口腔白斑抑癌基因DAPK和TIG1高甲基化表达研究

摘要 目的：探讨抑癌基因DAPK、TIG1高甲基化在口腔白斑中表达状态及其对口腔癌发生发展中的作用。方法：取77例口腔白斑、32例口腔鳞癌、32份正常口腔黏膜组织,用实时定量甲基化特异性PCR技术检测组织中DAPK、TIG1高甲基化表达并进行统计学分析。结果：DAPK在口腔鳞癌组织中高甲基化表达率为46.9%,表达量为（0.0728±0.1617）,明显高于其在口腔白斑组织（19.5%,0.0070±0.0172）和口腔正常组织（18.8%,0.0021±0.0050）中的表达,差异有统计学意义（P<0.05）。DAPK高甲基化表达与口腔白斑组织上皮异常增生程度相关,上皮增生高风险组相对于低风险组DAPK高甲基化表达风险增加（OR,1.013;95% CI,1.004-1.023;P=0.004）。TIG1高甲基化在正常组织中未表达,在口腔鳞癌组织和口腔白斑组织表达为（28.1%,0.0174±0.0440）和（27.3%,0.0035±0.0076）,与正常组织相比具有统计学意义（P<0.05）。结论：抑癌基因 DAPK、TIG1高甲基化有望成为口腔黏膜癌变早期标志物。     

CXCR4/CXCL12 在肿瘤中的研究进展

研究表明趋化因子及其受体在胚胎发育、干细胞迁移以及各种免疫反应中发挥重要作用,是许多生理及病理过程中细胞运动的重要因素。趋化因子受体CXCR4是一个由352个氨基酸构成的、7次跨膜的G蛋白偶联受体。趋化因子CXCL12为其特异性受体。研究发现,CXCR4/CXCL12在多种肿瘤中都有表达,在肿瘤的生长、血管生成、转移等方面发挥着重要作用。与正常组织相比,肿瘤组织及转移灶CXCR4高表达。因此,对CXCR4/CXCL12轴在肿瘤病生理中的作用机制进行进一步研究,很可能为肿瘤的治疗及对肿瘤转移的预防提供一个新的思路。我们现在就对其在肿瘤病生理中的作用做一综述。     

MACC1和C-Met在口腔白斑和口腔鳞状细胞癌中的表达及意义

目的:探讨分析MACC1和C-Met在正常口腔黏膜、口腔白斑及口腔鳞状细胞癌中的表达及其临床意义。方法:采用免疫组化SP法检测20例口腔黏膜、20例上皮异常增生白斑、50例口腔鳞癌组织中的MACC1、C-Met蛋白的表达情况,采用X2和spearman等级相关分析对结果进行判定。结果:MACC1、C-Met蛋白在异常增生型白斑和口腔鳞癌中的阳性表达率分别为50%、76%,35%、66%,均明显高于正常口腔黏膜(17.6%,5.0%),差异均有统计学意义(P0.05)。MACC1和C-Met蛋白表达与口腔鳞癌的分期、淋巴结转移及分化程度密切相关(P0.05)。Spearman等级相关分析显示口腔白斑及口腔鳞癌中MACC1和C-Met的表达呈现正相关(P0.05)。结论:MACC1和C-Met在上皮不典型增生性白斑和口腔鳞癌中高表达,二者在口腔黏膜白斑的癌变和口腔鳞癌的发生发展中可能起重要作用。     

Urine metabolite profiling offers potential early diagnosis of oral cancer

Oral cancer is the sixth most common human cancer, with a high morbidity rate and an overall 5-year survival rate of less than 50%. It is often not diagnosed until it has reached an advanced stage. Therefore, an early diagnostic and stratification strategy is of great importance for oral cancer. In the current study, urine samples of patients with oral squamous cell carcinoma (OSCC, n = 37), oral leukoplakia (OLK, n = 32) and healthy subjects (n = 34) were analyzed by gas chromatography-mass spectrometry (GC–MS). Using multivariate statistical analysis, the urinary metabolite profiles of OSCC, OLK and healthy control samples can be clearly discriminated and a panel of differentially expressed metabolites was obtained. Metabolites, valine and 6-hydroxynicotic acid, in combination yielded an accuracy of 98.9%, sensitivity of 94.4%, specificity of 91.4%, and positive predictive value of 91.9% in distinguishing OSCC from the controls. The combination of three differential metabolites, 6-hydroxynicotic acid, cysteine, and tyrosine, was able to discriminate between OSCC and OLK with an accuracy of 92.7%, sensitivity of 85.0%, specificity of 89.7%, and positive predictive value of 91.9%. This study demonstrated that the metabolite markers derived from this urinary metabolite profiling approach may hold promise as a diagnostic tool for early stage OSCC and its differentiation from other oral conditions.     

Involvement of the CXCR7/CXCR4/CXCL12 Axis in the Malignant Progression of Human Neuroblastoma

Neuroblastoma (NB) is a typical childhood and heterogeneous neoplasm for which efficient targeted therapies for high-risk tumors are not yet identified. The chemokine CXCL12, and its receptors CXCR4 and CXCR7 have been involved in tumor progression and dissemination. While CXCR4 expression is associated to undifferentiated tumors and poor prognosis, the role of CXCR7, the recently identified second CXCL12 receptor, has not yet been elucidated in NB. In this report, CXCR7 and CXCL12 expressions were evaluated using a tissue micro-array including 156 primary and 56 metastatic NB tissues. CXCL12 was found to be highly associated to NB vascular and stromal structures. In contrast to CXCR4, CXCR7 expression was low in undifferentiated tumors, while its expression was stronger in matured tissues and specifically associated to differentiated neural tumor cells. As determined by RT-PCR, CXCR7 expression was mainly detected in N-and S-type NB cell lines, and was slightly induced upon NB cell differentiation in vitro. The relative roles of the two CXCL12 receptors were further assessed by overexpressing CXCR7 or CXCR4 receptor alone, or in combination, in the IGR-NB8 and the SH-SY5Y NB cell lines. In vitro functional analyses indicated that, in response to their common ligand, both receptors induced activation of ERK1/2 cascade, but not Akt pathway. CXCR7 strongly reduced in vitro growth, in contrast to CXCR4, and impaired CXCR4/CXCL12-mediated chemotaxis. Subcutaneous implantation of CXCR7-expressing NB cells showed that CXCR7 also significantly reduced in vivo growth. Moreover, CXCR7 affected CXCR4-mediated orthotopic growth in a CXCL12-producing environment. In such model, CXCR7, in association with CXCR4, did not induce NB cell metastatic dissemination. In conclusion, the CXCR7 and CXCR4 receptors revealed specific expression patterns and distinct functional roles in NB. Our data suggest that CXCR7 elicits anti-tumorigenic functions, and may act as a regulator of CXCR4/CXCL12-mediated signaling in NB.     

CXCL12 chemokine and CXCR4 receptor: association with susceptibility and prognostic markers in triple negative breast cancer

CXCL12/CXCR4 signaling has been implicated in breast carcinogenesis, and genetic polymorphisms in these molecules have been associated with different types of cancer. The present study analyzed genetic polymorphisms in CXCL12 (rs1801157, G?>?A) and CXCR4 (rs2228014, C?>?T) and CXCR4 immunostaining in tumor tissues from patients with triple negative breast cancer (TNBC) aiming to evaluate their possible role in its’ susceptibility and prognosis. Genetic polymorphisms were analyzed in 59 TNBC patients and 150 control women; age-adjusted logistic regression showed no association when variants were considered in isolation; however, a statistically significant interaction was noted for heterozygosis for both allelic variants increasing the odds for TNBC (CXCL12-GA by CXCR4-CT: OR 7.23; 95% CI 1.15–45.41; p?=?0.035). CXCL12 polymorphism was correlated negatively with proliferation index (Ki67) (Tau-b?=???0.406; p?=?0.006). CXCR4 immunostaining was evaluated in 37 TNBC patients (22 with paired tumor-normal adjacent tissue). CXCR4 was detected more intensely in cell cytoplasm than in membrane, and was more expressed in tumor than in normal adjacent tissues, although not statistically significant. CXCR4 expression on the membrane of tumor cells was correlated positively with histopathological grade (Tau-b?=?0.271; p?=?0.036) and negatively with lymph node metastasis (Tau-b?=???0.478; p?=?0.036). The present study indicates that CXCL12 and CXCR4 polymorphisms and CXCR4 immunostaining might have susceptibility and prognostic roles in TNBC pathogenesis.     

Differential chemokine responses and homing patterns of murine TCR alpha beta NKT cell subsets

NKT cells play important roles in the regulation of diverse immune responses. Therefore, chemokine receptor expression and chemotactic responses of murine TCRalphabeta NKT cells were examined to define their homing potential. Most NKT cells stained for the chemokine receptor CXCR3, while >90% of Valpha14i-positive and approximately 50% of Valpha14i-negative NKT cells expressed CXCR6 via an enhanced green fluorescent protein reporter construct. CXCR4 expression was higher on Valpha14i-negative than Valpha14i-positive NKT cells. In spleen only, subsets of Valpha14i-positive and -negative NKT cells also expressed CXCR5. NKT cell subsets migrated in response to ligands for the inflammatory chemokine receptors CXCR3 (monokine induced by IFN-gamma/CXC ligand (CXCL)9) and CXCR6 (CXCL16), and regulatory chemokine receptors CCR7 (secondary lymphoid-tissue chemokine (SLC)/CC ligand (CCL)21), CXCR4 (stromal cell-derived factor-1/CXCL12), and CXCR5 (B cell-attracting chemokine-1/CXCL13); but not to ligands for other chemokine receptors. Two NKT cell subsets migrated in response to the lymphoid homing chemokine SLC/CCL21: CD4(-) Valpha14i-negative NKT cells that were L-selectin(high) and enriched for expression of Ly49G2 (consistent with the phenotype of most NKT cells found in peripheral lymph nodes); and immature Valpha14i-positive cells lacking NK1.1 and L-selectin. Mature NK1.1(+) Valpha14i-positive NKT cells did not migrate to SLC/CCL21. BCA-1/CXCL13, which mediates homing to B cell zones, elicited migration of Valpha14i-positive and -negative NKT cells in the spleen. These cells were primarily CD4(+) or CD4(-)CD8(-) and were enriched for Ly49C/I, but not Ly49G2. Low levels of chemotaxis to CXCL16 were only detected in Valpha14i-positive NKT cell subsets. Our results identify subsets of NKT cells with distinct homing and localization patterns, suggesting that these populations play specialized roles in immunological processes in vivo.     

CXCR7 Functions as a Scavenger for CXCL12 and CXCL11

Background

CXCR7 (RDC1), the recently discovered second receptor for CXCL12, is phylogenetically closely related to chemokine receptors, but fails to couple to G-proteins and to induce typical chemokine receptor mediated cellular responses. The function of CXCR7 is controversial. Some studies suggest a signaling activity in mammalian cells and zebrafish embryos, while others indicate a decoy activity in fish. Here we investigated the two propositions in human tissues.

Methodology/Principal Findings

We provide evidence and mechanistic insight that CXCR7 acts as specific scavenger for CXCL12 and CXCL11 mediating effective ligand internalization and targeting of the chemokine cargo for degradation. Consistently, CXCR7 continuously cycles between the plasma membrane and intracellular compartments in the absence and presence of ligand, both in mammalian cells and in zebrafish. In accordance with the proposed activity as a scavenger receptor CXCR7-dependent chemokine degradation does not become saturated with increasing ligand concentrations. Active CXCL12 sequestration by CXCR7 is demonstrated in adult mouse heart valves and human umbilical vein endothelium.

Conclusions/Significance

The finding that CXCR7 specifically scavenges CXCL12 suggests a critical function of the receptor in modulating the activity of the ubiquitously expressed CXCR4 in development and tumor formation. Scavenger activity of CXCR7 might also be important for the fine tuning of the mobility of hematopoietic cells in the bone marrow and lymphoid organs.     

Expression and Functional Heterogeneity of Chemokine Receptors CXCR4 and CXCR7 in Primary Patient-Derived Glioblastoma Cells

Glioblastoma (GBM) is the most common primary brain tumor in adults. The poor prognosis and minimally successful treatments of these tumors indicates a need to identify new therapeutic targets. Therapy resistance of GBMs is attributed to heterogeneity of the glioblastoma due to genetic alterations and functional subpopulations. Chemokine receptors CXCR4 and CXCR7 play important roles in progression of various cancers although the specific functions of the CXCL12−CXCR4−CXCR7 axis in GBM are less characterized. In this study we examined the expression and function of CXCR4 and CXCR7 in four primary patient-derived GBM cell lines of the proliferative subclass, investigating their roles in in vitro growth, migration, sphere and tube formation. CXCR4 and CXCR7 cell surface expression was heterogeneous both between and within each cell line examined, which was not reflected by RT-PCR analysis. Variable percentages of CXCR4+CXCR7− (CXCR4 single positive), CXCR4−CXCR7+ (CXCR7 single positive), CXCR4+CXCR7+ (double positive), and CXCR4−CXCR7− (double negative) subpopulations were evident across the lines examined. A subpopulation of slow cell cycling cells was enriched in CXCR4 and CXCR7. CXCR4+, CXCR7+, and CXCR4+/CXCR7+ subpopulations were able to initiate intracranial tumors in vivo. CXCL12 stimulated in vitro cell growth, migration, sphere formation and tube formation in some lines and, depending on the response, the effects were mediated by either CXCR4 or CXCR7. Collectively, our results indicate a high level of heterogeneity in both the surface expression and functions of CXCR4 and CXCR7 in primary human GBM cells of the proliferative subclass. Should targeting of CXCR4 and CXCR7 provide clinical benefits to GBM patients, a personalized treatment approach should be considered given the differential expression and functions of these receptors in GBM.     

口腔白斑组织癌变标志性基因筛查

口腔黏膜白斑病（oral leukoplakia,OLK）是最常见的口腔粘膜的癌前病变．OLK恶性转化率高达43%,因此加强其风险调查和监测对于该病的预防和治疗具有重要意义．本研究采用美国SuperArray公司的肿瘤基因芯片（OHS-802）检测口腔正常组织、OLK组织和口腔鳞状细胞癌（oral squamous cell carcinoma, OSCC)组织的肿瘤相关基因表达差异,旨在筛查与口腔黏膜白斑病发生和癌变相关的表达阳性基因,为探究OLK的发生及癌变机制奠定基础．将“正常组织→OLK组织→OSCC组织”连续递增2倍以上或递减2倍以上的基因确定为OLK组织癌变的标志性基因．SuperArray基因芯片、RT-PCR法和实时定量PCR结果显示,仅有3个基因（ACP-2、BCL-2、SOCS-3）表达水平连续下调2倍以上,有6个基因（CLK-3、CTNNB-1、FKBP-8、GDF-15、NF-1、XRCC-1）表达连续上调2倍以上．进一步经RT-PCR和实时定量PCR验证,其结果与SuperArray结果一致．本研究结果提示,ACP-2等9个基因可能是口腔正常黏膜组织经OLK转变为癌组织的驱动基因,可作为OLK组织、OSCC组织和口腔正常黏膜组织诊断的分子标志．     

Stimulation of oral fibroblast chemokine receptors identifies CCR3 and CCR4 as potential wound healing targets

The focus of this study was to determine which chemokine receptors are present on oral fibroblasts and whether these receptors influence proliferation, migration, and/or the release of wound healing mediators. This information may provide insight into the superior wound healing characteristics of the oral mucosa. The gingiva fibroblasts expressed 12 different chemokine receptors (CCR3, CCR4, CCR6, CCR9, CCR10, CXCR1, CXCR2, CXCR4, CXCR5, CXCR7, CX3CR1, and XCR1), as analyzed by flow cytometry. Fourteen corresponding chemokines (CCL5, CCL15, CCL20, CCL22, CCL25, CCL27, CCL28, CXCL1, CXCL8, CXCL11, CXCL12, CXCL13, CX3CL1, and XCL1) were used to study the activation of these receptors on gingiva fibroblasts. Twelve of these fourteen chemokines stimulated gingiva fibroblast migration (all except for CXCL8 and CXCL12). Five of the chemokines stimulated proliferation (CCL5/CCR3, CCL15/CCR3, CCL22/CCR4, CCL28/CCR3/CCR10, and XCL1/XCR1). Furthermore, CCL28/CCR3/CCR10 and CCL22/CCR4 stimulation increased IL‐6 secretion and CCL28/CCR3/CCR10 together with CCL27/CCR10 upregulated HGF secretion. Moreover, TIMP‐1 secretion was reduced by CCL15/CCR3. In conclusion, this in‐vitro study identifies chemokine receptor‐ligand pairs which may be used in future targeted wound healing strategies. In particular, we identified the chemokine receptors CCR3 and CCR4, and the mucosa specific chemokine CCL28, as having an predominant role in oral wound healing by increasing human gingiva fibroblast proliferation, migration, and the secretion of IL‐6 and HGF and reducing the secretion of TIMP‐1.     

Inhibitory effects of anti-CXCR4 antibodies on human colon cancer cells

Background: CXCR4, the chemokine receptor for CXCL12, has recently been involved in the metastatic process of several neoplasms. Materials and methods: The expression of CXCR4 was evaluated by immunohistochemistry of colorectal tissue samples and by flow cytometry on Caco2, GEO, SW480, SW48, Lovo and SW620 human colon carcinoma cell lines. Correlations with pathological characteristics of the specimens were analysed with chi-square test. To verify the functional status of CXCR4, cell lines were tested in adhesion, migration, and proliferation assays. Results: We studied the expression of CXCR4 in 88 human colorectal tissues and we found that CXCR4 was expressed in >10% of epithelial cells in 50% of normal mucosae (7/14), in 55% of polyps (29/53), in all of carcinomas (16/16) and hepatic metastasis (5/5). Notably, CXCR4 was significantly over-expressed in cancerous lesions (carcinomas and metastasis) compared to non-cancerous lesions (normal mucosa and polyps) (P=0.003) and in adenomatous polyps versus hyperplastic polyps (P=0.009). The diameter of a polyp was also significantly associated with CXCR4 expression (P=0.031). SW480, SW48 and SW620 cell lines showed the highest levels of CXCR4 (60–80% of positive cells). Adhesion, migration, and proliferation increased in response to the CXCL12 chemokine. These effects were abrogated by the addition of anti-CXCR4 antibodies. Further, CXCL12 activated ERK1/2 in SW480 cells. Conclusions: These data suggest that CXCR4 might play a role in colon cancer cell properties and that anti-CXCR4 antibodies could have therapeutic effects against colorectal cancer.Partially presented at the 94th Annual Meeting of the American Association for Cancer Research, Washington, DC, 11–14 July 2003 (abstract LB-132).     

The peculiarities of the SDF-1/CXCL12 system: in some cells,CXCR4 and CXCR7 sing solos,in others,they sing duets

The chemokine SDF-1/CXCL12 induces and modulates major steps of ontogenesis, regeneration and tumorigenesis. Depending on the organ or tissue, CXCL12 serves as a proliferation or cell survival factor, influences differentiation, induces adhesion and/or regulates cell migration. These functions are mediated by the two chemokine receptors, CXCR4 and CXCR7. Whereas CXCR4 is still viewed as the sole G-protein-activating and, hence, signaling receptor for CXCL12, CXCR7 is regarded as a non-classic scavenging or decoy receptor that modulates the function of CXCR4. However, this view might be too limited, since evidence has accumulated favoring a cell-type-specific mode of CXCL12 signaling. In addition to the “classic” CXCL12 signaling mode via CXCR4, CXCR4 and CXCR7 have to form a receptor unit for successful CXCL12 signaling in some cells. Moreover, examples exist whereby CXCL12 receptors split functions or switch roles, such that CXCR7 (instead of CXCR4) mediates signal transduction. The obvious lack of a universal mode of CXCL12 signaling urges a re-evaluation of the role of this chemokine in development, health and disease. This review depicts the exceptional characteristics of CXCL12-induced signal transduction in various cells and organs, points out remaining controversies and mentions consequences for therapeutic interventions.     

Chemokine receptor trio: CXCR3, CXCR4 and CXCR7 crosstalk via CXCL11 and CXCL12

Although chemokines are well established to function in immunity and endothelial cell activation and proliferation, a rapidly growing literature suggests that CXC Chemokine receptors CXCR3, CXCR4 and CXCR7 are critical in the development and progression of solid tumors. The effect of these chemokine receptors in tumorigenesis is mediated via interactions with shared ligands I-TAC (CXCL11) and SDF-1 (CXCL12). Over the last decade, CXCR4 has been extensively reported to be overexpressed in most human solid tumors and has earned considerable attention toward elucidating its role in cancer metastasis. To enrich the existing armamentarium of anti-cancerous agents, many inhibitors of CXCL12–CXCR4 axis have emerged as additional or alternative agents for neo-adjuvant treatments and even many of them are in preclinical and clinical stages of their development. However, the discovery of CXCR7 as another receptor for CXCL12 with rather high binding affinity and recent reports about its involvement in cancer progression, has questioned the potential of “selective blockade” of CXCR4 as cancer chemotherapeutics. Interestingly, CXCR7 can also bind another chemokine CXCL11, which is an established ligand for CXCR3. Recent reports have documented that CXCR3 and their ligands are overexpressed in different solid tumors and regulate tumor growth and metastasis. Therefore, it is important to consider the interactions and crosstalk between these three chemokine receptors and their ligand mediated signaling cascades for the development of effective anti-cancer therapies. Emerging evidence also indicates that these receptors are differentially expressed in tumor endothelial cells as well as in cancer stem cells, suggesting their direct role in regulating tumor angiogenesis and metastasis. In this review, we will focus on the signals mediated by this receptor trio via their shared ligands and their role in tumor growth and progression.     

CXCR7 的生物学功能及其在肿瘤发生发展中的 作用研究进展

趋化因子受体是一类G 蛋白偶联的7 次跨膜受体,其与配体结合能参与调控多种生理和病理学过程。以往,CXCR4 一直被认为 是趋化因子CXCL12 的唯一受体。然而近年来的研究表明CXCL12 能与另一种新受体CXCR7 结合,并在调控肿瘤转移、血管生成和细 胞粘附等方面起着重要作用,CXCR7 由此成为肿瘤治疗的潜在靶点。介绍CXCR7 的结构、生物学功能以及CXCR7 在肿瘤发生发展中 的作用。     

Cutting edge: profile of chemokine receptor expression on human plasma cells accounts for their efficient recruitment to target tissues

We systematically examined the repertoire of chemokine receptors expressed by human plasma cells. Fresh bone marrow plasma cells and myeloma cells consistently expressed CXCR4, CXCR6, CCR10, and CCR3. Accordingly, plasma cells responded to their respective ligands in chemotaxis and very late Ag-4-dependent cell adhesion to fibronectin. Immobilized CXC chemokine ligand (CXCL)16, a novel transmembrane-type chemokine and CXCR6 ligand, also directly induced adhesion of plasma cells without requiring G(alpha i) signaling or divalent cations. Furthermore, we revealed consistent expression of CXCL12 (CXCR4 ligand), CXCL16 (CXCR6 ligand), and CC chemokine ligand 28 (CCR10 and CCR3 ligand) in tissues enriched with plasma cells including bone marrow, and constitutive expression of CXCL12, CXCL16, and CC chemokine ligand 28 by cultured human bone marrow stromal cells. Collectively, plasma cells are likely to be recruited to bone marrow and other target tissues via CXCR4, CXCR6, CCR10, and CCR3. CXCR6 may also contribute to tissue localization of plasma cells through its direct binding to membrane-anchored CXCL16.     

Quantitative Risk Stratification of Oral Leukoplakia with Exfoliative Cytology

Exfoliative cytology has been widely used for early diagnosis of oral squamous cell carcinoma (OSCC). Test outcome is reported as “negative”, “atypical” (defined as abnormal epithelial changes of uncertain diagnostic significance), and “positive” (defined as definitive cellular evidence of epithelial dysplasia or carcinoma). The major challenge is how to properly manage the “atypical” patients in order to diagnose OSCC early and prevent OSCC. In this study, we collected exfoliative cytology data, histopathology data, and clinical data of normal subjects (n=102), oral leukoplakia (OLK) patients (n=82), and OSCC patients (n=93), and developed a data analysis procedure for quantitative risk stratification of OLK patients. This procedure involving a step called expert-guided data transformation and reconstruction (EdTAR) which allows automatic data processing and reconstruction and reveals informative signals for subsequent risk stratification. Modern machine learning techniques were utilized to build statistical prediction models on the reconstructed data. Among the several models tested using resampling methods for parameter pruning and performance evaluation, Support Vector Machine (SVM) was found to be optimal with a high sensitivity (median>0.98) and specificity (median>0.99). With the SVM model, we constructed an oral cancer risk index (OCRI) which may potentially guide clinical follow-up of OLK patients. One OLK patient with an initial OCRI of 0.88 developed OSCC after 40 months of follow-up. In conclusion, we have developed a statistical method for qualitative risk stratification of OLK patients. This method may potentially improve cost-effectiveness of clinical follow-up of OLK patients, and help design clinical chemoprevention trial for high-risk populations.     

In vitro characterization and inhibition of the CXCR4/CXCL12 chemokine axis in human uveal melanoma cell lines

Purpose  

The CXCR4/CXCL12 chemokine axis may play a critical role in guiding CXCR4+ circulating malignant cells to organ specific locations that actively secrete its ligand CXCL12 (SDF-1) such as bone, brain, liver, and lungs. We sought to characterize the presence of the CXCR4/CXCL12 axis in five uveal melanoma (UM) cell lines in vitro. The ability of TN14003, a synthetic peptide inhibitor that targets the CXCR4 receptor complex, to inhibit this axis was also assessed.