Many studies detect elevated numbers of mast cells in tumors, but it is still controversial whether they are beneficial or detrimental for tumor cells. Furthermore, many tumors, such as melanomas, produce large quantities of transforming growth factor (TGF)-beta and during tumorigenesis the apoptotic and growth-inhibitory effects of TGF-betas are lost. Based on these data we investigated the gene expression changes in TGF-betaI-treated human mast cells with DNA microarray and detected 45 differentially regulated genes, among them T-cell immunoglobulin and mucin domain-containing protein 3 (TIM-3). As the major sources of TIM-3 ligand galectin-9 are not tumor cells, but rather mast cells, this raises the possibility of an autocrine mechanism resulting in local immunosuppression through the elevated TIM-3 expression by TGF-betaI. Interestingly, not only melanoma tissue sections contained TIM-3-positive mast cells, but we detected this protein also in melanoma cells. Furthermore, TIM-3 was expressed in both WM35 and HT168-M1 melanoma cell lines at a higher level than in isolated epidermal melanocytes, which can contribute to the lower adhering capacity of tumor cells. In conclusion, the immunoregulatory molecule TIM-3 in TGF-beta-stimulated mast cells and melanoma cells may support the survival of this tumor type.
Recent reports postulate that the dual oxidase (DUOX) proteins function as part of a multicomponent oxidative pathway used by the respiratory mucosa to kill bacteria. The other components include epithelial ion transporters, which mediate the secretion of the oxidizable anion thiocyanate (SCN(-)) into airway surface liquid, and lactoperoxidase (LPO), which catalyzes the H(2)O(2)-dependent oxidation of the pseudohalide SCN(-) to yield the antimicrobial molecule hypothiocyanite (OSCN(-)). We hypothesized that this oxidative host defense system is also active against respiratory viruses. We evaluated the activity of oxidized LPO substrates against encapsidated and enveloped viruses. When tested for antiviral properties, the LPO-dependent production of OSCN(-) did not inactivate adenovirus or respiratory syncytial virus (RSV). However, substituting SCN(-) with the alternative LPO substrate iodide (I(-)) resulted in a marked reduction of both adenovirus transduction and RSV titer. Importantly, well-differentiated primary airway epithelia generated sufficient H(2)O(2) to inactivate adenovirus or RSV when LPO and I(-) were supplied. The administration of a single dose of 130 mg of oral potassium iodide to human subjects increased serum I(-) concentrations, and resulted in the accumulation of I(-) in upper airway secretions. These results suggest that the LPO/I(-)/H(2)O(2) system can contribute to airway antiviral defenses. Furthermore, the delivery of I(-) to the airway mucosa may augment innate antiviral immunity.
Melanomas containing more elastin are associated with higher stages of the disease. The interaction between elastin-derived peptides and melanoma cells appears to play an important role in the progression of melanomas. The effects of the elastin-derived peptides VGVAPG and VAPG have been investigated on the migration, invasion, adhesion and angiogenesis of human melanoma cells of different invasive potential. Elastin, tropoelastin and VGVAPG peptide were demonstrated at the invasion site of melanoma using histochemistry and immunohistochemistry. Not only the VGVAPG elastin-derived peptide, which exhibits the XGXXPG consensus sequence in its primary structure, but also the shorter VAPG bind directly to 3 cell surface receptors: galectin-3, integrin avb3 and elastin-binding protein. Our results suggest that the increased levels of elastin-derived peptides facilitate the invasion of melanoma cells: (i) VGVAPG and VAPG elastin-derived peptides are chemotactic for melanoma cells; (ii) they can increase the migration of melanoma cells and the expression of CXCR-4 and CXCL-12 chemokines; (iii) they enhance the expression of the elastin-degrading MMP-2 and MMP-3; (iv) they increase the attachment of melanoma cells and the expression of different adhesion molecules; (v) they increase the expression of the lymphangiogenic VEGF-C and (vi) the galectin-3 receptor can mediate all these effects. Clinical and therapeutic aspects are also discussed. ' 2007 Wiley-Liss, Inc.Key words: melanoma; invasion; elastin; galectin-3 Recently, the incidence of melanomas has significantly increased, and patients have a reduced life expectancy. 1 Malignant melanomas are characterized as tumors of aggressive biological behavior with high motility and metastatic potential. 2,3 The extracellular matrix (ECM) plays a key role in the growth and invasion of tumor cells. Melanoma cells specifically interact with unique matrix proteins such as elastin, especially in elastin-rich organs such as the skin, lung and blood vessels. 4,5 Melanomas containing more elastin are associated with higher stages of the disease: lymph node or distant metastases, higher Clark-level and greater tumor thickness. 6 Several enzymes belonging to the matrix metalloproteinases (MMPs), serine and cysteine proteases superfamily mediate the degradation of elastin. [7][8][9] The level of these enzymes is increased in various stages of the disease 10,11 and leads to the generation of elastin-derived peptides (EDPs), which alter tissue homeostasis. EDPs have several biological effects on a wide range of cells including normal and tumor cells, 12 for example cell proliferation, 13,14 migration and chemotaxis, 15,16 tumor progression, 5,17-20 endothelial cell migration and angiogenesis. 21 These effects of EDPs are mediated predominantly by 3 cellsurface receptors: elastin binding protein (EBP), integrin avb3 and galectin-3 receptors. EBP is a 67-kDa multifunctional receptor containing lectin-binding site [22][23][24][25] and further identified as an enzymatically inactive form of...
In this study, we aimed to identify novel genes involved in experimental and human asthma, importance of which has not yet been recognized. In an ovalbumin-induced murine model of asthma, we applied microarray gene expression analysis at different time points after allergen challenges. Advanced statistical methods were used to relate gene expression changes to cellular processes and to integrate our results into multiple levels of information available in public databases. At 4 h after the first allergen challenge, gene expression pattern reflected mainly an acute, but non-atopic, inflammatory response and strong chemotactic activity. At 24 h after the third allergen challenge, gene set enrichment analysis revealed significant over-representation of gene sets corresponding to T(h)2-type inflammation models. Among the top down-regulated transcripts, an anti-oxidant enzyme, paraoxonase-1 (PON1), was identified. In human asthmatic patients, we found that serum PON1 activity was reduced at exacerbation, but increased parallel with improving asthma symptoms. PON1 gene polymorphisms did not influence the susceptibility to the disease. Our observations suggest that an altered PON1 activity might be involved in the pathogenesis of asthma, and serum PON1 level might be used for following up the effect of therapy.
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