Inhibition of Upf2-Dependent Nonsense-Mediated Decay Leads to Behavioral and Neurophysiological Abnormalities by Activating the Immune Response
2019; Cell Press; Volume: 104; Issue: 4 Linguagem: Inglês
10.1016/j.neuron.2019.08.027
ISSN1097-4199
AutoresJennifer L. Johnson, Loredana Elena Stoica, Yuwei Liu, Ping Zhu, Abhisek Bhattacharya, Shelly A. Buffington, Redwan Huq, N. Tony Eissa, Ola Larsson, Bo Porse, Deepti Domingo, Urwah Nawaz, Renée Carroll, Lachlan A. Jolly, Tom S. Scerri, Hyung‐Goo Kim, Amanda Brignell, Matthew Coleman, Ruth Braden, Usha Kini, Victoria E. Jackson, Anne Baxter, Melanie Bahlo, Ingrid E. Scheffer, David J. Amor, Michael S. Hildebrand, Penelope E. Bonnen, Christine Beeton, Jozef Gécz, Angela Morgan, Mauro Costa‐Mattioli,
Tópico(s)Tryptophan and brain disorders
ResumoHighlights•Humans carrying novel variants in UPF2 exhibit speech and language deficits•Upf2-deficient mice and flies have impaired NMD and exhibit behavioral deficits•Inhibition of Upf2-dependent NMD triggers immune activation in mice•Reduction of brain inflammation reverses synaptic and behavioral deficitsSummaryIn humans, disruption of nonsense-mediated decay (NMD) has been associated with neurodevelopmental disorders (NDDs) such as autism spectrum disorder and intellectual disability. However, the mechanism by which deficient NMD leads to neurodevelopmental dysfunction remains unknown, preventing development of targeted therapies. Here we identified novel protein-coding UPF2 (UP-Frameshift 2) variants in humans with NDD, including speech and language deficits. In parallel, we found that mice lacking Upf2 in the forebrain (Upf2 fb-KO mice) show impaired NMD, memory deficits, abnormal long-term potentiation (LTP), and social and communication deficits. Surprisingly, Upf2 fb-KO mice exhibit elevated expression of immune genes and brain inflammation. More importantly, treatment with two FDA-approved anti-inflammatory drugs reduced brain inflammation, restored LTP and long-term memory, and reversed social and communication deficits. Collectively, our findings indicate that impaired UPF2-dependent NMD leads to neurodevelopmental dysfunction and suggest that anti-inflammatory agents may prove effective for treatment of disorders with impaired NMD.Graphical abstract
Referência(s)