Fluoxetine restrains allergic inflammation by targeting an FcɛRI-ATP positive feedback loop in mast cells.
Tamara T HaqueMarcela T TaruselliSydney A KeeJordan M DaileyNeha PondicherryPaula A Gajewski-KurdzielMatthew P ZellnerDaniel J StephensonH Patrick MacKnightDavid B StrausRoma A KankariaKaitlyn G JacksonAlena P ChumanevichYoshihiro FukuokaLawrence B SchwartzRandy D BlakelyCarole A OskeritzianCharles E ChalfantRebecca K MartinJohn J RyanPublished in: Science signaling (2023)
There is a clinical need for new treatment options addressing allergic disease. Selective serotonin reuptake inhibitors (SSRIs) are a class of antidepressants that have anti-inflammatory properties. We tested the effects of the SSRI fluoxetine on IgE-induced function of mast cells, which are critical effectors of allergic inflammation. We showed that fluoxetine treatment of murine or human mast cells reduced IgE-mediated degranulation, cytokine production, and inflammatory lipid secretion, as well as signaling mediated by the mast cell activator ATP. In a mouse model of systemic anaphylaxis, fluoxetine reduced hypothermia and cytokine production. Fluoxetine was also effective in a model of allergic airway inflammation, where it reduced bronchial responsiveness and inflammation. These data show that fluoxetine suppresses mast cell activation by impeding an FcɛRI-ATP positive feedback loop and support the potential repurposing of this SSRI for use in allergic disease.