The IFN-inducible human IFI16 gene is highly expressed in endothelial cells as well as epithelial and hematopoietic tissues. Previous gene array analysis of human umbilical vein endothelial cells overexpressing IFI16 has revealed an increased expression of genes involved in inflammation and apoptosis. In this study, protein array analysis of the IFI16 secretome showed an increased production of chemokines, cytokines and adhesion molecules responsible for leukocyte chemotaxis. Functional analysis of the promoter for CCL20, the chemokine responsible for leukocyte recruitment in the early steps of inflammation, by site-specific mutation demonstrated that NF-jB is the main mediator of CCL20 induction at the transcriptional level. Finally, both Langerhans DC and B-lymphocyte migration triggered by supernatants from IFI16-overexpressing endothelial cells was partially inhibited by Ab inactivating CCL4, CCL5 and CCL20 chemokines. Altogether, these results demonstrate that the IFI16 gene, through its secretome, regulates proinflammatory activity of endothelial cells, thus corroborating its role in the early steps of inflammation.
The human interferon (IFN)-inducible IFI16 protein is a member of the 200-amino acid repeat family encoded by the HIN-200 genes. Forced IFI16 expression in normal human endothelial cells (ECs) inhibits cell growth and tube morphogenesis of ECs through the triggering of apoptosis by caspase-2 and caspase-3 via nuclear factor-κB (NF-κB) complex activation. Accumulating evidence suggests that tumor-derived ECs (TECs) possess a distinct and unique phenotype compared with normal ECs, and they may be able to acquire resistance to antiangiogenic agents such as IFNs. However, few functional studies are available on cultured TEC. In the present study, we have demonstrated that TEC obtained from tumors of various histological origin, namely kidney (Eck25), breast (B-TEC), and head and neck (HN4), continued to proliferate and generate microtubules on Matrigel following IFI16 overexpression. In contrast to normal ECs, they were resistant to apoptosis triggered by caspase-2 and caspase-3 activation via the NF-κB complex. At the molecular level, when overexpressed in TEC, IFI16 appeared unable to regulate NF-κB activity and lead to caspase activation. Altogether, these results indicate that TECs display abnormal responses, in terms of survival and angiogenic properties, to an antiproliferative and antiangiogenic IFN-inducible gene such as IFI16.
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