Class II Transactivator Transcription Research Articles

IFN-γ Regulation of the Type IV Class II Transactivator Promoter in Astrocytes

Abstract The transcriptional activation of class II MHC genes requires the class II transactivator (CIITA) protein, a regulator that is essential for both constitutive and IFN-γ-inducible class II MHC expression. The CIITA gene is controlled by multiple independent promoters; two promoters direct constitutive expression, while another, the type IV CIITA promoter, mediates IFN-γ-induced expression. We investigated the molecular regulation of IFN-γ-induced type IV CIITA promoter activity in astrocytes. IFN-γ inducibility of the type IV CIITA promoter is dependent on three cis-acting elements contained within a 154-bp fragment of the promoter; the proximal IFN-γ activation sequence (GAS) element, the E box, and the proximal IFN regulatory factor (IRF) element. Two IFN-γ-activated transcription factors, STAT-1α and IRF-1, bind the proximal GAS and IRF elements, respectively. The E box binds upstream stimulating factor-1 (USF-1), a constitutively expressed transcription factor. Furthermore, STAT-1α binding to the proximal GAS element is dependent on the binding of USF-1 to the adjacent E box. Functionally, the proximal IRF element is essential for IFN-γ induction of type IV CIITA promoter activity, while the proximal GAS and E box elements contribute to the IFN-γ inducibility of this promoter. In astrocytes, TNF-α enhances IFN-γ-induced class II MHC transcription. Our results demonstrate that TNF-α does not enhance IFN-γ-induced transcriptional activation of the type IV CIITA promoter, indicating that the enhancing effect of TNF-α is mediated downstream of CIITA transcription. These results define the molecular basis of IFN-γ activation of the type IV CIITA promoter in astrocytes.

IL-1β Inhibits IFN-γ-Induced Class II MHC Expression by Suppressing Transcription of the Class II Transactivator Gene

AbstractClass II MHC Ags are critical for the initiation of immune responses by presenting Ag to T lymphocytes, leading to their activation and differentiation. The transcriptional activation of class II MHC genes requires the induction of the class II transactivator (CIITA) protein, a master regulator that is essential for both constitutive and IFN-γ-inducible class II MHC expression. The cytokine IL-1β has been shown to inhibit IFN-γ-induced class II MHC expression in various cell types. We investigated the underlying mechanism of this inhibitory effect of IL-1β using human astroglioma cell lines. Our findings demonstrate that IL-1β prevents the expression of class II MHC mRNA and protein upon treatment with IFN-γ. Furthermore, we demonstrate that IFN-γ induction of CIITA mRNA expression is inhibited by treatment of cells with IL-1β. IL-1β suppressed IFN-γ activation of the type IV CIITA promoter in astroglioma cells, indicating that the inhibitory influence of IL-1β is mediated by inhibition of CIITA transcription. IL-1β did not interfere with IFN-γ receptor signal transduction, since tyrosine phosphorylation, nuclear translocation, and DNA binding of STAT-1α to an IFN-γ activation sequence of the type IV CIITA promoter were not affected by IL-1β. As well, IL-1β treatment did not affect the ability of IFN-γ-induced interferon-regulatory factor-1 (IRF-1) to bind the IRF-1 element within the type IV CIITA promoter. This study suggests that IL-1β may play a role in regulating immunoreactivity by inhibiting transcription of the CIITA gene, thereby reducing subsequent class II MHC expression.

Astrocytes Express Elements of the Class II Endocytic Pathway and Process Central Nervous System Autoantigen for Presentation to Encephalitogenic T Cells

Astrocytes are nonprofessional APCs that may participate in Ag presentation and activation of pathogenic CD4+ T cells involved in central nervous system (CNS) inflammatory diseases. Using immortalized pure astrocytes as a complement to the study of primary astrocytes, we investigated whether these astrocytes express elements involved in the class II endocytic pathway and if they are capable of processing native myelin basic protein (MBP), a step that could be necessary for initiating or perpetuating T cell recognition of this self-Ag in vivo. Upon IFN-gamma-stimulation, primary and immortalized astrocytes up-regulate class II transactivator (CIITA), invariant chain (Ii) (p31 and p41), H-2Ma, and H-2Mb. Analysis of CIITA cDNA sequences demonstrated that CIITA transcription in astrocytes is directed by a promoter (type IV) that mediates IFN-gamma-inducible CIITA expression and encodes a CIITA protein that differs in its N-terminal sequence from CIITA reported in professional APC. Comparing live and fixed APC for Ag presentation, we show that Ag processing by APC is required for presentation of native MBP to autopathogenic T cells specific for the major MBP epitope, Acl-11. We have observed that primary astrocytes and some, but not all, astrocyte lines in the absence of contaminating microglia are capable of processing and presenting native MBP, suggesting that there may be heterogeneity. Our study provides definitive evidence that astrocytes are capable of processing CNS autoantigen, indicating that astrocytes have potential for processing and presentation of CNS autoantigen to proinflammatory T cells in CNS autoimmune disease.

Astrocytes express elements of the class II endocytic pathway and process central nervous system autoantigen for presentation to encephalitogenic T cells

Astrocytes are nonprofessional APCs that may participate in Ag presentation and activation of pathogenic CD4 1 T cells involved in central nervous system (CNS) inflammatory diseases. Using immortalized pure astrocytes as a complement to the study of primary astrocytes, we investigated whether these astrocytes express elements involved in the class II endocytic pathway and if they are capable of processing native myelin basic protein (MBP), a step that could be necessary for initiating or perpetuating T cell recognition of this self-Ag in vivo. Upon IFN-g-stimulation, primary and immortalized astrocytes up-regulate class II transactivator (CIITA), invariant chain (Ii) (p31 and p41), H-2Ma, and H-2Mb. Analysis of CIITA cDNA sequences demonstrated that CIITA transcription in astrocytes is directed by a promoter (type IV) that mediates IFN-g-inducible CIITA expression and encodes a CIITA protein that differs in its N-terminal sequence from CIITA reported in professional APC. Comparing live and fixed APC for Ag presentation, we show that Ag processing by APC is required for presentation of native MBP to autopathogenic T cells specific for the major MBP epitope, Ac1-11. We have observed that primary astrocytes and some, but not all, astrocyte lines in the absence of contaminating microglia are capable of processing and presenting native MBP, suggesting that there may be heterogeneity. Our study provides definitive evidence that astrocytes are capable of processing CNS autoantigen, indicating that astrocytes have potential for processing and presentation of CNS autoantigen to proinflammatory T cells in CNS autoimmune disease. The Journal of Immunology, 1998, 161: 5959 ‐5966.

Introduction of exogenous class II trans-activator in MHC class II-deficient ABI fibroblasts results in incomplete rescue of MHC class II antigen expression.

Previously, we have shown that fibroblasts established from type III bare lymphocyte syndrome patient ABI are characterized by the absence of MHC class II gene expression and a strongly reduced amount of MHC class I transcripts. Complementation analysis has suggested that the gene defective in these ABI fibroblasts is different from that encoding the class II trans-activator (CIITA), which has been attributed an essential role in both constitutive and inducible expression of MHC class II genes. In the present study it is shown by reverse transcriptase-PCR analysis that the amount of CIITA transcripts in ABI fibroblasts is greatly reduced compared with that in fibroblasts derived from a healthy individual. Transient cotransfection of a construct in which CIITA is under the control of a constitutive promoter with an HLA-DRA promoter-luciferase reporter plasmid resulted in enhanced luciferase expression in ABI fibroblasts. Furthermore, ABI fibroblasts stably transfected with CIITA re-express functional HLA-DR Ags, but do not express HLA-DQ and DP Ags at the cell surface. Comparison of these data with those obtained for normal fibroblasts and fibroblasts defective for CIITA indicate that the gene defect and the resulting lack of MHC class II expression in ABI fibroblasts can only partly be corrected by the introduction of CIITA. Furthermore, DNase I hypersensitivity analysis of ABI fibroblasts has revealed a closed chromatin structure in the promoter region of the MHC class II DRA gene. However, CIITA transfection resulted in an open DNA configuration, which suggests a role for CIITA in provoking changes in the chromatin structure of the DRA gene.

CIITA activates the expression of MHC class II genes in mouse T cells

It has long been a puzzle that MHC class II molecules are expressed in human T cells after activation but not in mouse T cells; this expression is believed to play a role in the cell mediated immune response. Recently the MHC class II transactivator (CIITA) has been reported to be a major regulatory factor for both the constitutive and IFN inducible expression of MHC class II genes. Here we show that human T cells expressing MHC class II have CIITA transcripts while MHC class II-negative human T cells and mouse T cells do not. The expression of MHC class II genes in mouse T cells can be reconstituted upon transfection with the human CIITA cDNA. These data indicate that the expression of CIITA explains the expression or lack of expression of MHC class II in human and mouse T cells respectively.