activation of class II promoters, endogenous class II mRNA expression, and subsequent expression of class II antigens on the cell surface. In contrast, class I mRNA is not expressed in human trophoblast cells transfected with CIITA expression vectors. Thus, trophoblast cells contain all of the DNA binding factors necessary for class II transcription, and ectopic expression of CIITA is sufficient to activate class II, but not class I expression. The failure of trophoblast cells to express CIITA, and therefore class II antigens, provides a potential mechanism by which the fetus is protected from the maternal immune system during pregnancy.

The Invariant Chain Gene Intronic Enhancer Shows Homology to Class II Promoter Elements

Coordinate expression of MHC class II proteins and the class II-associated invariant chain (Ii) is important for proper MHC class II functioning in Ag processing and presentation. The coordinate regulation of these genes results, in part, from the sharing of transcriptional regulatory regions between MHC class II and Ii genes; the Ii has previously been shown to have an upstream enhancer closely related to the essential class II promoter elements. We report here the characterization of a second enhancer in the Ii gene, located within the first intron. This intronic enhancer is contained within a 155-bp region, enhances transcription from the Ii minimal promoter, and also contains elements that are homologous to class II promoter elements X1, X2, and Y boxes.

Biochemical characterization of the NF-Y transcription factor complex during B lymphocyte development

The transcription factor, NF-Y, plays a critical role in tissue-specific major histocompatibility complex class II gene transcription. In this report the biochemical properties of the heterotrimeric NF-Y complex have been characterized during stage-specific B-cell development, and in several class II- mutant B-cell lines, which represent distinct bare lymphocyte syndrome class II genetic complementation groups. The NF-Y complex derived from class II+ mature B-cells bound with high affinity to anion exchangers, and eluted as an intact trimeric complex, whereas, NF-Y derived from class II- plasma B-cells, and from bare lymphocyte syndrome group II cell lines, RJ2.2.5 and RM3, dissociated into discrete NF-YA and NF-YB:C subunit fractions. Recombination of the MPC11 plasma B-cell derived NF-Y A:B:C complex with the low molecular mass protein fraction, NF-Y-associated factors (YAFs), derived from mature A20 B-cell nuclei, conferred high affinity anion exchange binding to NF-Y as an intact trimeric complex. Recombination of the native NF-YA:B:C complex with the transcriptional cofactor, PC4, likewise conferred high affinity NF-Y binding to anion exchangers, and stabilized NF-Y interaction with CCAAT-box DNA motifs in vitro. Interaction between PC4 and NF-Y was mapped to the C-terminal region of PC4, and the subunit interaction subdomain of the highly conserved DNA binding-subunit interaction domain (DBD) of NF-YA. These results suggest that in class II+ mature B-cells NF-Y is associated with the protein cofactor, PC4, which may play an important role in NF-Y-mediated transcriptional control of class II genes.

Stabilization of invariant chain mRNA by 12-O-tetradecanoylphorbol-13-acetate is blocked by IFN-gamma in a murine B lymphoma cell line

Activation of protein kinase C (PKC) by 12-O-tetradecanoylphorbol-13-acetate (TPA) increased steady-state levels of mRNA encoding the major histocompatibility complex (MHC) class II antigen I-A beta and the class II antigen-associated invariant chain (Ii, CD74) in A20 B lymphoma cells and in normal mouse B cells. The increase in Ii mRNA levels appeared to be due to a slight increase in the rate of gene transcription and an increase in the stability of Ii mRNA. The half-life of Ii mRNA increased from 12 h to >24 h following treatment with TPA, as determined by Northern blot analysis following actinomycin D treatment or by the [3H]-uridine pulse-chase method. Interferon-gamma (IFN-gamma), which has been well characterized as a cytokine that induces class II antigens and the Ii, increased Ii expression slightly in A20 cells. However, cotreatment of cells with TPA and IFN-gamma resulted in a block in the TPA-induced increase in Ii expression. Transcription of the Ii gene was minimally affected following treatment with IFN-gamma alone, and cells treated with both TPA and IFN-gamma had the same transcription rate as the control cells. IFN-gamma did, however, block stabilization of Ii mRNA by TPA. Activation of PKC by TPA, which was previously shown to lead to membrane translocation and downregulation, was not inhibited by IFN-gamma. Therefore, IFN-gamma appeared to block a downstream signal transduction pathway activated by PKC that controls stability of Ii mRNA.

I-A beta gene expression regulation in macrophages derived from mice susceptible or resistant to infection with M. bovis BCG

The innate capacity of mice to control mycobacterial multiplication early after infection is controlled by the resistant allele of the Nramp-1/Bcg gene. The Bcg gene seems to be involved in a pathway leading to macrophage activation. It differentially affects the ability of BCG-resistant and -susceptible strains of mice to express important macrophage genes including Major Histocompatibility Complex (MHC) class II genes. An inhibition of Nramp1 gene by Nramp1-ribozyme transfection in macrophages resulted in the impairment of MHC class II gene induction by IFN gamma. In this study, we have investigated the molecular mechanisms involved in IFN-gamma-induced MHC class II expression using macrophages derived from mice resistant or susceptible to mycobacterial infections (B10R and B10S, respectively). We have found that the difference in the IFN gamma-induced Ia surface protein expression between B10R and B10S macrophages correlate with a higher rate of I-A beta gene transcription. We have also studied the binding of proteins prepared from nuclear extracts of non-stimulated and IFN-gamma-stimulated B10R and B10S macrophages to the S, X and Y cis-acting elements of the I-A beta promoter. Differences observed in protein binding to the X box may explain the difference in transcription activation of the I-A beta gene. We have also found that I-A alpha and I-A beta mRNA half-lives measured in IFN gamma-stimulated cells are significantly longer in B10R, compared to B10S macrophages. Overall, our data suggest that both transcriptional and posttranscriptional regulatory mechanisms are responsible for the more efficient expression of I-A beta gene in macrophages carrying a resistant allele of Nramp1 gene.

Differential expression of isomorphic HLA-DR beta genes is not a sole function of transcription

Cells expressing HLA DR7 contain two functional DR beta genes, DRB1 and DRB4, whose mRNA is present at different levels. We examined whether the mRNA levels are due to differential transcriptional regulation or post-transcriptional regulation. As part of this analysis, a novel series of upstream elements was identified. Analysis of the proximal promoter activity, using a transient expression system, showed that the isomorphic promoter activities of B1 and B4 are about equal. RNase protection analysis of steady-state pre-mRNA and mRNA levels shows that the DR7 B1 pre-mRNA levels are 3 to 4 fold higher than B4 pre-mRNA levels. However, the B1 mRNA levels are increased seven fold relative to the B4 mRNA levels. The disproportionate increase of the mRNA levels relative to the corresponding pre-mRNA levels indicates that regulation also occurs at the post-transcriptional level.

Genomic structure and expression of the human gene encoding cytochrome b561, an integral protein of the chromaffin granule membrane

Cytochrome b561 is an electron transfer protein unique to neuroendocrine secretory vesicles. The Southern blot hybridization shows that it is a single copy gene highly conserved throughout phylogeny. The transcription unit spans approximately 11 kilobases, and heterologous transcription sites are located 404 bases 5' to the translation initiation codon. The sequence of the 5'-flanking region is GC-rich and lacks a typical TATA box at the usual position. However, it has a CAAT sequence at -132 and potential recognition sequences for several transcription factors including SP1, GR-PR-MMTV, AP4, gERE, JCV repeat, AP2, and NF-kappa B. Each of the five transmembrane segments are encoded by five consecutive exons. This corroborates the five-transmembrane model proposed for human, mouse, and Xenopus rather than six proposed for bovine. The cytochrome was found to be highly expressed in colon cancer cell lines, T cell lymphomas, and K-562 cell lines. However, in B-cell lymphomas such as Burkitt's and Daudi, the cytochrome b561 expression was completely shut down. The results in this report are the first to demonstrate the structural organization and regulatory sequences of the cytochrome b561 gene encoding an integral membrane protein of neuroendocrine storage vesicles of neurotransmitters and peptide hormones. Unexpected results on cytochrome b561 expression in cells of lymphocytic origin and its complex regulation in tumor cells provide new insights into cytochrome b561 gene regulation.

Lipopolysaccharide-induced E-selectin expression requires continuous presence of LPS and is inhibited by bactericidal/permeability-increasing protein

Endothelial cells stimulated by LPS express E-selectin, which plays an important role in mediating neutrophil adhesion during inflammation. E-selectin is induced within 1-2 h, peaks at 4-6 h, and gradually returns to basal level by 24 h. rBPI21, a recombinant N-terminal fragment of human bactericidal/permeability-increasing protein (BPI), inhibited LPS-induced E-selectin expression when added at the same time as, and up to 6 h after, LPS. Delayed administration of rBPI21 also affected LPS-mediated activation of the nuclear factor, NF-kappa B. Two to 4 h following LPS addition to endothelial cells, when NF-kappa B was already activated, addition of rBPI21 resulted in marked reduction of NF-kappa B detectable at 4 or 6 h. These results indicate that endothelial activation requires continuous presence of LPS, and rBPI21 acts to reverse LPS-mediated endothelial activation by interrupting the on-going LPS signal.

Biological implications of HLA-DR expression in tumours

HLA-DR antigens show restricted tissue distribution in comparison with the more extensive expression of HLA class I molecules. This constitutive expression is genetically controlled by well-defined mechanisms. In addition, DR antigen expression can be induced by a variety of cytokines through different molecular genetic events that convert DR-negative epithelia into positive cells. In this review we analyse the two major pathological situations in which abnormal DR expression occurs: autoimmune diseases and tumour development. We hypothesize that conversion to DR-positivity may produce two opposite effects in both clinical situations: (1) a useful one in tumours associated with a good prognosis; and (2) a harmful one in autoimmune diseases with increased tissue damage.

Regulation of macrophage gene expression by T-cell-derived lymphokines

Cytokines secreted from antigen-specific T lymphocytes provide important positive and negative control of inflammation through their effects on non-antigen-specific inflammatory leukocytes. These effects often involve modulation of gene expression. Lymphokine-inducible macrophage gene expression is largely controlled at the level of transcription. Multiple cis-acting sequence motifs cooperate with one another to produce patterns of expression that are relatively unique to individual genes. Members of trans-acting transcription factor families, which recognize related regulatory sequence elements, participate frequently in complex protein-protein interactions that generate remarkable complexity in terms of the number of potential combinations and the consequential functional differences exhibited by each combination. Thus, the remarkable plasticity of immune-mediated inflammation derives from combinations of finite numbers of options at several points in the cellular and molecular sequence.

Inhibition of IFN-gamma induction of class II MHC genes by cAMP and prostaglandins

Triggering of the cyclic AMP (cAMP) signal transduction pathway inhibits the the interferon gamma (IFN-gamma)-mediated induction of class II major histocompatibility (MHC) genes. We have investigated the mechanism of the inhibition of IFN-gamma induction of the murine A alpha class II MHC gene by cAMP and E series prostaglandins (PGEs). 151 base pairs of the A alpha promoter were sufficient to confer positive regulation by IFN-gamma and negative regulation by cAMP which accurately mirrored the regulation of the endogenous A alpha gene. cAMP also inhibited the IFN-gamma activation of the Fc gamma receptor I (Fc gamma RI) gene promoter, an "early" promoter which is activated immediately after treatment of cells with IFN-gamma. PGEs, which cause an elevation in intracellular cAMP, inhibited the induction of the A alpha promoter, and inhibition was greater in the presence of tumor necrosis factor alpha (TNF alpha). A mutational analysis of the A alpha promoter showed that all four conserved class II promoter elements, the S, X1, X2, and Y boxes, play a role in mediating A alpha promoter activation by IFN-gamma. Mutations in these elements did not diminish the cAMP inhibition of promoter activation by IFN-gamma. Thus, conserved class II promoter sequences which mediate most known examples of positive and negative regulation, including cAMP inhibition of constitutive class II expression, do not mediate cAMP inhibition of IFN-gamma activation of the A alpha promoter. We suggest that this inhibition may be mediated by a novel class II promoter element or by disruption of an early step in the IFN-gamma signal transduction pathway.

v-rel induces expression of three avian immunoregulatory surface receptors more efficiently than c-rel

The c-rel gene is a member of NF-kappa B/rel family of transcription factors that regulate expression of a variety of immunoregulatory molecules. The viral oncogene, v-rel, is a truncated and mutated form of the turkey c-rel gene expressed by reticuloendotheliosis virus, strain T. In this study, we demonstrated that three avian immunoregulatory receptors, major histocompatibility (MHC) antigens class I and class II as well as the interleukin-2 receptor (IL-2R), were induced on the surface of splenic tumor cells isolated from chickens infected with reticuloendotheliosis virus, strain T. All cell lines derived from splenic tumors expressed these three proteins. Their expression also correlated with the appearance of endogenous c-rel during a graft-versus-host reaction. In vitro, both c-rel and v-rel induced MHC class I, MHC class II, and IL-2R on an avian B-lymphoid cell line, DT95, and a T-lymphoid cell line, MSB-1. Quantitative kinetic analysis demonstrated both the accumulation of MHC class II mRNA and the appearance of surface MHC class II protein in response to the synthesis of either v-rel or c-rel. We show that v-rel induced the expression of MHC class II in the avian B-cell lines DT40 and DT95 more rapidly than c-rel and that, several weeks after infection, v-rel induced MHC class II as much as 50-fold more efficiently than c-rel. Finally, in vitro infection of splenocytes with retroviruses that express v-rel or c-rel induced MHC class I, MHC class II, and IL-2R expression. Quantitative analysis confirmed that p59v-rel was consistently more efficient at inducing expression of all three immunoregulatory receptors than exogenous p68c-rel. These data suggest that during tumor development, v-rel functions to induce (or suppress) the expression of genes similarly induced (or suppressed) by c-rel. The observations reported in this study are not in agreement with a model in which v-rel promotes tumor development by functioning as a dominant negative mutant of c-rel. In contrast, these findings support the hypothesis that lymphocyte immortalization and tumor development are the result, at least in part, of the capacity of v-rel to function as a dominant positive mutant that induces expression of genes normally regulated by c-rel.

Locus- and allele-specific DNA-protein interactions in the HLA-DQB1 X box

Expression of MHC class II genes is regulated by a complex series of protein-DNA interactions which lead to the initiation of transcription. Although the different MHC class II loci are generally coordinately expressed, important differences in expression can be seen among loci and among individual alleles. The major sites of transcriptional control in the human MHC consist of several highly conserved nucleotide sequence elements located upstream of each MHC class II gene. We have analyzed the interlocus and interallelic variation in one of these key regulatory regions of the HLA-DQB1 promoter, the X box, and identified several sites of protein-DNA interaction. Two protein-DNA complexes were found which differ between the DQ and DR loci as well as two distinct complexes which differed between DQ alleles. These nuclear protein-X box interactions are likely to influence the differential expression of the MHC class II loci and alleles in tissue-specific or developmentally regulated pathways.

Distinct IL-4 response mechanisms of the MHC gene A alpha in different mouse B cell lines

Interleukin-4 (IL-4) is a multipotent cytokine which stimulates proliferation of B and T lymphocytes, induces B lymphocyte expression of major histocompatibility complex (MHC) class II molecules and Fc epsilon R II (CD23) molecules, and promotes immunoglobulin class switching to IgE and IgG1. The mechanisms by which IL-4 induces these changes are unclear. To study the basis for heterogeneity in induction of class II MHC proteins observed in splenic B cells, three mouse B cell lines were treated with IL-4, and the response of MHC class II A alpha mRNA was analyzed. Each of the three cell lines responded with a distinctive profile. In one line, 70Z/3, A alpha mRNA was induced greater than 10 fold by 65 hr of IL-4 stimulation. Additional studies showed that A alpha mRNA was stabilized by IL-4 treatment of 70Z/3 cells, and that changes in gene transcription accounted for little of the increase in mRNA levels. A second line, WEHI.231, was shown to increase A alpha mRNA levels 4 fold after 48 hr of IL-4 treatment. In contrast to 70Z/3, when A alpha mRNA stability in the IL-4 treated WEHI.231 cells was compared to untreated cells, no difference was observed, IL-4 treatment induced A alpha transcription. The third cell line, M12.4.1, expressed high basal levels of A alpha, and these levels increased only slightly following IL-4 stimulation. The small increase correlated with a comparable transcriptional response. These data shown that the nature of the A alpha gene response to IL-4 differs among B cell lines. This heterogeneity of response is consistent with responses in total splenic B cells, and with the existence of functionally distinct subpopulations of B cells.

Current concepts in DRA gene regulation

The purpose of this review is to provide an interpretative view of work from our laboratory on the DRA gene, and incorporate it with work from other laboratories. Specially, we will deal with: (a) the functional roles of transcription factors in DRA gene regulation; (b) the mechanisms of DRA induction by cytokines; (c) the analysis of DRA gene control in primary untransformed cells, and (d) interactions among transcription factors critical for DRA gene expression.

Regulation of MHC gene expression

This review focuses on recent progress made in MHC regulation. The better characterization of proteins that interact with MHC class I and II promoters and the isolation of genes encoding several of these transcription factors, such as H-2RIIBP/RXR beta, NK kappa B, I-kappa B, hXBP-1 and NF-Y, allow the functional analysis of these molecules in MHC gene regulation. The application of new techniques, such as genomic in vivo footprinting analysis, to the study of these promoters provides insights into the status of in vivo protein-DNA interaction over these promoters. New insights have also been gained in the understanding of MHC-associated genes.

Polymorphism in the promoter region of HLA-DRB genes

Polymorphism is a hallmark of the molecules encoded within the MHC of humans and other mammals. Recently, evidence of polymorphism has also been shown to exist in the transcriptional regulatory regions of HLA-DQB genes. In this article, we report that polymorphism exists also in the promoter region of HLA-DRB genes. The sequence of the regulatory region of DRB genes from five homozygous DR B-cell lines, each of a distinct DR haplotype, revealed a number of differences, some of which are in the critical class II boxes that are generally conserved in class II promoters. The major differences occurred in a comparison of DR4 to the other DR haplotypes. These data suggest the existence of another important source of HLA class II polymorphism that may play a role in susceptibility to HLA-associated autoimmune disease.

The HXY box regulatory element modulates expression of the murine IA antigen-associated invariant chain in L fibroblasts

The murine invariant chain (Ii) gene has been shown to be interferon-gamma (IFN-gamma)-inducible in a number of nonlymphoid cell types. In mouse L cells, steady-state levels of Ii mRNA are barely detectable in untreated cells but increase sharply upon IFN-gamma treatment. In IFN-gamma treated L cells, transcription starts 23, 28, 38, and 40 bases downstream of the TATA box. To identify cis-acting elements regulating expression of the Ii gene, reporter plasmids containing deletions of the Ii promoter have been constructed and transfected into mouse L cells. Deletion of the H box results in a 50-100% increase in basal expression. Deletion of both the H and X boxes increases basal expression by 200-300% above that seen in constructs containing all three elements. A 25% decrease in basal level expression is seen for constructs that lack the Y-box element when compared to constructs containing the Y-box element but not the H- and X-box elements. DNase I footprinting analysis demonstrates protection of the H, X, and Y boxes as well as a nonconserved region between the H and X boxes. Mobility-shift experiments detect a factor specifically interacting with the Y box. Although the H-, X-, and Y-box elements interact with nuclear protein and are regulatory elements in L cells, these elements do not appear to play a role in IFN-gamma induction suggesting that other regulatory mechanisms must account for IFN-gamma's induction of the Ii in L cells.

Identification of an interferon-gamma-responsive element of a class II major histocompatibility gene in rat type 1 astrocytes

Interferon-gamma(IFN-gamma) has been shown to induce class II major histocompatibility complex (MHC) antigens on several cell types. Previous analysis of cell lines including a glioblastoma multiforme line by our laboratory has mapped an IFN-gamma-responsive element to the upstream - 141 to - 109 base pair (bp) region of the DRA promoter. Using deletion mutants, this report shows that this same general region (-135 to -109 bp) is important for IFN-gamma induction in two other human glioma lines and more importantly in primary astrocytes. We have confirmed that this regulatory region of the HLA-DRA gene is necessary for IFN-gamma inducibility in astrocytes using a substitution mutant. Sequences beyond -135 bp do not appear to have any additional positive or negative elements.

Regulation of MHC class II gene transcription

The transcriptional regulation of MHC class II genes involves the interaction of DNA-binding proteins with specific DNA sequences. The cis elements of the promoter region have now been well delineated functionally, while the proteins that interact with these elements are just beginning to be identified and their functional importance assessed.