S100A8、S100A9在幽门螺杆菌相关胃癌发生发展中的作用研究进展

S100家族是由20余个结构相似但功能各异的成员组成。该家族成员广泛参与感染、促炎、自身免疫等各种病理过程。近年来,越来越多学者发现S100家族成员在肿瘤的发展过程中也有不同程度的表达失调,且具有特异性。胃癌是我国常见的恶性肿瘤之一,国家癌症中心统计数据表明,2015年我国胃癌新发病率为679／10万,死亡率为498／10万[1],位居所有恶性肿瘤第2位。幽门螺杆菌（H. pylori）作为胃癌的Ⅰ类危险因子,目前其与胃癌的密切关系也得到了广大学者的认可。研究发现,S100家族成员——S100A8、S100A9在H. pylori感染相关胃炎、胃癌患者病理组织中表达显著上调,因此其在胃癌发生发展中的作用受到了学者的关注。本文主要就S100A8、S100A9在H. pylori相关胃癌发生发展中的作用作一综述。     

Substitution of methionine 63 or 83 in S100A9 and cysteine 42 in S100A8 abrogate the antifungal activities of S100A8/A9: potential role for oxidative regulation

S100A8 and S100A9 and their heterocomplex calprotectin (S100A8/A9) are abundant cytosolic constituents in human neutrophils previously shown to possess antifungal activity. This study was designed to investigate mechanisms involved in the modulation of the antifungal properties of S100A8/A9. S100A8, S100A9 and site-directed mutants of both proteins were tested for their antifungal effect against Candida albicans in microplate dilution assays. Whereas S100A8 alone did not inhibit fungal growth, S100A9 by itself had a moderate antifungal effect. Combining both proteins had the strongest effect. Supporting a potential role for oxidation in S100A8/A9, substitution of methionine 63 or 83 of S100A9 resulted in the loss of antifungal activity. Additionally, the substitution to alanine of cysteine 42 of S100A8 also caused a loss of S100A8's ability to enhance S100A9's antifungal effect. Overall, our data indicate that both S100A8 and S100A9 are required for their fully active antifungal effect and that oxidation regulates S100A8/A9 antifungal activity through mechanisms that remain to be elucidated and evaluated. Finally, together with our previous work describing the oxidation-sensitive anti-inflammatory effects of S100A8/A9, we propose that S100A8/A9 exerts an anti-inflammatory activity in healthy state and that conditions associated with oxidative stress activate the antifungal activity of S100A8/A9.     

S100A8/S100A9 and their association with cartilage and bone

S100A8 and S100A9 are calcium-binding proteins expressed in myeloid cells and are markers of numerous inflammatory diseases in humans. S100A9 has been associated with dystrophic calcification in human atherosclerosis. Here we demonstrate S100A8 and S100A9 expression in murine and human bone and cartilage cells. Only S100A8 was seen in preosteogenic cells whereas osteoblasts had variable, but generally weak expression of both proteins. In keeping with their reported high-mRNA expression, S100A8 and S100A9 were prominent in osteoclasts. S100A8 was expressed in alkaline phosphatase-positive hypertrophic chondrocytes, but not in proliferating chondrocytes within the growth plate where the cartilaginous matrix was calcifying. S100A9 was only evident in the invading vascular osteogenic tissue penetrating the degenerating chondrocytic zone adjacent to the primary spongiosa, where S100A8 was also expressed. Whilst, S100A8 has been shown to be associated with osteoblast differentiation, both S100A8 and S100A9 may contribute to calcification of the cartilage matrix and its replacement with trabecular bone, and to regulation of redox in bone resorption.     

S100A8 and S100A9 activate MAP kinase and NF-kappaB signaling pathways and trigger translocation of RAGE in human prostate cancer cells

S100 proteins, a multigenic family of calcium-binding proteins, have been linked to human pathologies in recent years. Deregulated expression of S100 proteins, including S100A8 and S100A9, was reported in association with neoplastic disorders. In a previous study, we identified enhanced expression of S100A8 and S100A9 in human prostate cancer. To investigate potential functional implications of S100A8 and S100A9 in prostate cancer, we examined the influence of over-expressed and of purified recombinant S100A8 and S100A9 proteins in different prostate epithelial cell lines. S100A8 and S100A9 were secreted by prostate cancer cells, a finding which prompted us to analyze a possible function as extracellular ligands. S100A8/A9 induced the activation of NF-kappaB and an increased phosphorylation of p38 and p44/42 MAP kinases. In addition, extracellular S100A8/A9 stimulated migration of benign prostatic cells in vitro. Furthermore, in immunofluorescence experiments, we found a strong speckled co-localization of intracellular S100A8/A9 with RAGE after stimulating cells with recombinant S100A8/A9 protein or by increasing cytosolic Ca2+ levels. In summary, our findings show that S100A8 and S100A9 are linked to the activation of important features of prostate cancer cells.     

钙结合蛋白S100A14的结构预测及分析

钙结合蛋白S100A14是S100家族中的新成员,其空间结构与功能尚未阐明。采用服务器PredictProtein对人S100A14进行二级结构预测,利用同源建模法构建S100A14（序列12-102）的空间结构模型,经PROCHECK评估模型的可靠性,并将所构建的单体模型进行分子对接,预测S100A14形成同源二聚体的可能性及模式。结果显示,S100A14与S100A13的蛋白序列一致性最高,其C-端Ca2＋结合区存在多个变异,但Cu2＋和Zn2＋结合位点保守存在;helix I与helix IV较S100A13延伸长,而helix I、helix II和helix IV与S100A13的四个α螺旋一样具有两亲性的结构特征,并且在S100A13中扮演重要角色的W77在S100A14的helix IV（W85）中也保守存在。空间结构上,S100A14与S100A13具极大相似性;分子对接显示S100A14单体间可以通过疏水作用力形成＂X-型螺旋束＂同源二聚体。这些结构特征的分析将为S100A14的功能研究提供重要线索。     

The hetero-oligomeric complex of the S100A8/S100A9 protein is extremely protease resistant

S100A8, S100A9 and S100A12 proteins are associated with inflammation and tissue remodelling, both processes known to be associated with high protease activity. Here, we report that homo-oligomeric forms of S100A8 and S100A9 are readily degraded by proteases, but that the preferred hetero-oligomeric S100A8/A9 complex displays a high resistance even against proteinase K degradation. S100A12 is not as protease resistant as the S100A8/A9 complex. Since specific functions have been assigned to the homo- and heterooligomeric forms of the S100A8 and A9 proteins, this finding may point to a post-translational level of regulation of the various functions of these proteins in inflammation and tissue remodelling.     

Purification and partial characterization of canine S100A12

Canine S100A12 (cS100A12) is a calcium-binding protein of the S100 superfamily of EF-hand proteins, and its expression is restricted to neutrophils and monocytes. Interaction of S100A12 with the receptor for advanced glycation end products (RAGE) has been suggested to play a central role in inflammation. Moreover, S100A12 has been shown to represent a sensitive and specific marker for gastrointestinal inflammation in humans. Only human, porcine, bovine, and rabbit S100A12 have been purified to date, and an immunoassay for the quantification of S100A12 is available only for humans. Therefore, the aim of this study was to develop a protocol for the purification of S100A12 and to partially characterize this protein in the dog (Canis lupus familiaris) as a prelude to the development of an immunologic method for its detection and quantification in canine serum and fecal specimens. Leukocytes were isolated from canine whole blood by dextran sedimentation, and canine S100A12 was extracted from the cytosol fraction of these cells. Further purification of cS100A12 comprised of ammonium sulfate precipitation, hydrophobic interaction chromatography, and strong cation- and anion-exchange column chromatography. Canine S100A12 was successfully purified from canine whole blood. The relative molecular mass of the protein was estimated at 10,379.5 and isoelectric focusing revealed an isoelectric point of 6.0. The approximate specific absorbance of cS100A12 at 280 nm was determined to be 1.78 for a 1 mg/ml solution. The N-terminal AA sequence of the first 15 residues of cS100A12 was Thr-Lys-Leu-Glu-Asp-His-X-Glu-Gly-Ile-Val-Asp-Val-Phe-His, and revealed 100% identity with the predicted protein sequence available through the canine genome project. Sequence homology for the 14 N-terminal residues identified for cS100A12 with those of feline, bovine, porcine, and human S100A12 was 78.6%. We conclude that canine S100A12 can be successfully purified from canine whole blood using the described methods.     

Oncogenic Kras expression in postmitotic neurons leads to S100A8-S100A9 protein overexpression and gliosis

Previous studies suggest that up-regulation of Ras signaling in neurons promotes gliosis and astrocytoma formation in a cell nonautonomous manner. However, the underlying mechanisms remain unknown. To address this question, we generated compound mice (LSL Kras G12D/+;CamKII-Cre) that express oncogenic Kras from its endogenous locus in postmitotic neurons after birth. These mice developed progressive gliosis, which is associated with hyperactivation of Ras signaling pathways. Microarray analysis identified S100A8 and S100A9 as two secreted molecules that are significantly overexpressed in mutant cortices. In contrast to their usual predominant expression in myeloid cells, we found that overexpression of S100A8 and S100A9 in the mutant cortex is primarily in neurons. This neuronal expression pattern is associated with increased infiltration of microglia in mutant cortex. Moreover, purified S100A8-S100A9 but not S100A8 or S100A9 alone promotes growth of primary astrocytes in vitro through both TLR4 and receptor of advanced glycation end product receptors. In summary, our results identify overexpression of S100A8-S100A9 in neurons as an early step in oncogenic Kras-induced gliosis. These molecules expressed in nonhematopoietic cells may be involved in tumorigenesis at a stage much earlier than what has been reported previously.     

Crosslinking of the CD69 molecule enhances S100A9 production in activated neutrophils

Expression of CD69 on neutrophils and generation of anti-CD69 autoantibodies in patients with rheumatoid arthritis (RA) have been reported. Thus natural ligands for CD69 not yet identified and/or the anti-CD69 autoantibodies possibly affect neutrophils by evoking CD69 signaling, which may further affect joint-composing cells in RA. However, the effect of the CD69 signaling in neutrophils remains largely unclear. To elucidate the issue, we tried to identify proteins affected by the crosslinking of CD69 on neutrophils using a proteomic approach. Specifically, CD69 on granulocyte-macrophage colony stimulating factor (GM-CSF)-activated neutrophils was crosslinked by anti-CD69 monoclonal antibodies, and then intracellular proteins were detected using 2-dimensional electrophoresis and further identified by mass spectrometry and subsequent protein database searching. As a result, we successfully identified multiple proteins that increased their production by the CD69 signaling. Among the proteins, we focused on one of the up-regulated proteins, S100A9 calcium binding protein (S100A9), and investigated proteome changes brought by a recombinant S100A9 in a human synovial sarcoma cell line (SW982), a human chondrosarcoma cell line (OUMS-27), and a human T leukemia cell line (Jurkat). This revealed that the recombinant S100A9 altered proteomes of SW982 and OUMS-27, and to a lesser extent, that of the Jurkat cells. Further, S100A9 induced IL-1beta production from neutrophils and the SW982 cells. These data suggest that unidentified natural ligands for CD69 and/or the anti-CD69 autoantibodies possibly affect joint-composing cell types through the increased production of S100A9 in neutrophils, providing a new insight into functions of CD69 on neutrophils in RA.     

S100A8/A9 in COVID-19 pathogenesis: Impact on clinical outcomes

Coronavirus disease 2019 (COVID-19) has a broad range of clinical manifestations, highlighting the need for specific diagnostic tools to predict disease severity and improve patient prognosis. Recently, calprotectin (S100A8/A9) has been proposed as a potential biomarker for COVID-19, as elevated serum S100A8/A9 levels are associated with critical COVID-19 cases and can distinguish between mild and severe disease states. S100A8/A9 is an alarmin that mediates host proinflammatory responses during infection and it has been postulated that S100A8/A9 modulates the cytokine storm; the hallmark of fatal COVID-19 cases. However, it has yet to be determined if S100A8/A9 is a bona-fide biomarker for COVID-19. S100A8/A9 is widely implicated in a variety of inflammatory conditions, such as cystic fibrosis (CF) and chronic obstructive pulmonary disorder (COPD), as well as pulmonary infectious diseases, including tuberculosis and influenza. Therefore, understanding how S100A8/A9 levels correlate with immune responses during inflammatory diseases is necessary to evaluate its candidacy as a potential COVID-19 biomarker. This review will outline the protective and detrimental roles of S100A8/A9 during infection, summarize the recent findings detailing the contributions of S100A8/A9 to COVID-19 pathogenesis, and highlight its potential as diagnostic biomarker and a therapeutic target for pulmonary infectious diseases, including COVID-19.     

S100A9参与乙型肝炎病毒X蛋白介导的HepG2细胞增殖与迁移

目的:探讨S100A9在乙型肝炎病毒X(HBx)介导的HepG2细胞增殖及迁移中的作用。方法:用表达HBx蛋白的重组腺病毒AdHBx感染HepG2细胞后,用CCK-8实验检测细胞增殖能力及划痕愈合实验检测细胞迁移能力;在HepG2/AdHBx细胞中转染S100A9-siRNA及其对照siRNA后,检测HepG2细胞增殖及迁移能力;在HepG2/Ad HBx和对照组HepG2/AdGFP细胞中,采用Real-time PCR及Western Blot检测S100A9基因及蛋白的表达情况;在HepG2/AdHBx细胞中,加入不同剂量的NF-κB抑制剂BAY11-7082后,检测各组中S100A9的基因及蛋白表达情况。结果:HBx促进HepG2细胞的增殖与迁移; S100A9-siRNA抑制S100A9的表达后,HBx促进HepG2细胞的增殖与迁移的作用降低,HBx介导的HepG2细胞的增殖与迁移部分依赖于S100A9; S100A9基因及蛋白表达在HepG2/AdHBx中较对照组HepG2/Ad GFP显著升高,HBx可致S100A9表达增加;抑制NF-κB转录活性后,AdHBx+BAY11-7082组S100A9基因及蛋白表达较对照组显著降低,阻断NF-κB转录活性可部分抑制HBx调控的S100A9表达。结论:HBx可调控S100A9的表达且与NF-κB活化有关,S100A9参与HBx介导的HepG2细胞的增殖与迁移。     

Effects of S100A9 in a rat model of asthma and in isolated tracheal spirals

S100A9 is a member of the S100 family of proteins that contain two EF-hand calcium-binding motifs. We previously reported that S100A9 was differentially expressed during the early airway response phase of asthma and can be regulated by acupuncture. To understand the possible role of S100A9 in asthma, the effects of the S100A9 were investigated in a rat model of asthma and in isolated tracheal spirals. The pulmonary function and isometric tension were measured after the administration of purified recombinant S100A9. The results of in vivo experiments showed that S100A9 (0.1 μg/kg) significantly decreased the pulmonary resistance and increased the dynamic compliance. The in vitro experimental results showed that S100A9 (100, 200, 400, or 800 ng/ml, final concentrations) significantly reduced the isometric tension of isolated tracheal spirals. These results suggest that S100A9 elicits dose-dependent anti-asthmatic effects and may provide further insight into the treatment of asthma.     

S100A8/A9-alarmin promotes local myeloid-derived suppressor cell activation restricting severe autoimmune arthritis

1. Download : Download high-res image (175KB)
2. Download : Download full-size image

     

The expression of S100A8 in pancreatic cancer-associated monocytes is associated with the Smad4 status of pancreatic cancer cells

The cross-talk between tumour cells and the surrounding supporting host cells (stroma) is a key regulator of cancer growth and progression. By undertaking 2-DE analysis of laser capture microdissected malignant and stromal components of pancreatic tumours and benign ductal elements, we have identified high levels of S100A8 and S100A9 in tumour-associated stroma but not in benign or malignant epithelia. Immunohistochemical analysis (n = 71 patients) revealed strong expression of both proteins in stromal myeloid cells, subsequently identified as CD14(+)/CD68(- )monocytes/macrophages. Co-immunofluorescence revealed that S100A8 was expressed in a subset of S100A9-positive cells. Correlation of the expression of S100A8 and S100A9 to patient parameters revealed that the microenvironments of tumours which lacked expression of the tumour suppressor protein, Smad4, had significantly reduced numbers of S100A8-immunoreactive (p = 0.023) but not S100A9-immunoreactive (p = 0.21) cells. The ratio of S100A8- to S100A9-positive cells within individual tumours was significantly lower in Smad4-negative tumours than in Smad4-positive tumours (p<0.003). Pancreatitic specimens also contained S100A8- and S100A9-expressing cells, although this was not observed in regions displaying extensive fibrosis. In conclusion, our study provides an extensive analysis of S100A8 and S100A9 in pancreatic disease and highlights a potentially important relationship between pancreatic cancer cells and their surrounding microenvironment.     

S100A9参与介导具核梭杆菌促结肠癌细胞的增殖与迁移的作用 *

目的:探讨S100A9在具核梭杆菌(Fusobacterium nucleatum,Fn)促结肠癌HCT116和SW480细胞增殖与迁移中的作用。方法:Fn感染HCT116和SW480细胞后,分别采用CCK8实验及Transwell实验检测结肠癌细胞的增殖及迁移能力的变化,采用Real time PCR及Western blot分别检测S100A9基因及蛋白质水平的变化;用S100A9 siRNA转染HCT116和SW480细胞后感染Fn,采用CCK8实验及Transwell实验分别检测两株细胞增殖及迁移能力的变化;利用NF-κB抑制剂BAY 11-7082预处理HCT116和SW480细胞后再感染Fn,采用Real time PCR及Western blot分别检测S100A9基因及蛋白质水平的变化。结果:(1)Fn可促进HCT116和SW480细胞增殖及迁移(P<0.001); (2)Fn感染的HCT116和SW480细胞中S100A9基因及蛋白质水平均较相应对照组明显升高,差异均具有高度显著性(P<0.01或P<0.001),即Fn上调S100A9的表达;(3)用S100A9 siRNA下调HCT116和SW480细胞中S100A9表达后,Fn促进这两株细胞增殖及迁移的作用则明显减弱,差异均具有高度显著性(P<0.001),表明S100A9参与介导Fn的促HCT116和SW480细胞增殖及迁移的作用; (4)在NF-κB通路抑制剂BAY 11-7082预处理的HCT116和SW480细胞组,Fn上调S100A9基因及蛋白质水平的作用明显被逆转,差异均具有高度显著性(P<0.01或P<0.001),表明激活NF-κB转录活性是Fn上调S100A9的机制之一。结论:Fn可上调S100A9表达且与NF-κB活化有关,上调S100A9是Fn促结肠癌细胞增殖及迁移的机制之一。     

Differential behavior between S100A9 and adiponectin in coronary artery disease. Plasma or epicardial fat

Aims

S100A9 is a new inflammatory marker associated with obesity and cardiovascular disease. Because epicardial adipose tissue (EAT) is an inflammatory source in coronary artery disease (CAD), our aim was to evaluate the S100A9 levels in plasma and EAT and its association with CAD.

Main methods

Blood, EAT and/or subcutaneous adipose tissue (SAT) biopsies were obtained from 89 patients undergoing elective cardiac surgery. Plasma S100A9 and adiponectin were analyzed by enzyme-linked immunosorbent assay (ELISA) and mRNA expression in both fat pads and were measured by real-time polymerase chain reaction (PCR).

Key findings

Our results have shown higher levels of plasma S100A9 in patients with CAD than those without (29 [10–50] vs. 17 [3–28] ng/mL; p = 0.007). They were dependent on the number of injured-coronaries (p = 0.002) with tendency toward negative association with plasma adiponectin (p = 0.139). Although EAT expressed higher levels than SAT and their levels were higher in CAD patients, this last difference did not reach statistical significance. However, there was a positive correlation between neutrophils and EAT S100A9 expression (p = 0.007) that may reveal an increase of neutrophil filtration on this fat pad.

Significance

Plasma S100A9 levels are increased in chronic CAD. The absence of differences regarding EAT S100A9 expression levels indicates a differential inflammatory process between fat tissues and blood in CAD process.     

siRNA screening identifies METTL9 as a histidine Nπ-methyltransferase that targets the proinflammatory protein S100A9

Protein methylation is one of the most common post-translational modifications observed in basic amino acid residues, including lysine, arginine, and histidine. Histidine methylation occurs on the distal or proximal nitrogen atom of its imidazole ring, producing two isomers: Nτ-methylhistidine or Nπ-methylhistidine. However, the biological significance of protein histidine methylation remains largely unclear owing in part to the very limited knowledge about its contributing enzymes. Here, we identified mammalian seven-β-strand methyltransferase METTL9 as a histidine Nπ-methyltransferase by siRNA screening coupled with methylhistidine analysis using LC–tandem MS. We demonstrated that METTL9 catalyzes Nπ-methylhistidine formation in the proinflammatory protein S100A9, but not that of myosin light chain kinase MYLK2, in vivo and in vitro. METTL9 does not affect the heterodimer formation of S100A9 and S100A8, although Nπ-methylation of S100A9 at His-107 overlaps with a zinc-binding site, attenuating its affinity for zinc. Given that S100A9 exerts an antimicrobial activity, probably by chelation of zinc essential for the growth of bacteria and fungi, METTL9-mediated S100A9 methylation might be involved in the innate immune response to bacterial and fungal infection. Thus, our findings suggest a functional consequence for protein histidine Nπ-methylation and may add a new layer of complexity to the regulatory mechanisms of post-translational methylation.     

S100 A9 is expressed and secreted by the oviduct epithelium,interacts with gametes and affects parameters of human sperm capacitation in vitro

Our previous findings demonstrate that some oviductal secretion proteins bind to gametes and affect sperm physiology and gamete interaction. One of these proteins possesses an estimated molecular weight of 14 kDa. The objective of this study was to isolate and identify this 14 kDa protein, to localize it in the human oviduct, to detect gamete binding sites for the protein, and to evaluate its effects on sperm capacitation parameters and gamete interaction. Explants from the human oviductal tissues of premenopausal women were cultured in the presence of [³⁵S]-Methionine-proteins ([35S]-Met-proteins). De novo synthesized secreted [³⁵S]-Met-proteins were isolated from the culture media by affinity chromatography using their sperm membrane binding ability and analysed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Using liquid chromatography-tandem mass spectrometry peptide sequencing, human S100 A9 was identified as one of the isolated proteins from the 14 kDa protein band. S100 A9 was detected in oviduct epithelium and oviduct secretion using immunohistochemistry and a Western blot. S100 A9 binding to human oocytes and spermatozoa was assessed by indirect immunofluorescence. The acrosome reaction (AR) affected S100 A9 ability to bind sperm cells. The presence of S100 A9 significantly increased both the induced AR and the sperm protein tyrosine phosphorylation, with respect to controls. However, the protein did not affect sperm-zona pellucida interaction. Results indicate that S100 A9 is present in the human oviduct and that it modulates parameters of sperm capacitation in vitro. Hence, the protein might contribute to the regulation of the reproductive process in the oviductal microenvironment.     

Induction of alarmin S100A8/A9 mediates activation of aberrant neutrophils in the pathogenesis of COVID-19

1. Download : Download high-res image (314KB)
2. Download : Download full-size image

     

Integrated analysis of DNA methylation and gene expression profiles identified S100A9 as a potential biomarker in ulcerative colitis

Ulcerative colitis (UC) is a prevalent relapsing-remitting inflammatory bowel disease whose pathogenetic mechanisms remain elusive. In the present study, colonic biopsies samples from three UC patients treated in the Traditional Chinese Medicine Hospital and three healthy controls were obtained. The genome-wide mRNA and lncRNA expression of the samples were profiled through Agilent gene expression microarray. Moreover, the genome-wide DNA methylation dataset of normal and UC colon tissues was also downloaded from GEO for a collaborative analysis. Differential expression of lncRNA (DELs) and mRNAs (DEMs) in UC samples compared with healthy samples were identified by using limma Bioconductor package. Differentially methylated promoters (DMPs) in UC samples compared with controls were obtained through comparing the average methylation level of CpGs located at promoters by using t-test. Functional enrichment analysis was performed by the DAVID. STRING database was applied to the construction of gene functional interaction network. As a result, 2090 DEMs and 1242 DELs were screened out in UC samples that were closely associated with processes related to complement and coagulation cascades, osteoclast differentiation vaccinia, and hemorrhagic diseases. A total of 90 DEMs and 72 DELs were retained for the construction of functional network for the promoters of their corresponding genes were identified as DMPs. S100A9, HECW2, SOD3 and HIX0114733 showed high interaction degrees in the functional network, and expression of S100A9 was confirmed to be significantly elevated in colon tissues of UC patients compared with that of controls by qRT-PCR that was consistent with gene microarray analysis. These indicate that S100A9 could potentially be used as predictive biomarkers in UC.