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Interleukin-13 and its receptor are synaptic proteins involved in plasticity and neuroprotection

Shun Li, Florian olde Heuvel, Rida Rehman, Oumayma Aousji, Albrecht Froehlich, Zheng-Hui Li, Rebecca Jark, Wanhong Zhang, Alison Conquest, Sarah Woelfle, Michael Schoen, Caitlin C. O ́Meara, R. Lee Reinhardt, David Voehringer, Jan Kassubek, Albert C. Ludolph, Markus Huber‐Lang, Bernd Knöll, Maria Cristina Morganti-Kossmann, Marisa M. Brockmann, Tobias M. Boeckers, Francesco Roselli

2023Nature Communications92 citationsDOIOpen Access PDF

Abstract

Immune system molecules are expressed by neurons, yet their functions are often unknown. We have identified IL-13 and its receptor IL-13Ra1 as neuronal, synaptic proteins in mouse, rat, and human brains, whose engagement upregulates the phosphorylation of NMDAR and AMPAR subunits and, in turn, increases synaptic activity and CREB-mediated transcription. We demonstrate that increased IL-13 is a hallmark of traumatic brain injury (TBI) in male mice as well as in two distinct cohorts of human patients. We also provide evidence that IL-13 upregulation protects neurons from excitotoxic death. We show IL-13 upregulation occurring in several cohorts of human brain samples and in cerebrospinal fluid (CSF). Thus, IL-13 is a physiological modulator of synaptic physiology of neuronal origin, with implications for the establishment of synaptic plasticity and the survival of neurons under injury conditions. Furthermore, we suggest that the neuroprotection afforded through the upregulation of IL-13 represents an entry point for interventions in the pathophysiology of TBI.

Topics & Concepts

NeuroprotectionDownregulation and upregulationCREBNeuroscienceSynaptic plasticityAMPA receptorNeuroplasticityNMDA receptorTraumatic brain injuryBiologyReceptorGlutamate receptorCell biologyTranscription factorMedicineGenePsychiatryBiochemistryImmune Response and InflammationStress Responses and CortisolToxin Mechanisms and Immunotoxins
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