Heterologous Cell-Cell Fusion as a Mechanism of DNA Exchange and Chemoresistance in Cancer

Cell fusion is an important event that mediates various biological processes. However, the role of cell fusion in cancer has not been very well described due to technical limitations. Here we describe a Cre-Lox recombination model system to study spontaneous heterotypic cell-cell fusion between tumor and non-tumor cells. This fusion event results in hybrid cells that are hyperploid and contain DNA from both parental cells. In addition, fusion-derived hybrids eventually adopt cancer gene profile, are more resistant to chemotherapy, and show increased tumorsphere-forming capacity. This model system can therefore be used to further our understanding of cell-cell fusion in the context of cancer

Isoflurane Impacts Murine Melanoma Growth in a Sex-Specific, Immune-Dependent Manner

The impact of volatile anesthetics on cancer progression has been observed for decades, but sex differences have not been described. Male and female immune systems vary considerably, and the immune system plays an important role in limiting cancer growth. Currently, mouse models describing the impact of volatile anesthetics on cancer growth are limited to same-sex models. In this brief report, we describe a sex-specific impact of isoflurane on melanoma growth observed in wild-type but not in immune-deficient mice. Future experimental designs related to anesthesia and cancer should evaluate the biological variable of sex in a systematic manner

Nrf2 Induces IL-17D to Mediate Tumor and Virus Surveillance

Cells undergoing xenobiotic or oxidative stress activate the transcription factor nuclear factor erythroid-derived 2-like 2 (Nrf2), which initiates an intrinsic “stress surveillance” pathway. We recently found that the cytokine IL-17D effects a form of extrinsic stress surveillance by inducing antitumor immunity, but how IL-17D is regulated remains unknown. Here, we show that Nrf2 induced IL-17D in cancer cell lines. Moreover, both Nrf2 and IL-17D were induced in primary tumors as well as during viral infection in vivo. Expression of IL-17D in tumors and virally infected cells is essential for optimal protection of the host as il17d−/− mice experienced a higher incidence of tumors and exacerbated viral infections compared to wild-type (WT) animals. Moreover, activating Nrf2 to induce IL-17D in established tumors led to natural killer cell-dependent tumor regression. These data demonstrate that Nrf2 can initiate both intrinsic and extrinsic stress surveillance pathways and highlight the use of Nrf2 agonists as immune therapies for cancer and infection

Innate lymphoid cells support regulatory T cells in the intestine through interleukin-2

International audienceInterleukin (IL)-2 is a pleiotropic cytokine that is necessary to prevent chronic inflammation in the gastrointestinal tract 1-4. The protective effects of IL-2 involve the generation, maintenance and function of regulatory T (T reg) cells 4-8 , and the use of low doses of IL-2 has emerged as a potential therapeutic strategy for patients with inflammatory bowel disease 9. However, the cellular and molecular pathways that control the production of IL-2 in the context of intestinal health are undefined. Here we show, in a mouse model, that IL-2 is acutely required to maintain T reg cells and immunological homeostasis throughout the gastrointestinal tract. Notably, lineage-specific deletion of IL-2 in T cells did not reduce T reg cells in the small intestine. Unbiased analyses revealed that, in the small intestine, group-3 innate lymphoid cells (ILC3s) are the dominant cellular source of IL-2, which is induced selectively by IL-1β. Macrophages in the small intestine produce IL-1β, and activation of this pathway involves MYD88-and NOD2-dependent sensing of the microbiota. Our loss-of-function studies show that ILC3-derived IL-2 is essential for maintaining T reg cells, immunological homeostasis and oral tolerance to dietary antigens in the small intestine. Furthermore, production of IL-2 by ILC3s was significantly reduced in the small intestine of patients with Crohn's disease, and this correlated with lower frequencies of T reg cells. Our results reveal a previously unappreciated pathway in which a microbiota-and IL-1β-dependent axis promotes the production of IL-2 by ILC3s to orchestrate immune regulation in the intestine. To determine whether IL-2 is constitutively required for the maintenance of T reg cells and immunological homeostasis in the intestine, we administered isotype-control or anti-IL-2 neutralizing antibodies every other day to adult mice for two weeks. Within this short time period, the neutralization of IL-2 promoted an enlargement of the spleen and mesenteric lymph nodes, and caused significant reductions of T reg cells and significant increases in the proliferation of CD4 + T cells throughout the gastrointestinal tract and associated lymphoid tissues, including the mesenteric lymph nodes, large intestine and small intestine (Extended Data Fig. 1a-g). Blockade of IL-2 resulted in significantly enhanced IFNγ production by CD4 + T cells in both the small and large intestine, as well as increased IL-17A production in the large intestine (Extended Data Fig. 1h-k). Previous studies have suggested that CD4 + T cells are the dominant cellular source of IL-2 1,2. Therefore, we generated mice with a lineage-specific deletion of IL-2 in T cells by crossing IL-2-floxed mice 10 with Lck cre mice. Lck cre Il2 f/f mice exhibited a complete loss of IL-2 protein staining in T cells, and we observed a significant reduction in the number of T reg cells, and an increase in CD4 + T cell proliferation and effector function in the mesenteric lymph nodes and large intestine (Extended Data Fig. 2a-g). By contrast, deletion o