Lorraine A. O’ Reilly scite author profile

Fas ligand (FasL), an apoptosis-inducing member of the TNF cytokine family and its receptor, Fas, are critical for shutdown of chronic immune responses1-3 and prevention of autoimmunity4,5. Accordingly, mutations in their genes cause severe lymphadenopathy and autoimmune disease in mice6,7 and humans8,9. FasL function is regulated by deposition in the plasma membrane and metalloprotease-mediated shedding10,11. We generated gene-targeted mice that selectively lack either secreted FasL (ΔsFasL) or membrane-bound FasL (ΔmFasL) to resolve which of these forms is required for cell killing and to explore their hypothetical non-apoptotic activities. Mice lacking sFasL (FasLΔs/Δs) appeared normal and their T cells readily killed target cells, whereas T cells lacking mFasL (FasLΔm/Δm) could not kill cells through Fas activation. FasLΔm/Δm mice developed lymphadenopathy and hyper-gammaglobulinaemia, similar to FasLgld/gld mice, which express a mutant form of FasL that cannot bind Fas, but surprisingly, (on a C57BL/6 background) FasLΔm/Δm mice succumbed to SLE-like autoimmune kidney destruction and histiocytic sarcoma, diseases that occur only rarely and considerably later in FasLgld/gld mice. These results demonstrate that mFasL is essential for cytotoxic activity and constitutes the guardian against lymphadenopathy, autoimmunity and cancer whereas excess sFasL appears to promote autoimmunity and tumorigenesis through non-apoptotic activities.

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Characterization of a novel dual murine model of chemotherapy-induced oral and intestinal mucositis

Mohammed

Celentano

Paolini

et al. 2023

Sci Rep

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Oral and intestinal mucositis are debilitating inflammatory diseases observed in cancer patients undergoing chemo-radiotherapy. These are devastating clinical conditions which often lead to treatment disruption affecting underlying malignancy management. Although alimentary tract mucositis involves the entire gastrointestinal tract, oral and intestinal mucositis are often studied independently utilizing distinct organ-specific pre-clinical models. This approach has however hindered the development of potentially effective whole-patient treatment strategies. We now characterize a murine model of alimentary tract mucositis using 5-Fluorouracil (5-FU). Mice were given 5-FU intravenously (50 mg/kg) or saline every 48 h for 2 weeks. Post initial injection, mice were monitored clinically for weight loss and diarrhea. The incidence and extent of oral mucositis was assessed macroscopically. Microscopical and histomorphometric analyses of the tongue and intestinal tissues were conducted at 3 interim time points during the experimental period. Repeated 5-FU treatment caused severe oral and intestinal atrophy, including morphological damage, accompanied by body weight loss and mild to moderate diarrhea in up to 77.8% of mice. Oral mucositis was clinically evident throughout the observation period in 88.98% of mice. Toluidine blue staining of the tongue revealed that the ulcer size peaked at day-14. In summary, we have developed a model reproducing the clinical and histologic features of both oral and intestinal mucositis, which may represent a useful in vivo pre-clinical model for the study of chemotherapy-induced alimentary tract mucositis and the development of preventative therapies.

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Lorraine A. O’ Reilly

Membrane-bound Fas ligand only is essential for Fas-induced apoptosis

Characterization of a novel dual murine model of chemotherapy-induced oral and intestinal mucositis

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