High-Mobility Group Chromatin Proteins 1 and 2 Functionally Interact with Steroid Hormone Receptors To Enhance Their DNA Binding In Vitro and Transcriptional Activity in Mammalian Cells

Boonyaratanakornkit, Viroj; Melvin, Vida Senkus; Prendergast, Paul; Altmann, Magda; Ronfani, Lorenza; Bianchi, Marco E.; Taraseviciene, Laima; Nordeen, Steven K.; Allegretto, Elizabeth A.; Edwards, Dean P.

doi:10.1128/mcb.18.8.4471

Cited by 312 publications

(246 citation statements)

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“…Remarkably, the interaction with ␣-ER was previously described. Moreover, the proposed HMGB1-binding sequence lies very close to the zinc finger of the ER that interacts with DNA and is clearly accessible in the co-crystal structure (15,36). These features might help to explain how HMGB1 can stabilize the interaction of ER with DNA.…”

Section: Discussionmentioning

confidence: 97%

“…Indeed, HMGB1 and the related HMGB2 protein can interact through their HMG box domains with a broad range of proteins ranging from nuclear cell proteins to viral proteins. Interactions of HMGB1 have been described with the recombination activation gene protein RAG1 (9), several transcription factors including the cellular tumor suppressor p53 (10), the octamer transcription factors Oct1, Oct2, Oct4, and Oct6 (11,12), some homeotic HOX proteins (13), the steroid receptors (progesterone (PR), glucocorticoid (GR), estrogen (ER), and androgen (AR)) (14,15), the general initiation factor human TATA-binding protein (hTBP) (16 -18), and the viral replication proteins Rep78 and Rep68 (19). The consequences of these interactions are multiple.…”

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confidence: 99%

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HMGB1 Interacts with Many Apparently Unrelated Proteins by Recognizing Short Amino Acid Sequences

Dintilhac

Bernués

2002

Journal of Biological Chemistry

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The chromatin high mobility group protein 1 (HMGB1) is a very abundant and conserved protein that is structured into two HMG box domains plus a highly acidic C-terminal domain. From the ability to bind DNA nonspecifically and to interact with various proteins, several functions in DNA-related processes have been assigned to HMGB1. Nevertheless, its functional role remains the subject of controversy. Using a phage display approach we have shown that HMGB1 can recognize several peptide motifs. A computer search of the protein data bases found peptide homologies with proteins already known to interact with HMGB1, like p53, and have allowed us to identify new potential candidates. Among them, transcriptional activators like the heterogeneous nuclear ribonucleoprotein K (hnRNP K), repressors like methyl-CpG binding protein 2 (MeCP2), and co-repressors like the retinoblastoma susceptibility protein (pRb) and Groucho-related gene proteins 1 (Grg1) and 5 (Grg5) can be found. A detailed analysis of the interaction of Grg1 with HMGB1 confirmed that the binding region contained the sequence homologous to one of the peptides identified. Our results have led us to propose that HMGB1 may play a central role in the stabilization and/or assembly of several multifunctional complexes through protein-protein interactions.In the eukaryotic cell nucleus of all vertebrate cell types, HMGB1 1 (formerly named HMG1, see Ref. 1 for a revised nomenclature) is one of the most abundant non-histone proteins. HMGB1 has been shown to be essential because knockout mice die 24 h after birth (2). HMGB1 is highly conserved, particularly in mammals and to a lesser extent throughout the animal kingdom. HMGB1 is structured into three domains, two basic HMG boxes (HMG domains A and B) and a highly acidic C-terminal domain, which confer an overall dipolar appearance to this protein (see Refs. 3-5 for reviews). Each of the HMG boxes is formed by two short and one long ␣-helix that upon folding produce an L-or V-shaped three-dimensional domain structure (6 -8). Whereas the acidic C-terminal domain is presumably involved in the modulation of HMGB1 activity, the HMG box domains allow the protein to bind to linear DNA with moderate affinity and to highly structured (3-and 4-way junction DNA, cruciform DNA) or distorted DNA (bent or kink DNA, bulged DNA, cisplatin-modified DNA) with higher affinity, but always without sequence specificity. The concave surface of the L-or V-shaped HMG box domain contacts the DNA in the minor groove in two slightly different ways introducing important modifications in the structure of DNA, in particular a strong bend (reviewed in Ref. 5). Presumably, these features will be of relevance for the biological functions in which HMGB1 has been involved (DNA repair, recombination, replication, and transcription).The activity of HMGB1 is not solely mediated by its ability to bind to DNA. Indeed, HMGB1 and the related HMGB2 protein can interact through their HMG box domains with a broad range of proteins ranging from nuclear cell prote...

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Section: Discussionmentioning

confidence: 97%

mentioning

confidence: 99%

HMGB1 Interacts with Many Apparently Unrelated Proteins by Recognizing Short Amino Acid Sequences

Dintilhac

Bernués

2002

Journal of Biological Chemistry

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“…Notch1 is expressed in developing articular cartilage surface (45) in a pattern similar to HMGB2 (17), indicating that Notch might be involved in Lef1-HMGB2 complex formation in temporally and spatially specific patterns during cartilage formation. HMGB2 has been reported to interact with steroid receptors (46), p53 and p73 (47). Stros et al reported that B-box within human HMGB1 required the TKKKFKD motif that is included in the linker for interaction with p73, whereas A-box itself can bind p73 (47).…”

Section: Discussionmentioning

confidence: 99%

Chromatin protein HMGB2 regulates articular cartilage surface maintenance via β-catenin pathway

Taniguchi

Caramés

Kawakami

et al. 2009

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

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The superficial zone (SZ) of articular cartilage is critical in maintaining tissue function and homeostasis and represents the site of the earliest changes in osteoarthritis. Mechanisms that regulate the unique phenotype of SZ chondrocytes and maintain SZ integrity are unknown. We recently demonstrated that expression of the chromatin protein high mobility group box (HMGB) protein 2 is restricted to the SZ in articular cartilage suggesting a transcriptional regulation involving HMGB2 in SZ. Here, we show that an interaction between HMGB2 and the Wnt/␤-catenin pathway regulates the maintenance of the SZ. We found that the Wnt/␤-catenin pathway is active specifically in the SZ in normal mouse knee joints and colocalizes with HMGB2. Both Wnt signaling and HMGB2 expression decrease with aging in mouse joints. Our molecular studies show that HMGB2 enhances the binding of Lef-1 to its target sequence and potentiates transcriptional activation of the Lef-1-␤-catenin complex. The HMG domain within HMGB2 is crucial for interaction with Lef-1, suggesting that both HMGB2 and HMGB1 may be involved in this function. Furthermore, conditional deletion of ␤-catenin in cultured mouse chondrocytes induced apoptosis. These findings define a pathway where protein interactions of HMGB2 and Lef-1 enhance Wnt signaling and promote SZ chondrocyte survival. Loss of the HMGB2-Wnt signaling interaction is a new mechanism in aging-related cartilage pathology.aging ͉ osteoarthritis ͉ apoptosis ͉ superficial zone A rticular cartilage is a tissue that provides biomechanical properties that allow near frictionless joint movement and dispersion of mechanical loads. Cartilage is composed of a single cell lineage but differences in the organization, phenotype and function of cells in the various layers of cartilage have been recognized (1-4). The superficial zone (SZ) is the most unique. SZ cells produce lubricin, also termed proteoglycan-4 (PRG4) or superficial zone protein (SZP), an important joint lubricant (5-7), and are more responsive to stimulation by catabolic cytokines such as IL-1 (8). Recent studies also suggest that the SZ contains cells that express mesenchymal stem cell markers (9-11).Articular cartilage is among the tissues that undergo profound aging-related changes and aging represents the major risk factor for osteoarthritis (OA), the most prevalent joint disease (12). Agingrelated changes in cartilage include reduced cellularity, increased apoptosis and altered cellular responses to growth factors, cytokines and mechanical stress (13-15). Cartilage changes in aging and OA begin in the SZ and once the SZ is disrupted this is followed by progressive erosion of the remaining cartilage layers (16).To address mechanisms that maintain the unique phenotype of SZ cells we performed gene expression analyses and observed that expression of the chromatin protein HMGB2 is restricted to the SZ (17). Joint aging in humans and mice leads to loss of HMGB2 expression and this is correlated with the onset of OA-like changes. Mice deficient in Hm...

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“…HMG2, a member of the high-mobility group protein family, is a non-sequence-specific DNA binding protein that recognizes DNA structure and acts as a co-regulator that increases the DNA binding and transcriptional activity of the steroid hormone class of receptors. 32 PKCI-1, a member of the HIT family of proteins, is expressed at relatively high levels in several murine tissues and in a variety of human cell lines prepared from normal tissues or tumors. In vivo studies suggest that the ubiquitously expressed PKCI protein does not function as an inhibitor of PKC but rather acts as an enzyme in a yet to be identified pathway.…”

Section: Genes With Other Functionsmentioning

confidence: 99%

Expression profiling of gastric adenocarcinoma using cDNA array

et al. 2001

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To investigate the expression profile of gastric adenocarcinoma, cDNA array experiments were performed using Atlas Human Cancer 1.2 K Array (Clontech Laboratories, Palo Alto, CA) on nine xenografted and two primary gastric cancer samples. The expression of the tumor samples was compared to that of two normal gastric epithelial tissues. The expression pattern of the primary tumors was similar to that of xenografted tumors. The up-regulated genes had expression ratios ranging from 2.5 to 16, whereas the down-regulated genes had a range from ؊2.5 to ؊16. No variation in gene expression was detected in the analysis of the xenografted tumors versus the primary tumors, indicating that the xenografts represented the primary tumors well. Thirtyeight genes showed altered gene expression in 5 or more samples (>45%). Thirty-one genes were up-regulated and seven genes were down-regulated. The most abundantly upregulated genes (ratio >5) included genes such as S100A4, CDK4, MMP14 and beta catenin. The GIF was markedly downregulated (ratio < ؊10). To confirm our findings, six genes (three up-and three down-regulated) were selected for semiquantitative RT-PCR analysis. The RT-PCR results were consistent with the array findings. Our approach revealed that several genes are abnormally expressed in gastric cancer and found that genes known to interact in several common molecular pathway(s) were consistently altered. © 2001 Wiley-Liss, Inc. Key words: cDNA arrays; gene expression; xenografts; and gastric adenocarcinomasGastric carcinoma (GC) is one of the most common malignancies worldwide and is the second most common cause of cancerrelated death. 1 Overall relative 5-year survival rates are currently less than 20%. Cytogenetic studies of gastric adenocarcinomas are few in number and have failed to identify any consistent or noteworthy chromosomal abnormalities. 2 Comprehensive studies of DNA copy number changes using comparative genomic hybridization (CGH) have revealed alterations in several chromosomal regions. 3-5 Frequent high-level amplifications were noted at 17q and 20q, whereas DNA copy number losses were frequently seen in 4q, 5q, and 9p. However, there are few data on gene expression in gastric cancer. The recent development of cDNA array technology allows the study of gene expression level and gene activation in thousands of genes and sequences. 6,7 The data obtained from the array analysis are expected to uncover novel genes related to cancer development and its clinical behavior. However, tumor sample contamination with normal cells makes analysis of hundreds of genes more difficult and less sensitive. Xenografting of human tumors has been used to produce optimal samples that are enriched for neoplastic cells for subsequent molecular analyses.

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High-Mobility Group Chromatin Proteins 1 and 2 Functionally Interact with Steroid Hormone Receptors To Enhance Their DNA Binding In Vitro and Transcriptional Activity in Mammalian Cells

Cited by 312 publications

References 79 publications

HMGB1 Interacts with Many Apparently Unrelated Proteins by Recognizing Short Amino Acid Sequences

HMGB1 Interacts with Many Apparently Unrelated Proteins by Recognizing Short Amino Acid Sequences

Chromatin protein HMGB2 regulates articular cartilage surface maintenance via β-catenin pathway

Expression profiling of gastric adenocarcinoma using cDNA array

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