5-Fluorouracil causes leukocytes attraction in the peritoneal cavity by activating autophagy and HMGB1 release in colon carcinoma cells.

Signals released by leukocytes contribute to tumor growth and influence the efficacy of antineoplastic treatments. The outcome of peritoneal carcinomatosis treatments is unsatisfactory, possibly because chemotherapy activates events that have in the long-term deleterious effects. In this study we offer evidence that 5-fluorouracile (5-FU), besides provoking apoptosis of MC38 colon carcinoma cells, induces a striking attraction of leukocytes both in an orthotopic model of colon carcinomatosis in vivo and in monocyte-migration assays in vitro. Leukocyte attraction depends on the presence of High Mobility Group Box 1 (HMGB1), an endogenous immune adjuvant and chemoattractant released by dying cells. Leukocyte recruitment is prevented in vivo and in vitro using blocking antibodies against HMGB1 and its competitive antagonist BoxA or by interfering with HMGB1 expression. Autophagy is required for leukocyte chemoattraction, since the latter abates upon pharmacological blockade of the autophagic flux while activation of autophagy per se, in the absence of death of colon carcinoma cells, is not sufficient to attract leukocytes. Our results identify autophagy induction and HMGB1 release in colon carcinoma cells as key events responsible for 5-FU elicited leukocyte attraction and define a novel rate-limiting target for combinatorial therapies.

TNF-alpha coupled to membrane of apoptotic cells favors the cross-priming to melanoma antigens.

The cross-presentation of Ags derived from apoptotic cell processing contributes to peripheral tolerance. Environmental signals possibly modify this default outcome, favoring cross-priming. In this study, we anchored via a biotin-avidin-biotin bridge soluble TNF-alpha to the membrane of apoptotic melanoma cells and studied in vivo and in vitro the interaction with Ag-presenting phagocytes. TNF-alpha-coated apoptotic melanoma cells injected s.c. had a faster and more efficient access to draining lymph nodes, with cross-priming of melanoma-specific CTLs and delayed outgrowth of melanomas in all treated animals. Twenty percent of the animals, in the absence of further adjuvant, did not develop the tumor. Immature dendritic cells challenged with TNF-alpha-coated apoptotic melanoma cells secreted proinflammatory cytokines in an autocrine/paracrine fashion, efficiently matured, as assessed functionally and by flow cytometry and cross-presented with enhanced efficiency melanoma Ags to MHC class I- and II-restricted T cells. The results indicate that TNF-alpha targeted to apoptotic membranes, at concentrations that can be safely reached in growing tumors without undue systemic toxicity, influences the outcome of the disposal of dying cells and enhances tumor immunogenicity.