Interleukin-17 (IL-17) is a proinflammatory cytokine mainly produced by activated CD4 ؉ CD45RO T cells. In mice, we have demonstrated that, depending on the model, IL-17 may act as a tumor growth-promoting or -inhibiting factor. In order to address the relevance of these models in human tumors, we look for the natural expression and activity of IL-17 in mycosis fungoides (MF) and Sezary syndrome (SS). These cutaneous T-cell lymphomas were selected because they are usually CD3 ؉ CD4 ؉ CD45RO ؉ , a phenotype similar to nontransformed T cells producing IL-17. We show that in vitro activated malignant T cells derived from MF or SS patients express IL-17 mRNA and secrete this cytokine. However, IL-17 does not act in vitro as a growth factor for MF or SS cell lines. In addition, 5 out of 10 MF/SS biopsies expressed IL-17 mRNA, while this cytokine was not detected in normal skin. IL-17 was not observed in the biopsies derived from 2 patients initially identified as MF, whereas an upregulation of this cytokine was clearly demonstrated during progression of the disease in these patients. An association between IL-17 expression and polymorphonuclear neutrophil infiltration was also recorded in this group of MF/SS patients. A more detailed analysis of 2 patients with a pustular form of MF and SS revealed that IL-17 may participate in the recruitment of polymorphonuclear neutrophils via a paracrine mechanism involving keratinocyte-released IL-8. This study is the first report demonstrating that some human tumor cells could express IL-17, a cytokine that represents an early event in the development of the inflammatory reaction within the tumor microenvironment, a process that may influence tumor phenotype and growth.
Fetal progenitor cells enter the maternal circulation during pregnancy and can persist for decades. We aimed to determine the role of these cells in tissue inflammation during pregnancy. WT female mice were mated to males transgenic for the EGFP (ubiquitous) or the luciferase gene controlled by the VEGF receptor 2 (VEGFR2; V-Luc) promoter. A contact hypersensitivity reaction was triggered during such pregnancies. Fetal cells were tracked by using real-time quantitative amplification of the transgene (real-time PCR), Y chromosome in situ hybridization (FISH), immunofluorescence or in vivo bioluminescence imaging. Real-time PCR disclosed fetal cells in the inflamed areas in all tested mice (17/17) with higher frequency and numbers in the inflamed compared with the control areas (P ؍ 0.01). Double labeling demonstrated CD31؉ EGFP؉ fetal cells organized as blood vessels. In WT pregnant mice bearing V-Luc fetuses, a specific luciferase activity signal could be detected at the hypersensitivity site only, demonstrating the elective presence of VEGFR2-expressing fetal cells. In conclusion, using various techniques, we found the presence of fetal endothelial cells lining blood vessels in maternal sites of inflammation. These results imply that fetal endothelial progenitor cells are acquired by the mother and participate in maternal angiogenesis during pregnancy.angiogenesis ͉ chimerism ͉ gestation ͉ fetal stem cells
Introduction Breast carcinomas associated with pregnancy display a high frequency of inflammatory types, multifocal lesions and lymph node metastasis. Because pregnancy results in transfer to mothers of foetal stem cells that can migrate and differentiate into various tissues, we addressed the issue of whether such cells are present in breast carcinoma associated with pregnancy.
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