抑癌基因ARID1A在肿瘤中的研究进展

染色质重塑复合物相关基因在癌症中频繁突变,这种现象逐渐引起研究者的重视。然而,染色质重塑活动如何引起癌症发生,对此机理研究甚少。ARID1A是SWl／SNF（BRG1相关因子）染色质重塑复合物中的一个亚基,具有DNA结合活性,可以与富含AT的DNA序列特异性结合。近来基因组测序发现,ARID1A在卵巢癌、肝癌、胃癌、乳腺癌等肿瘤中频繁发生突变,这些突变导致ARID1A在肿瘤中表达降低,表明ARID1A是个潜在的抑癌基因。该文将针对ARID1A在各种癌症中的缺失及失活机制、ARID1A的生物学功能和潜在抑癌机理以及与,临床预后之间关系等方面做一综述,以期为肿瘤诊断、治疗提供新思路。     

Expression of PIK3IP1 in the murine uterus during early pregnancy

The ovarian steroid hormones, estrogen (E2) and progesterone (P4), are essential regulators of uterine functions necessary for development, embryo implantation, and normal pregnancy. ARID1A plays an important role in steroid hormone signaling in endometrial function and pregnancy. In previous studies, using high density DNA microarray analysis, we identified phosphatidylinositol-3-kinase interacting protein 1 (Pik3ip1) as one of the genes up-regulated by ARID1A. In the present study, we performed real-time qPCR and immunohistochemistry analysis to investigate the regulation of PIK3IP1 by ARID1A and determine expression patterns of PIK3IP1 in the uterus during early pregnancy. The expression of PIK3IP1 was strong at the uterine epithelial and stromal cells of the control mice. However, expression of PIK3IP1 was remarkably reduced in the Pgr^cre/+Arid1a^f/f mice and progesterone receptor knock-out (PRKO) mice. During early pregnancy, PIK3IP1 expression was strong at day 2.5 of gestation (GD 2.5) and then slightly decreased at GD 3.5?at the epithelium and stroma. After implantation, PIK3IP1 expression was detected at the secondary decidualization zone. To determine the ovarian steroid hormone regulation of PIK3IP1, we examined the expression of PIK3IP1 in ovariectomized control, Pgr^cre/+Arid1a^f/f, and PRKO mice treated with P4 or E2. P4 treatment increased the PIK3IP1 expression at the luminal and glandular epithelium of control mice. However, the PIK3IP1 induction was decreased in both the Pgr^cre/+Arid1a^f/f and PRKO mice, compared to controls. Our results identified PIK3IP1 as a novel target of ARID1A and PGR in the murine uterus.     

ARID3B Directly Regulates Ovarian Cancer Promoting Genes

The DNA-binding protein AT-Rich Interactive Domain 3B (ARID3B) is elevated in ovarian cancer and increases tumor growth in a xenograft model of ovarian cancer. However, relatively little is known about ARID3B''s function. In this study we perform the first genome wide screen for ARID3B direct target genes and ARID3B regulated pathways. We identified and confirmed numerous ARID3B target genes by chromatin immunoprecipitation (ChIP) followed by microarray and quantitative RT-PCR. Using motif-finding algorithms, we characterized a binding site for ARID3B, which is similar to the previously known site for the ARID3B paralogue ARID3A. Functionality of this predicted site was demonstrated by ChIP analysis. We next demonstrated that ARID3B induces expression of its targets in ovarian cancer cell lines. We validated that ARID3B binds to an epidermal growth factor receptor (EGFR) enhancer and increases mRNA expression. ARID3B also binds to the promoter of Wnt5A and its receptor FZD5. FZD5 is highly expressed in ovarian cancer cell lines, and is upregulated by exogenous ARID3B. Both ARID3B and FZD5 expression increase adhesion to extracellular matrix (ECM) components including collagen IV, fibronectin and vitronectin. ARID3B-increased adhesion to collagens II and IV require FZD5. This study directly demonstrates that ARID3B binds target genes in a sequence-specific manner, resulting in increased gene expression. Furthermore, our data indicate that ARID3B regulation of direct target genes in the Wnt pathway promotes adhesion of ovarian cancer cells.     

基于合成致死策略寻找ARID1A突变肝细胞癌的治疗靶点

ARID1A编码的BAF250a蛋白是SWI/SNF(SWItch/Sucrose Non-Fermentable)染色质重组复合物BAF(BRG1-associated factors)的亚基之一,参与改变染色体的结构和可接近性。ARID1A在肝细胞癌(hepatocellular carcinoma,HCC)中的突变率高达13%,但目前尚无有效的治疗药物。本研究旨在利用合成致死策略寻找携带ARID1A突变HCC的治疗新靶标。首先,本研究通过分析ARID1A突变与肿瘤恶性程度的相关性发现ARID1A突变的肿瘤恶性度增加;进而分析Achilles和NCI-60癌症细胞系中ARID1A突变和野生型细胞系的基因表型值(gene phenotype value,GPV)和高表达基因,获得ARID1A突变细胞低GPV和高表达的重叠基因,再扩大样本使用CCLE(Cancer Cell Line Encyclopedia)细胞系的高表达基因进行重叠基因分析;最后并在TCGA(the Cancer Genome Atlas)肝癌数据库中进行筛选,获得116个潜在的ARID1A合成致死基因。本研究运用生物信息学方法计算获得多个ARID1A的潜在合成性致死基因,为ARID1A突变HCC患者提供新的治疗靶点,也为靶向药物研发提供了新靶标和新策略。     

Striking differences of LDL receptor-related protein 1B expression in mouse and human

The low density lipoprotein (LDL) receptor-related protein 1B (LRP1B) is a member of the expanding LDL receptor family, and is closely related to LRP. It was discovered as a putative tumor suppressor, and is frequently inactivated in human malignant tissues. However, the expression pattern of LRP1B in normal human tissues was unclear. In the present study, we analyzed LRP1B expression in normal mouse and human tissues. By using RT-PCR, we found that, while mouse LRP1B expression is mostly restricted to the brain, human LRP1B expression is more widespread with highest expression levels detected in the brain, adrenal gland, salivary gland, and testis. Although mouse LRP1B expresses in the forms of both full-length receptor tail and an alternatively spliced form lacking a 33-amino acid insert, human LRP1B is expressed exclusively in the form of full-length receptor tail. Finally, we found that, unlike mouse LRP1B, human LRP1B is cleaved by furin. Taken together, these data demonstrate that there are striking differences between LRP1B expression in mouse and human tissues. The broader expression pattern of LRP1B in human tissues suggests that this putative tumor suppressor may play roles in several types of human cancer.     

The flexible loop L1 of the H3K4 demethylase JARID1B ARID domain has a crucial role in DNA-binding activity

JARID1B, a member of the JmjC demethylase family, has a crucial role in H3K4me3 demethylation. The ARID domain is a potential DNA-binding domain of JARID1B. Previous studies indicate that a GC-rich DNA motif is the specific target of the ARID domain. However, the details of the interaction between the ARID domain and duplex DNA require further study. Here, we utilized NMR spectroscopy to assign the backbone amino acids and mapped the DNA-binding sites of the human JARID1B ARID domain. Perturbations to ¹H-¹⁵N correlation spectra revealed that the flexible loop L1 of ARID was the main DNA-binding interface. EMSA and intrinsic fluorescence experiments demonstrated that mutations on loop L1 strongly reduced the DNA-binding activity of JARID1B ARID. Furthermore, transfection of mutant forms resulted in a distinct loss of intrinsic H3K4 demethylase activity, implying that the flexible loop L1 made a major contribution to sustaining the DNA-binding ability of JARID1B ARID domain.     

染色质重塑因子ARID1A的肿瘤抑制作用

哺乳动物SWI/SNF复合物是一种ATP依赖的染色质重塑复合物, 在细胞增殖、分化、发育和肿瘤抑制过程中发挥着重要作用。ARID1A是一种SWI/SNF复合物亚基, 此外还是一种ARID家族成员, 具有非序列特异性DNA结合活性。ARID1A发挥着肿瘤抑制作用, 在多种肿瘤如卵巢癌、膀胱癌和胃癌等存在频繁基因突变。ARID1A可通过上调p21和下调E2F-反应基因表达而抑制细胞增殖。ARID1A与肿瘤抑制作用的发现对癌症发生的理解和癌症新治疗有重要裨益。文章介绍了ARID1A的基本特征、肿瘤发生的关联及生物学作用, 以期对ARID1A有一个全面理解。     

Expression patterns of anoctamin 1 and anoctamin 2 chloride channels in the mammalian nose

Calcium-activated chloride channels are expressed in chemosensory neurons of the nose and contribute to secretory processes and sensory signal transduction. These channels are thought to be members of the family of anoctamins (alternative name: TMEM16 proteins), which are opened by micromolar concentrations of intracellular Ca²⁺. Two family members, ANO 1 (TMEM16A) and ANO 2 (TMEM16B), are expressed in the various sensory and respiratory tissues of the nose. We have examined the tissue specificity and sub-cellular localization of these channels in the nasal respiratory epithelium and in the five chemosensory organs of the nose: the main olfactory epithelium, the septal organ of Masera, the vomeronasal organ, the Grueneberg ganglion and the trigeminal system. We have found that the two channels show mutually exclusive expression patterns. ANO 1 is present in the apical membranes of various secretory epithelia in which it is co-localized with the water channel aquaporin 5. It has also been detected in acinar cells and duct cells of subepithelial glands and in the supporting cells of sensory epithelia. In contrast, ANO 2 expression is restricted to chemosensory neurons in which it has been detected in microvillar and ciliary surface structures. The different expression patterns of ANO 1 and ANO 2 have been observed in the olfactory, vomeronasal and respiratory epithelia. No expression has been detected in the Grueneberg ganglion or trigeminal sensory fibers. On the basis of this differential expression, we derive the main functional features of ANO 1 and ANO 2 chloride channels in the nose and suggest their significance for nasal physiology.     

B4GALT3促进肝癌细胞增殖和侵袭

β-1,4-半乳糖基转移酶III（β-1,4-galactosyltransferase III,B4GALT3）在肿瘤的作用正受到关注,但其在肝癌中的表达模式及其作用有待阐明。基于TCGA肿瘤组织数据库和GTEx正常组织数据库进行的生物信息学分析,发现相比于人正常肝组织,B4GALT3在人肝癌组织中的表达显著上调。实时荧光定量PCR结果发现肝癌细胞中B4GALT3的mRNA和Western 印迹检测蛋白质表达水平显著上调。其中肝癌细胞SMMC7721中B4GALT3的mRNA表达水平是正常肝细胞L-02的9.85倍。对TCGA数据库进行分析发现,B4GALT3表达水平与肝癌患者的生存率呈负相关。在内源性高表达B4GALT3的SMMC7721肝癌细胞中,干扰B4GALT3表达,可显著抑制该细胞的增殖能力和侵袭能力。干扰B4GALT3表达能显著上调SMMC7721细胞中p27和E-cadherin的蛋白质表达水平,干扰B4GALT3表达后SMMC7721细胞中,p27和E-cadherin的mRNA水平较对照组上调6.15倍和7.83倍。总之,B4GALT3在肝癌中表达上调,且促进肝癌细胞的增殖和侵袭。     

共刺激分子B7-H4在宫颈癌中的表达及意义

目的:肿瘤微环境中免疫共刺激分子B7-H4与其配体结合后可提供免疫抑制信号,调控肿瘤组织中的免疫应答。本研究探讨B7-H4、Fas及Caspase-3裂解片段在宫颈鳞状细胞癌中的表达及其与临床病理因素的关系,分析其参与肿瘤免疫逃逸的机制。方法:应用免疫组织化学SP法检测23例正常宫颈上皮、38例宫颈上皮内瘤变(CIN)和132例宫颈鳞状细胞癌组织中B7-H4、Fas及Caspase-3裂解片段的表达水平,分析其与宫颈癌各临床病理因素的相关性。结果:B7-H4在正常宫颈上皮组织中不表达,在CIN组织中微弱表达,在宫颈鳞状细胞癌组织中高表达。B7-H4表达与肿瘤的临床分期、淋巴结转移、原发肿瘤大小和肿瘤浸润深度有关,B7-H4与Fas蛋白表达呈现负相关,与Caspase-3裂解片段存在共表达关系。结论:B7-H4在宫颈鳞状细胞癌中过表达可引起Fas蛋白表达下调和Caspase-3裂解片段增多,抑制肿瘤细胞发生凋亡,参与肿瘤逃避宿主的免疫监视,从而促发宫颈癌的发生和发展。阻断B7-H4通路途径,有望成为宫颈鳞状细胞癌治疗的新靶点。     

Identical Expression Profiling of Human and Murine TIPE3 Protein Reveals Links to Its Functions

Tumor necrosis factor-alpha-induced protein-8 like-3 (TNFAIP8L3, TIPE3) is a newly discovered member of TNFAIP8 family and regarded as a lipid second messenger transfer protein that promotes cancer. Yet the nature of the cells and tissues that express TIPE3 protein has not been determined. In this study, we examined TIPE3 expression in various murine and human tissues by immunohistochemistry and quantitative PCR. We found that TIPE3 expression was almost identical in most organs from human and mice. TIPE3 is a cytoplasmic protein expressed preferentially in epithelial-derived cells with secretory functions. Furthermore, TIPE3 protein is highly expressed in most human carcinoma cell lines. These results suggest that TIPE3 may play important roles in carcinogenesis and cell secretion.     

Growth inhibitory effects of three miR-129 family members on gastric cancer

Reduced expression of microRNA-129 (miR-129) has been reported in several types of tumor cell lines as well as in primary tumor tissues. However, little is known about how miR-129 affects cell proliferation in gastric cancer. Here, we show that all miR-129 family members, miR-129-1-3p, miR-129-2-3p, and miR-129-5p, are down-regulated in gastric cancer cell lines compared with normal gastric epithelial cells. Furthermore, using the real-time cell analyzer assay to observe the growth effects of miR-129 on gastric cancer cells, we found that all three mature products of miR-129 showed tumor suppressor activities. To elucidate the molecular mechanisms underlying down-regulation of miR-129 in gastric cancer, we analyzed the effects of miR-129 mimics on the cell cycle. We found that increased miR-129 levels in gastric cancer cells resulted in significant G₀/G₁ phase arrest. Interestingly, we showed that cyclin dependent kinase 6 (CDK6), a cell cycle-associated protein involved in G₁-S transition, was a target of miR-129. We also found that expression of the sex determining region Y-box 4 (SOX4) was inversely associated with that of miR-129-2-3p and miR-129-5p but not of miR-129-1-3p. Together, our data indicate that all miR-129 family members, not only miR-129-5p, as previously thought, play an important role in regulating cell proliferation in gastric cancer.     

Structural organization, mapping, characterization and evolutionary relationships of CDKN2 gene family members in Xiphophorus fishes

Xiphophorus fishes and their hybrids are used as models for the study of melanoma and other diseases. The cyclin-dependent kinase inhibitor gene family in humans is comprised of four members, including CDKN2A (P16), and dysregulation of this gene is implicated in numerous neoplasms including melanomas. We have investigated the status of the gene family in the southern platyfish X. maculatus. Xiphophorus harbors at least two such loci, which we now term CDKN2A/B and CDKN2D. Both loci map to Xiphophorus linkage group 5, a genomic area that has long been known to harbor the DIFF tumor suppressor locus. Within this report, we report on the complete cloning, genomic exon/intron boundary delineation, linkage mapping and expressional characteristics of Xiphophorus CDKN2D. We also compare and contrast this expression to that of the previously isolated CDKN2AB locus in normal and neoplastic tissues derived from non-hybrid and hybrid fishes. The hypothetical evolutionary relationships of gene family members and their involvement in melanoma is evaluated. In comparison to CDKN2A/B, the RNA expression of Xiphophorus CDKN2D differs in normal tissues and is not associated with melanotic/pathologic tissues, confirming functional divergence between obvious homologues.     

Expression and subcellular localization of Spred proteins in mouse and human tissues

Spred-1 and Spred-2 (Sprouty-related protein with an EVH1 domain) are recently described members of the EVH1 (Ena/VASP-homology domain 1) family. Both Spred-1 and Spred-2 are membrane-associated substrates of receptor tyrosine kinases and they act as negative regulators of the Ras pathway upon growth factor stimulation. Since the Spred family members seem to exert overlapping molecular functions, the isotype-specific function of each member remains enigmatic. To date, no comprehensive expression profiling of Spred proteins has been shown. Therefore, we compared mRNA and protein expression patterns of Spred-1 and Spred-2 systematically in mouse organs. Furthermore, we focused on the tissue-specific expression of Spred-2 in adult human tissues, the subcellular localization, and the potential role of Spred-2 in the organism. Our studies show that expression patterns of Spred-1 and Spred-2 differ markedly among various tissues and cell types. In mouse, Spred-1 and Spred-2 were found to be expressed predominantly in brain, whereas Spred-2 was found to be more widely expressed in various adult tissues than Spred-1. In humans, Spred-2 was found to be strongly expressed in glandular epithelia and, at the subcellular level, its immunoreactivity was associated with secretory vesicles. Using confocal microscopy we found Spred-2 to be strongly colocalized with Rab11 and, to a lesser extent, with Rab5a GTPase, an observation that was not made for Spred-1. We conclude that the two members of the recently discovered Spred protein family, Spred-1 and Spred-2, show a highly specific expression pattern in various tissues reflecting a specific physiological role for the individual Spred isoforms in these tissues. Furthermore, it becomes most likely that Spred-2 is involved in the regulation of secretory pathways.