Expression of vascular endothelial growth factor C in human pterygium

Vascular endothelial growth factor C (VEGF-C) and its receptor VEGFR-3 mediate lymphangiogenesis. In this study, we analyzed the expression of VEGF-C and VEGFR-3 as well as lymphatic vessels in the pterygium and normal conjunctiva of humans. Fifteen primary nasal pterygia and three normal bulbar conjunctivas, surgically removed, were examined in this study. The lymphatic vessel density (LVD) and blood vessel density were determined by the immunolabeling of D2-40 and CD31, markers for lymphatic and blood vessels, respectively. VEGF-C and VEGFR-3 expression in pterygial and conjunctival tissue proteins was detected by Western blotting and were evaluated using immunohistochemistry. The LVD was significantly higher in the pterygium than normal conjunctiva (p < 0.05). Western blot demonstrated high-level expression of VEGF-C and VEGFR-3 in the pterygium compared with normal conjunctiva. VEGF-C immunoreactivity was detected in the cytoplasm of pterygial and normal conjunctival epithelial cells. The number of VEGF-C-immunopositive cells in pterygial epithelial cells was significantly higher than in normal conjunctival cells (p < 0.05). VEGFR-3 immunoreactivity was localized in the D2-40-positive lymphatic endothelial cells. The present findings suggest the potential role of VEGF-C in the pathogenesis and development of a pterygium through lymphangiogenesis and the VEGF-C/VEGFR-3 pathway as a novel therapeutic target for the human pterygium.     

SERPINA3K Plays Antioxidant Roles in Cultured Pterygial Epithelial Cells through Regulating ROS System

We recently demonstrated that SERPINA3K, a serine proteinase inhibitor, has antioxidant activity in the cornea. Here we investigated the antioxidant effects of SERPINA3K on the pterygial, which is partially caused by oxidative stress in pathogenesis. The head part of primary pterygial tissue was dissected and then cultured in keratinocyte serum-free defined medium (KSFM). The cultured pterygial epithelial cells (PECs) were treated with SERPINA3K. The cell proliferation and migration of PECs were measured and analyzed. Western blot and quantitative real-time polymerase chain reaction (PCR) assay were performed. It showed that SERPINA3K significantly suppressed the cell proliferation of PECs in a concentration-dependent manner, compared with cultured human conjunctival epithelial cells. SERPINA3K also inhibited the cell migration of PECs. Towards its underlying mechanism, SERPINA3K had antioxidant activities on the PECs by significantly inhibiting NADPH oxidase 4 (NOX4), which is an important enzyme of ROS generation, and by elevating the levels of key antioxidant factors of ROS: such as NAD(P)H dehydrogenase (quinone 1) (NQO1), NF-E2–related factor-2 (NRF2) and superoxide dismutases (SOD2). Meanwhile, SERPINA3K down-regulated the key effectors of Wnt signaling pathway: β-catenin, nonphospho-β-catenin, and low-density lipoprotein receptor-related protein 6 (LRP6). We provided novel evidence that SERPINA3K had inhibitory effects on pterygium and SERPINA3K played antioxidant role via regulating the ROS system and antioxidants.     

Interaction of extracellular S100A4 with RAGE prompts prometastatic activation of A375 melanoma cells

S100A4, a member of the S100 protein family of EF‐hand calcium‐binding proteins, is overexpressed in various tumour entities, including melanoma, and plays an important role in tumour progression. Several studies in epithelial and mesenchymal tumours revealed a correlation between extracellular S100A4 and metastasis. However, exact mechanisms how S100A4 stimulates metastasis in melanoma are still unknown. From a pilot experiment on baseline synthesis and secretion of S100A4 in human melanoma cell lines, which are in broad laboratory use, A375 wild‐type cells and, additionally, newly generated A375 cell lines stably transfected with human S100A4 (A375‐hS100A4) or human receptor for advanced glycation endproducts (A375‐hRAGE), were selected to investigate the influence of extracellular S100A4 on cell motility, adhesion, migration and invasion in more detail. We demonstrated that A375 cells actively secrete S100A4 in the extracellular space via an endoplasmic reticulum‐Golgi‐dependent pathway. S100A4 overexpression and secretion resulted in prometastatic activation of A375 cells. Moreover, we determined the influence of S100A4‐RAGE interaction and its blockade on A375, A375‐hS100A4, A375‐hRAGE cells, and showed that interaction of RAGE with extracellular S100A4 contributes to the observed activation of A375 cells. This investigation reveals additional molecular targets for therapeutic approaches aiming at blockade of ligand binding to RAGE or RAGE signalling to inhibit melanoma metastasis.     

Presence of IFN-gamma and IL-4 in human periapical granulation tissues and regeneration tissues.

To study mediators associated with the progression of disease and the process of bone regeneration in human apical periodontitis, we examined samples of periapical granulation tissues and regeneration tissues obtained from five patients by use of immunohistochemical methods. Periapical granulation tissues were found to contain a large number of CD4-positive T cells and CD68-positive monocytes/macrophages (CD4: 35.2%, CD68: 32.7%). The CD4-positive T cells and CD68-positive monocytes/macrophages were predominantly present in regeneration tissues (CD4: 62.1%, CD68: 16.0%). In these the percentages of CD4-positive T cells were higher as compared with periapical granulation tissues (from 35.2% to 62.1%). In periapical granulation tissues, CD4-positive T cells stained positively for interferon-gamma (IFN-gamma) and negatively for interleukin-4 (IL-4). In regeneration tissues, IL-4-producing cells could be detected. However, IFN-gamma-producing cells could not be detected. These results suggest that IFN-gamma and IL-4 may modulate the pathogenesis of infectious disease and the process of bone regeneration in local inflammation sites such as human apical periodontitis.     

S100a0 (alpha alpha) protein in cardiac muscle. Isolation from human cardiac muscle and ultrastructural localization

S100 protein, an acidic and calcium-binding protein, was believed to be localized in the nervous tissue, but recently it has been reported to be mainly present in the cardiac and the skeletal muscles of various mammals in the alpha alpha form (S100a0) at much higher levels than the nervous tissues. We isolated here S100 protein from human cardiac muscles. The isolated cardiac muscle S100 protein showed a single band on electrophoresis at the same position as that of human skeletal muscle S100a0. The amino acid composition of the purified S100 protein was quite similar to that of human skeletal muscle S100a0 or bovine brain S100a0. The immunohistochemical study by use of antibodies monospecific to the alpha subunit of S100 protein (S100-alpha) revealed that S100-alpha was strongly labeled in human myocardial cells, whereas the beta subunit of S100 protein (S100-beta) was not detected in the cells. These results suggest that a predominant form of S100 protein in human myocardial cells is not S100a (alpha beta) or S100b (beta beta), but S100a0 (alpha alpha). In order to determine the ultrastructural localization of S100a0 in mouse cardiac muscle, the direct peroxidase-labeled antibody method was employed. S100a0 was mainly localized in the polysomes in the interfibrillar spaces, the fine filamentous structure of the Z line and fascia adherens of the intercalated disc and in the lumen of junctional sarcoplasmic reticulum.     

Comparative analysis of CD1a, S-100, CD83, and CD11c human dendritic cells in normal, premalignant, and malignant tissues

A number of antibodies that recognize human dendritic cells (DC) have been identified. The main aim of this study was to compare and contrast different antigen retrieval techniques using both enzymatic and non-enzymatic treatments in order to determine the expression and distribution of several DC markers on formalin-fixed, paraffin-embedded tissues. Normal human lung, oral epithelial hyperplasia lesions, oral squamous cell carcinoma, and prostate adenocarcinoma tissues were evaluated using a panel of DC specific antibodies. The results of immunohistochemical staining for CD83, CD1a, CD11c, and S-100 DC markers were compared following the different antigen retrieval approaches. The overall best results for the analysis of tumor-associated DC were obtained with the enzymatic methods. Protease XXIV digestion was determined to be essential for detection of S-100 and CD11c positive DC, whereas trypsin and pepsin were required for the recognition of CD1a and CD83 expressing tumor-associated DC. These results could be easily adapted for routine practice and should be useful for characterization of the DC system in cancer patients for both diagnostic and prognostic purposes. In addition, standardized procedures for evaluating different subpopulations of tumor-associated DC should bring new insights in understanding of DC-tumor cell interaction.     

Demonstration of Heterodimer Formation between S100B and S100A6 in the Yeast Two-Hybrid System and Human Melanoma

S100B (S100β) and S100A6 (calcyclin) are two 10-kDa Ca²⁺- and Zn²⁺-binding proteins coexpressed in melanoma and cell-cycle regulated. These proteins are members of the S100 subfamily and are thought to exert their function through interaction with intracellular target proteins. In order to search for potential target proteins interacting with S100B, we used a yeast two-hybrid strategy with human S100B as bait to screen a human brain cDNA library. The fusion proteins interacting with the S100B bait were identified as S100B, S100A1, and S100A6. This indicates the potential of S100B to form homodimers and heterodimers with other members of the S100 subfamily. By Northern and Western blotting, S100B and S100A6 were shown to be expressed at high levels in a panel of human melanoma cell lines. S100B and S100A6 were coimmunoprecipitated from melanoma cell lysates in the presence of 100 μM Zn²⁺. Confocal microscopy demonstrated that both proteins were distributed throughout the cytoplasm and concentrated in the nucleus. The demonstration of an association and colocalization of S100B and S100A6 in melanoma supports the possibility that an S100B/S100A6 heterodimer plays a functional role in these cells.     

Recombinant transmembrane CD59 (CD59-TM) confers complement resistance to GPI-anchored protein defective melanoma cells.

Protectin (CD59) is a glycosylphosphatidylinositol (GPI)-anchored cell membrane glycoprotein, broadly expressed on melanocytic cells, that represents the main restriction factor of complement (C)-mediated lysis of human melanoma cells. Levels of CD59 expression may impair the clinical efficacy of C-activating monoclonal antibodies (mAb); thus, we investigated the molecular mechanisms underlying the lack of CD59 expression in selected melanoma cells. Serological and biochemical analyses showed that MeWo melanoma cells expressed CD59 neither at cell surface nor at cytoplasmic levels; however, no critical mutations were identified in their CD59 mRNA. Consistently, MeWo CD59 cDNA (MeWo-CD59) was appropriately translated when transfected into the CD59-positive Mel 100 melanoma cells, and into the CD59-negative Nalm-6 pre-B leukemia cells that acquired resistance to C. In contrast, transfection of MeWo cells with CD59 cDNA from Mel 275 melanoma cells did not induce CD59 expression; however, their transfection with the CD59-TM chimeric construct, obtained by replacing the GPI-anchoring signal of MeWo-CD59 with the transmembrane tail of the human low-density lipoprotein receptor, induced the expression of a C-protective transmembrane form of CD59. These data, together with the absent expression of additional GPI-anchored proteins (i.e., CD55), suggest that defects in the biosynthesis and/or processing of GPI-anchored proteins underlie the lack of CD59 expression in MeWo cells. Further unveiling of the molecular mechanism that turns off CD59 expression in human melanoma cells will help to set-up more effective therapeutic strategies utilizing C-activating mAb in melanoma patients.     

Identification of a MHC class II-restricted human gp100 epitope using DR4-IE transgenic mice

CD4+ T cells play a central role in the induction and persistence of CD8+ T cells in several models of autoimmune and infectious disease. To improve the efficacy of a synthetic peptide vaccine based on the self-Ag, gp100, we sought to provide Ag-specific T cell help. To identify a gp100 epitope restricted by the MHC class II allele with the highest prevalence in patients with malignant melanoma (HLA-DRB1*0401), we immunized mice transgenic for a chimeric human-mouse class II molecule (DR4-IE) with recombinant human gp100 protein. We then searched for the induction of CD4+ T cell reactivity using candidate epitopes predicted to bind to DRB1*0401 by a computer-assisted algorithm. Of the 21 peptides forecasted to bind most avidly, murine CD4+ T cells recognized the epitope (human gp10044-59, WNRQLYPEWTEAQRLD) that was predicted to bind best. Interestingly, the mouse helper T cells also recognized human melanoma cells expressing DRB1*0401. To evaluate whether human CD4+ T cells could be generated from the peripheral blood of patients with melanoma, we used the synthetic peptide h-gp10044-59 to sensitize lymphocytes ex vivo. Resultant human CD4+ T cells specifically recognized melanoma, as measured by tumor cytolysis and the specific release of cytokines and chemokines. HLA class II transgenic mice may be useful in the identification of helper epitopes derived from Ags of potentially great clinical utility.     

CD44 glycoprotein as a prognostic factor in laryngeal cancer

An association between cell adhesion molecules expression in neoplastic tissues and cancer progression has been the focus of many recent studies. In certain tumours down-regulation of CD44 expression has been linked to the poor prognosis. The aim of the study was to evaluate CD44 expression and to determine the correlation between CD44 expression and the clinicopathological features of laryngeal cancer. The group consisted of 80 patients with primary laryngeal cancer. Tissue samples were taken from removed tumour mass during surgical treatment, CD44 expression was assessed by immunohistochemical method. The down-regulation of CD44 expression significantly correlated with a shorter disease-free survival (p<0.05). Our results suggest that CD44 expression may be useful as a prognostic marker in laryngeal cancer.     

Proliferative and migratory aptitude in pterygium

Pterygium is a chronic fibrovascular overgrowth on the corneal surface and is often associated with inflammation, astigmatism and obstructed vision. The common treatment is surgical removal but post-operative recurrences with more aggressive behavior are common. However, there is a controversy in the pathogenesis of primary pterygium between limbal stem cell failure versus proliferation. In this study, we explore the proliferative and migratory aptitude in pterygium by characterizing the growth and migration pattern of pterygial cells in the head (on the cornea), the neck (over the focal limbus), and the body (on the conjunctiva) epithelia of 12 full-length primary pterygia. Immunofluorescence and quantification analyses showed a spatial expression pattern of markers for stem cells, cell growth, and matrix metalloproteinases. Beside the basal epithelia in all three regions, p63α^strong cells were located in suprabasal layers in head, weak in the body and absent in neck. Pertinent cell proliferation in head than body epithelia was revealed by its higher colony-forming efficiency. ATP-binding cassette transporter glycoprotein family member-2 and cytokeratin-15 were found mainly in the body basal epithelia, similar to that in normal conjunctiva. Much fewer proliferating stem-like cells in the neck region supported the limbal failure as a cause of pterygium formation. Pax6, matrix metalloproteinase-2 and -9 were more expressed in the head than in the other two regions. Our results indicate the importance of pterygium head in tissue growth and invasion and its likely involvement in post-operation recurrence.     

HER2阳性乳腺癌中CD44v6的表达与曲妥珠单抗耐药的关系

目的：探讨曲妥珠单抗在治疗HER2阳性的转移性乳腺癌时,产生耐药性与CD44v6表达的相关性。方法：共66例HER2阳性转移性乳腺癌患者入组。接受曲妥珠单抗治疗的患者37例,其中18例获得了治疗前和治疗后转移性癌组织。采用免疫组化S-P法对治疗前、治疗后的不同乳腺组织进行CD44v6表达的研究。结果：CD44v6在经曲妥珠单抗治疗产生耐药的活检组织中阳性表达程度明显高于治疗前。结论：CD44v6的表达与曲妥珠单抗耐药相关。     

Galectin-7、S100A9、NMP238在放疗敏感性不同宫颈癌组织中的表达及意义

目的:观察S100A9、Galectin7、NMP238在放疗敏感性不同宫颈癌组织中的表达及意义。方法:收集治疗前宫颈癌组织标本,病理诊断均为中分化鳞癌,在进行放疗后,根据WHO实体瘤放疗疗效判断标准,从中选择60例对放疗敏感的病例(高敏感组)和35例对放疗不敏感的病例(低敏感组),应用免疫组织化学方法检测组织中这些蛋白的表达。结果:免疫组化结果显示S100A9、Galectin7的表达强度和表达率在高敏感组中均高于低敏感组,NMP238在低敏感组中的表达强度及表达率高于高敏感组。结论:S100A9、Galectin7和NMP238与宫颈癌放疗敏感性有关。     

Comparative Histopathology of Grey‐Horse‐Melanoma and Human Malignant Melanoma

Equine melanoma shows striking features particularly with regard to clinical development in grey horses: in contrast to malignant melanoma in humans and in solid coloured horses that are characterized by early onset of metastasis, pigment cell tumours display almost benign clinical features in ageing grey horses. Through evolution, grey horses appear to be in a favourable position in regard to the biological behaviour of melanomas. Yet unknown factors inhibiting or retarding early melanoma metastasis may be responsible for this phenomenon. In this study, immunostaining profiles and histopathologic patterns of equine vs. human melanotic tumours were compared. In addition, the expression of melanoma markers currently used in human melanoma detection and characterization were evaluated for their applicability in equine melanoma diagnosis. Immunohistopathologic investigations revealed that benign grey horse melanomas share common features with human blue nevi and with human malignant desmoplastic melanomas, whereas their resemblance to other types of human cutaneous malignant melanomas is less pronounced. Our data equally underline that S‐100, proliferating cell nuclear antigen (PCNA), HMB‐45, Ki‐67, T‐311 and CD44 can serve as reliable markers for horse melanomas. Further investigations aiming at identifying factors retarding metastasis in affected grey horses are needed, as they may contribute to the development of novel treatment strategies for human malignant melanoma.     

HER2阳性乳腺癌中CD44v6的表达与曲妥珠单抗耐药的关系

目的:探讨曲妥珠单抗在治疗HER2阳性的转移性乳腺癌时,产生耐药性与CD44v6表达的相关性。方法:共66例HER2阳性转移性乳腺癌患者入组。接受曲妥珠单抗治疗的患者37例,其中18例获得了治疗前和治疗后转移性癌组织。采用免疫组化S-P法对治疗前、治疗后的不同乳腺组织进行CD44v6表达的研究。结果:CD44v6在经曲妥珠单抗治疗产生耐药的活检组织中阳性表达程度明显高于治疗前。结论:CD44v6的表达与曲妥珠单抗耐药相关。     

The normalization of gene expression data in melanoma: investigating the use of glyceraldehyde 3-phosphate dehydrogenase and 18S ribosomal RNA as internal reference genes for quantitative real-time PCR

We examined a panel of 26 melanoma and fibroblast samples (tissues and cultured cells) to evaluate the suitability of two commonly used housekeeping genes, glyceraldehyde 3-phosphate dehydrogenase (GAPDH) and 18S ribosomal RNA (rRNA), for quantitative real-time PCR. Both genes showed significant variations within the individual cell line and tissue groups. Although no overall trends were observed in the expression of the 18S rRNA, GAPDH was up-regulated in melanoma tissue and cultured cells compared with the corresponding normal samples. In melanoma and fibroblast cell lines and tissues, absolute quantification appears to be more appropriate than normalizing messenger RNA (mRNA) expression via GAPDH or 18S rRNA housekeeping genes.     

Induction and large-scale expansion of CD8+ tumor specific cytotoxic T lymphocytes from peripheral blood lymphocytes by in vitro stimulation with CD80-transfected autologous melanoma cells.

Human melanoma cell lines may induce a specific T cell response against tumor cells in vitro. However, after repeated restimulation with autologous tumor cells, expansion of CTL is limited and often apoptosis of the T cells occurs. In order to improve conditions inducing primary T cell responses and thus allowing further expansion of tumor specific T cells for an adoptive transfer, we transfected human melanoma cells with the B7.1 gene (CD80), known to be a potent costimulatory molecule for T cell activation. CD80 expression on melanoma cells resulted in improved primary T cell activation, especially of CD8+ T cells. Furthermore, restimulation with CD80+ tumor cells gave rise to long term proliferating CD8+ T cell lines demonstrating an 100-fold expansion of T cells compared to the 20-30-fold increased numbers obtained with the controls (parental tumor cells +/- anti-CD28). T cells stimulated with CD80+ melanoma cells were found to display a MHC class I-restricted cytotoxic activity against the autologous tumor cells. In conclusion, these studies demonstrate the requirement of costimulation in generating large numbers of tumor specific T cells in vitro that may be used for an adoptive transfer in tumor immunotherapy.     

Natural killer (NK) activity of cultured S100 beta-positive T-leukemia cells

In order to clarify the function of human S100 beta-positive T-cells, S100 beta-positive T-leukemia cells (S100 beta TLC) were examined in vitro. S100 beta TLC were obtained from the peripheral blood of a patient with S100 beta-positive T-cell leukemia and enriched by an E-rosetting method. Two dimensional flow cytometric analysis indicated that the vast majority of the E-positive fraction were S100 beta TLC expressing CD3 and CD8 antigens. Although S100 beta TLC expressed CD3 antigen, they were negative for the alpha/beta and gamma/delta T-cell antigen receptor (TCR) defined by monoclonal antibodies (mabs) WT-31 and delta TCS-1, respectively. It was speculated that S100 beta TLC initially expressed alpha/beta TCR but lost it during malignant transformation. When S100 beta TLC were cultured for 24 h, they acquired cytotoxic activity towards various NK-sensitive cell lines including K-562, Molt-3 and CEM-CCLF, but did not exhibit lysing activity towards NK-resistant cell lines including Raji, Daudi and MT-1. Despite the NK-activity of cultured S100 beta TLC, they lacked the morphological features of large granular lymphocytes (LGL). S100 beta TLC did not exhibit lymphokine-activated killer (LAK) activity. When S100 beta TLC were cocultivated with NK-sensitive cells or NK-resistant cells, they selectively bound to NK-sensitive cells, indicating that they lysed target cells by cell-to-cell contact. The finding that S100 beta TLC lacked TCR molecules and their NK activity was not inhibited by mabs reactive with the CD3-TCR complex indicated that the CD3-TCR complex was not involved in their target recognition.(ABSTRACT TRUNCATED AT 250 WORDS)     

Human S100A11 exhibits differential steady-state RNA levels in various tissues and a distinct subcellular localization.

In order to analyze the steady-state RNA levels of S100A11 in different tissues, a cDNA fragment of human S100A11 was isolated from a cDNA library. The obtained fragment was labeled and hybridized to RNA isolated from various tissues. The Northern blot analysis revealed that S100A11 RNA levels varied from high in placenta, through intermediate in heart, lung, kidney, and most muscle samples, to barely detectable in brain. An efficient purification method for recombinant S100A11 yielding high quantities was developed. Furthermore, to examine the subcellular localization of this protein, the human polypeptide S100A11 antibodies were raised in rabbit. S100A11 was found to have a localization distinct from other S100 proteins examined, and is mostly localized in the nucleus, with slight variations among different glioblastoma cell types.