Ferro, Austin, Vita, Dominic J, Fallon, Trevor, Arshad, Anosha, Boyd, Leah, Stanley, Tess, Lin, Qianyu, Berisha, Adrian, Vrudhula, Uma, Gomez, Adrian M, Sanchez-Martin, Irene, Borniger, Jeremy C, Cheadle, Lucas (January 2026) Fn14 is an activity-dependent, Bmal1-regulated cytokine receptor that induces rod-like microglia and restricts neuronal activity in vivo. Cell Reports, 45 (2). p. 116926. ISSN 2211-1247 (Public Dataset)
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Abstract
Cytokines and their receptors play important roles in brain development and aging-related disease, but their functions within the healthy adult brain remain poorly understood. Here, we show that pyramidal neurons in hippocampal CA1 induce Fn14 expression in response to activity and environmental enrichment. Once expressed, Fn14 dampens the activity of these neurons most prominently at the daily transition between light and dark. Fn14 expression in CA1 neurons is regulated by the circadian transcription factor Bmal1, and mice lacking Fn14 exhibit disrupted sleep-wake patterns in vivo. At the cellular level, microglia contact fewer excitatory synapses in the absence of Fn14, while neuronal overexpression of Fn14 induces rod-like microglia and recruits them to excitatory synapses. Beyond a homeostatic context, mice lacking Fn14 exhibit heightened susceptibility to chemically induced seizures. These findings reveal that pro-inflammatory cytokine receptors such as Fn14 can play major roles in healthy neurological function in the adult brain.
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