Overexpression of High-Mobility Group Box 2 Is Associated with Tumor Aggressiveness and Prognosis of Hepatocellular Carcinoma

Kwon, Jung‐Hee; Kim, Jongmin; Park, Jin Young; Sun, Hao; Park, Chang Wook; Hong, Seok Woo; Park, Sun Young; Choi, Yoon Jung; Do, In‐Gu; Joh, Jae‐Won; Kim, Dae Shick; Choi, Kwan Yong

doi:10.1158/1078-0432.ccr-10-0825

Cited by 74 publications

(87 citation statements)

References 37 publications

(33 reference statements)

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“…7,10 Reports have also highlighted the interactions of HMGB1 with TLR9, retinoic acid-inducible gene I and TIM-3 10,37,38 and the vital role of HMGBs in autophagy regulation, 39 mitochondrial function and morphology [40][41][42] and cell proliferation. [43][44][45] Comparatively, an understanding of HMGBs in the nucleus is limited. In addition to their classical functions in transcriptional regulation or their DNA-binding properties, nuclear HMGBs may assist in the replication of some viruses.…”

Section: Discussionmentioning

confidence: 99%

Dynamic localization and the associated translocation mechanism of HMGBs in response to GCRV challenge in CIK cells

Rao

Yang

et al. 2014

Cell Mol Immunol

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High-mobility group box (HMGB) proteins, a family of chromatin-associated nuclear proteins, play amazingly multifaceted roles in the immune system of mammals. Thus far, little is known about the nucleocytoplasmic distribution of HMGBs in teleosts. The present study systematically investigated the dynamic localization of all six HMGB proteins in Ctenopharyngodon idella kidney (CIK) cells. Under basal conditions, all HMGBs exclusively localized to the nucleus. Grass carp reovirus (GCRV), polyinosinic-polycytidylic (poly(I : C)) potassium salt and lipopolysaccharide (LPS) challenge evoked the nuclear export of HMGBs to various degrees: GCRV challenge induced the highest nuclear export of CiHMGB2b, and poly(I : C) and LPS evoked the highest nucleocytoplasmic shuttling of CiHMGB1b. Overall, the nucleocytoplasmic shuttling of CiHMGB2a and CiHMGB3b was rarely induced by these challenges. Dynamic imaging uncovered that the nucleocytoplasmic GCRV-induced relocation of CiHMGB2b occurred in cells undergoing karyotheca rupture, apoptosis or proliferation. Western blot analyses were used to examine HMGB-EGFP fusion proteins in whole cell lysates, cytosol, nuclear fractions and culture medium. Further investigation demonstrated the nuclear retention of N-terminal HMG-boxes and the nucleocytoplasmic distribution of the C-terminal acidic tails. Comparative analyses of the dynamic relocation of full-length, truncated or chimeric HMGBs confirmed that the intramolecular interaction between HMG-boxes and C-tail domains mediated the nucleocytoplasmic translocation of HMGBs. These results not only provide an overall understanding of the subcellular localization of HMGBs, but also reveal the induction mechanism of the nucleocytoplasmic translocation of HMGBs by GCRV challenge, which lays a foundation for further studies on the interactions among pathogens, HMGBs and pattern recognition receptors in the innate immunity of teleosts. Keywords: grass carp (Ctenopharyngodon idella); grass carp reovirus; HMGBs; innate immunity; subcellular localization INTRODUCTION High-mobility group box (HMGB) proteins are abundant non-histone chromatin components implicated in major DNA transactions. In mammals, there are four family members (HMGB1-4), of which HMGB1, 2 and 3 are characterized by two DNA-binding domains (HMG-box A and B) and a Cterminal acidic tail domain and HMGB4 possesses two HMG-boxes but lacks the acidic tail. 1 In some teleosts, such as fugu (Takifugu), medaka (Oryzias latipes), Tetraodon and stickleback, two paralogous genes were detected for HMGB1 and HMGB2 but not for HMGB3. 2 However, in zebrafish (Danio rerio), salmon (Oncorhynchus), carp (Cyprinus carpio) 2 and grass carp (Ctenopharyngodon idella), 3-5 two paralogs are present within each of the HMGB subfamilies (HMGB1,

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Section: Discussionmentioning

confidence: 99%

Dynamic localization and the associated translocation mechanism of HMGBs in response to GCRV challenge in CIK cells

Rao

Yang

et al. 2014

Cell Mol Immunol

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“…In ALL, the upregulation of pseudogenes RP11-423H2.1, FAM86C2P, and HMGB1P41 was associated with the upregulation of their parent genes THOC3, FAM86A, and HMGB2. Previous studies have shown that HMGB2 is overexpressed in a variety of cancers and that there is a decline in the proliferation of cancer cells when siRNA is used to knockdown expression of HMGB2, 29,30 suggesting a putative role in the pathogenesis of ALL. Likewise, some pseudogenes were downregulated and their parent genes were also downregulated.…”

Section: Differential Expression Of Transcripts With Epigenetic Regulmentioning

confidence: 99%

Integrated methylome and transcriptome analysis reveals novel regulatory elements in pediatric acute lymphoblastic leukemia

et al. 2015

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Acute lymphoblastic leukemia (ALL) is the most common cancer diagnosed in children under the age of 15. In addition to genetic aberrations, epigenetic modifications such as DNA methylation are altered in cancer and impact gene expression. To identify epigenetic alterations in ALL, genome-wide methylation profiles were generated using the methylated CpG island recovery assay followed by next-generation sequencing. More than 25,000 differentially methylated regions (DMR) were observed in ALL patients with »90% present within intronic or intergenic regions. To determine the regulatory potential of the DMR, whole-transcriptome analysis was performed and integrated with methylation data. Aberrant promoter methylation was associated with the altered expression of genes involved in transcriptional regulation, apoptosis, and proliferation. Novel enhancer-like sequences were identified within intronic and intergenic DMR. Aberrant methylation in these regions was associated with the altered expression of neighboring genes involved in cell cycle processes, lymphocyte activation and apoptosis. These genes include potential epi-driver genes, such as SYNE1, PTPRS, PAWR, HDAC9, RGCC, MCOLN2, LYN, TRAF3, FLT1, and MELK, which may provide a selective advantage to leukemic cells. In addition, the differential expression of epigenetic modifier genes, pseudogenes, and non-coding RNAs was also observed accentuating the role of erroneous epigenetic gene regulation in ALL.

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“…15 In hepatocellular carcinoma, HMGB2 overexpression has been significantly correlated with shorter overall survival time. 16 Despite extensive characterization of the diverse roles of HMGB1, relatively less is known of the specific biological function of HMGB2.…”

Section: Introductionmentioning

confidence: 99%

High-mobility group box 2 (HMGB2) modulates radioresponse and is downregulated by p53 in colorectal cancer cell

Shin

Kim

et al. 2012

Cancer Biology & Therapy

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Overexpression of High-Mobility Group Box 2 Is Associated with Tumor Aggressiveness and Prognosis of Hepatocellular Carcinoma

Cited by 74 publications

References 37 publications

Dynamic localization and the associated translocation mechanism of HMGBs in response to GCRV challenge in CIK cells

Dynamic localization and the associated translocation mechanism of HMGBs in response to GCRV challenge in CIK cells

Integrated methylome and transcriptome analysis reveals novel regulatory elements in pediatric acute lymphoblastic leukemia

High-mobility group box 2 (HMGB2) modulates radioresponse and is downregulated by p53 in colorectal cancer cell

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