The angiogenic process involves several cell types and mediators, which interact to establish a specific microenvironment suitable for the formation of new capillaries from pre-existing vessels. Angiogenesis occurs in several physiological and pathological conditions, such as embryo development and wound healing, diabetic retinopathy and tumours. Inflammatory cells, namely monocytes/macrophages, T lymphocytes and neutrophils, fully participate in the angiogenic process by secreting cytokines that may affect endothelial cell (EC) functions, including EC proliferation, migration and activation. Angiogenesis is the result of a net balance between the activities exerted by positive and negative regulators. With regards to inflammatory cells and endothelium cross-talk, such balance is conceptually very similar to that of proinflammatory and anti-inflammatory mediators that modulate an appropriate inflammatory response. In this review we will mainly discuss the relevance of both physiological and pathological inflammatory processes in angiogenesis, with particular regards to microenvironmental contribution. We will also describe some of the most relevant pro-inflammatory cytokines in the modulation of the angiogenic process. Furthermore, we will concentrate on what has been recently reported about the mechanism by which some of these cytokines are induced during inflammation to promote a suitable microenvironment for angiogenesis and tumour progression. Pro-angiogenic cytokines, such as IL-1 and TNF, and anti-angiogenic cytokines such as IFN-γ and IL-12, will be briefly described. We will try to provide a rationale for the use of both cytokines and cytokine blockades as novel potential pharmaceutical targets to modulate angiogenesis in chronic inflammation as well as in cancer.
Of the three Shc isoforms, p66Shc is responsible for fine-tuning p52/p46Shc signaling to Ras and has been implicated in apoptotic responses to oxidative stress. Here we show that human peripheral blood lymphocytes and mouse thymocytes and splenic T cells acquire the capacity to express p66Shc in response to apoptogenic stimulation. Using a panel of T-cell transfectants and p66Shc ؊/؊ T cells, we show that p66Shc expression results in increased susceptibility to apoptogenic stimuli, which depends on Ser36 phosphorylation and correlates with an altered balance in apoptosis-regulating gene expression. Furthermore, p66Shc blunts mitogenic responses to T-cell receptor engagement, at least in part by transdominant inhibition of p52Shc signaling to Ras/mitogen-activated protein kinases, in an S36-dependent manner. The data highlight a novel interplay between p66Shc and p52Shc in the control of T-cell fate.
The cytokine/extracellular matrix protein osteopontin (OPN/Eta-1) is an important component of cellular immunity and inflammation. It also acts as a survival, cell-adhesive, and chemotactic factor for endothelial cells. Here, subtractive suppression hybridization showed that serum-deprived murine aortic endothelial (MAE) cells transfected with the angiogenic fibroblast growth factor-2 (FGF2) overexpress OPN compared with parental cells. This was confirmed by Northern blotting and Western blot analysis of the conditioned media in different clones of endothelial cells overexpressing FGF2 and in endothelial cells treated with the recombinant growth factor. In vivo, FGF2 caused OPN expression in newly formed endothelium of the chick embryo chorioallantoic membrane (CAM) and of murine s.c. Matrigel plug implants. Recombinant OPN (rOPN), the fusion protein GST-OPN, and the deletion mutant GST-ΔRGD-OPN were angiogenic in the CAM assay. Angiogenesis was also triggered by OPN-transfected MAE cells grafted onto the CAM. OPN-driven neovascularization was independent from endothelial αvβ3 integrin engagement and was always paralleled by the appearance of a massive mononuclear cell infiltrate. Accordingly, rOPN, GST-OPN, GST-ΔRGD-OPN, and the conditioned medium of OPN-overexpressing MAE cells were chemotactic for isolated human monocytes. Also, rOPN triggered a proangiogenic phenotype in human monocytes by inducing the expression of the angiogenic cytokines TNF-α and IL-8. OPN-mediated recruitment of proangiogenic monocytes may represent a mechanism of amplification of FGF2-induced neovascularization during inflammation, wound healing, and tumor growth.
Dendritic cells (DC) are the most potent antigen-presenting cells and during their life cycle they are exposed to different oxygen tensions. Similarly to inflamed and tumor tissues, lymphoid organs are characterized by a hypoxic microenvironment; thus, the modality by which hypoxia may affect DC is important for regulating both the quality and the intensity of the immune response. Here, we show that human monocyte-derived DC, exposed to hypoxia, expressed high levels of the hypoxia-inducible factor (HIF)-1α, associated with upregulation of BNIP3 and BAX expression. This was paralleled with downregulation of the anti-apoptotic molecule Bcl-2, enhanced caspase-3 activity and poly (ADP-ribose) polymerase cleavage, along with cell death. Transfection of HIF-1α siRNA protected DC from the effects of hypoxia. Of interest, when hypoxic DC were maturated with lipopolysaccharide (LPS), we did not observe an increased cell death, while HIF-1α accumulation and BNIP3 expression were still significantly upregulated. In contrast with immature DC, mature DC expressed higher levels of Bcl-2, and, more importantly, of phosphorylated Akt. Transfection of HIF-1α siRNA to mature DC resulted in a significant upregulation of Akt phosphorylation as well. Moreover, inhibition of PI3K/Akt pathway resulted in an increased cell death of hypoxic mature DC. We may conclude that a prolonged exposure to hypoxia induces a cell death program which could be prevented by HIF-1α inhibition and/or LPS maturation. Our results may contribute to further understand the physiology of DC and the molecular mechanisms involved in the survival of DC, with important implications in the regulation of the immune response.
Summary Protease-activated receptors (PARs) are members of the G protein-coupled receptor superfamily that are activated by the proteolytic cleavage of their amino terminal domain. PAR-1 activation by thrombin results in several biologic effects, including platelet adhesion to other cells or extracellular matrix, fibroblast, and endothelial cell growth, whereas PAR-2, activated by trypsin, has mainly a proinflammmatory and angiogenetic role. PAR-1 and PAR-2 modulate cell proliferation in physiopathologic cell invasion processes, suggesting that they may play a role in the setting of cancer growth and metastasis. Here, we have investigated the expression of PAR-1 and PAR-2 proteins by immunohistochemistry in a series of benign and malignant melanocytic lesions: 20 melanocytic lesions (10 common melanocytic nevi and 10 atypical or bdysplasticQ melanocytic nevi) and 50 melanomas (10 in situ melanomas, 10 melanomas T1, 10 melanomas T2, 10 melanomas T3 to T4, and 10 metastatic melanomas). PAR-1 was significantly overexpressed in atypical nevi and melanomas in comparison with common melanocytic nevi. PAR-2 was strongly and diffusely expressed by immunohistochemistry in all melanocytic lesions, with no statistically significant differences between nevi and melanomas. Because we found a differential expression in PAR-1 protein, but not in PAR-2, we next investigated the expression of PAR-1 messenger RNA (mRNA) by ribonuclease protection assay in paraffin-embedded tissues using a paraffin block RNA isolation procedure. Similarly to immunohistochemical results, PAR-1 mRNA expression was significantly higher in atypical nevi and melanomas in comparison with common nevi and controls. Overexpression of PAR-1 in atypical nevi and melanomas supports a role for PAR-1 in the initial phases of melanoma development as well as in tumor progression and metastasis. Conversely, the significance of PAR-2 up-regulation in both benign and malignant melanocytic lesions requires further research. D
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