The Cyclic Adenosine 5′-Monophosphate Response Element Modulator Suppresses IL-2 Production in Stimulated T Cells by a Chromatin-Dependent Mechanism

Tenbrock, Klaus; Juang, Yuang-Taung; Tolnay, Máté; Tsokos, George C.

doi:10.4049/jimmunol.170.6.2971

Cited by 73 publications

(77 citation statements)

References 41 publications

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“…The cAMPresponse element (CRE) site of the IL-2 promoter is important for IL-2 production, which recruits transcriptional cofactors and remodels chromatin. 25 To verify whether histone H3 modification influences IL-2 promoter activation, Jurkat cells were stimulated with PMA plus ionomycin for 12 h, then fixed with formaldehyde to crosslink DNA to proteins, sonicated and the DNA-protein complexes were precipitated with specific antibodies for total acetylation and phosphorylation as above. The DNA was extracted and amplified with primers flanking the À180 CRE site of the IL-2 promoter.…”

Section: Cell Growth Requires Hyperacetylation and Hyperphosphorylationmentioning

confidence: 99%

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Tumor suppressor pp32 represses cell growth through inhibition of transcription by blocking acetylation and phosphorylation of histone H3 and initiating its proapoptotic activity

Fan

Zhang

2005

Cell Death Differ

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pp32 belongs to a family of leucine-rich acidic nuclear proteins, which play important roles in many cellular processes including regulation of chromatin remodeling, transcription, RNA transport, transformation and apoptosis. pp32 is described as a new tumor suppressor. It is unknown as to how pp32 works in tumor suppression. We found that overexpression of pp32 in human Jurkat T cells inhibits cell growth, and silenced pp32 promotes growth. We first showed that hyperacetylation and hyperphosphorylation of histone H3 are required for T-cell activation. Phosphorylation of histone H3 precedes acetylation during T-cell activation. pp32 specifically binds to histone H3 and blocks its acetylation and phosphorylation. pp32 directly initiates caspase activity and also promotes granzyme A-mediated caspase-independent cell death. Taken together, pp32 plays a repressive role by inhibiting transcription and triggering apoptosis.

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Section: Cell Growth Requires Hyperacetylation and Hyperphosphorylationmentioning

confidence: 99%

“…The DNA was amplified with the CRE site of the IL-2 promoter (forward 5 0 -CTA AGT GTG GGC TAA TGT AAC-3 0 and reverse 5 0 -TGT AAA ACT GTG GGG GT-3 0 ) as described. 25 PCR products were run on a 1.5% agarose gel.…”

Section: Recombinant Proteins Plasmids and Purified Perforinmentioning

confidence: 99%

Tumor suppressor pp32 represses cell growth through inhibition of transcription by blocking acetylation and phosphorylation of histone H3 and initiating its proapoptotic activity

Fan

Zhang

2005

Cell Death Differ

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“…T cells from SLE patients are characterized by severe signaling anomalies resulting in altered cytokine production (14). CREMα has been linked to reduced IL-2 and increased IL-17A expression through diametric trans-regulatory effects on the IL2 and IL17A genes (8,(15)(16)(17). CREMα expression is controlled by trans-activation and trans-repression of the CREM promoter P1 (9,10).…”

Section: Inflammation | Gene Regulationmentioning

confidence: 99%

cAMP response element modulator α controls IL2 and IL17A expression during CD4 lineage commitment and subset distribution in lupus

Hedrich

Crispín

Rauen

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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119

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Appropriate expression of IL-2 plays a central role during the priming and differentiation of T cells. A tight balance between IL-2 and the effector cytokine IL-17A is essential for immune homeostasis. Epigenetic mechanisms have been documented as a key component of cytokine regulation during lineage commitment. The molecular mechanisms that induce chromatin remodeling are less well understood. We investigated epigenetic regulators that mediate the diametric expression of IL-2 and IL-17A in naive, central memory, and effector memory CD4 + T cells. We demonstrate that cAMP response modulator (CREM)α contributes to epigenetic remodeling of IL2 in effector memory T cells through the recruitment of DNMT3a. CREMα also reduces CpG-DNA methylation of the IL17A promoter. CREMα expression is regulated at the epigenetic level by CpG-DNA methylation, which allows increased CREMα expression in effector memory CD4 + T cells. T cells from patients with systemic lupus erythematosus (SLE) express increased levels of CREMα and exhibit a phenotype that is similar to effector memory CD4 + T cells with epigenetically predetermined expression patterns of IL-2 and IL-17A. We conclude that CREMα mediates epigenetic remodeling of the IL2 and IL17A gene during T-cell differentiation in favor of effector memory T cells in health and disease.inflammation | gene regulation

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“…NF-κB nuclear activity has been shown to be diminished, and replenishment of the p65 subunit increases IL-2 production in these cells [16]. A consistent finding in the IL-2 promoter of T cells obtained from patients with lupus has been an imbalance in the CREM/CREB ratio found at the −180 site [17]. The former mainly results because T cells from patients with lupus exhibit abnormally high levels of the inhibitory factor CREM.…”

Section: Pcreb and Cremmentioning

confidence: 58%

Novel molecular targets in the treatment of systemic lupus erythematosus

Crispín

Tsokos

2008

Autoimmunity Reviews

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T cells from patients with systemic lupus erythematosus (SLE) display a number of biochemical abnormalities which include altered expression of key signaling molecules, heightened calcium responses, and skewed expression of transcription factors. These defects are involved in the altered behavior of SLE T cells and are probably central in the disease pathogenesis. The aim of this communication is to review the defects that have been consistently documented in SLE T cells, highlighting molecules and pathways that represent therapeutic targets. Keywordsautoimmunity; CD3ζ; pathogenesis; PP2A; systemic lupus erythematosus; therapyIn patients with autoimmune diseases, the immune system mounts full-scale responses against self constituents; it destroys self tissues using the same mechanisms it relies on when dealing with foreign noxious agents. Accordingly, the therapeutic actions of the drugs designed for the treatment of these conditions -whether conventional or biological-depend on their capacity to inhibit immune effector mechanisms. Thus, different degrees of immune suppression are implicit in their therapeutic capacity. The suppression of the immune system permits patients with autoimmune diseases to live better, longer lives, but is not able to cure them. Although in these conditions immune suppression is evidently useful, its use is always associated with the risk of infectious and malignant diseases.Patients with systemic lupus erythematosus (SLE) develop an immune response against a variety of ubiquitous antigens. Clinically, it manifests as a waxing and waning inflammatory disease whose intensity and organ involvement varies significantly. High concordance rates in monozygotic twins indicate that genetic factors play a major role in SLE development. In fact, polymorphisms of a number of genes have been linked to SLE. The mechanisms by which such polymorphisms contribute to disease expression are mostly unknown, however, the general assumption is that their presence causes functional changes in the immune response that make the system prone to autoreactivity when exposed to certain environmental or hormonal triggers. The risk imposed by the presence of each of the genetic factors associated

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The Cyclic Adenosine 5′-Monophosphate Response Element Modulator Suppresses IL-2 Production in Stimulated T Cells by a Chromatin-Dependent Mechanism

Cited by 73 publications

References 41 publications

Tumor suppressor pp32 represses cell growth through inhibition of transcription by blocking acetylation and phosphorylation of histone H3 and initiating its proapoptotic activity

Tumor suppressor pp32 represses cell growth through inhibition of transcription by blocking acetylation and phosphorylation of histone H3 and initiating its proapoptotic activity

cAMP response element modulator α controls IL2 and IL17A expression during CD4 lineage commitment and subset distribution in lupus

Novel molecular targets in the treatment of systemic lupus erythematosus

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