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TrkB signaling regulates the cold-shock protein RBM3-mediated neuroprotection

Diego Peretti, Heather Smith, Nicholas Verity, Ibrahim Humoud, Lis de Weerd, Dean Swinden, Joseph E. Hayes, Giovanna R. Mallucci

2021Life Science Alliance34 citationsDOIOpen Access PDF

Abstract

Increasing levels of the cold-shock protein, RNA-binding motif 3 (RBM3), either through cooling or by ectopic over-expression, prevents synapse and neuronal loss in mouse models of neurodegeneration. To exploit this process therapeutically requires an understanding of mechanisms controlling cold-induced RBM3 expression. Here, we show that cooling increases RBM3 through activation of TrkB via PLCγ1 and pCREB signaling. RBM3, in turn, has a hitherto unrecognized negative feedback on TrkB-induced ERK activation through induction of its specific phosphatase, DUSP6. Thus, RBM3 mediates structural plasticity through a distinct, non-canonical activation of TrkB signaling, which is abolished in RBM3-null neurons. Both genetic reduction and pharmacological antagonism of TrkB and its downstream mediators abrogate cooling-induced RBM3 induction and prevent structural plasticity, whereas TrkB inhibition similarly prevents RBM3 induction and the neuroprotective effects of cooling in prion-diseased mice. Conversely, TrkB agonism induces RBM3 without cooling, preventing synapse loss and neurodegeneration. TrkB signaling is, therefore, necessary for the induction of RBM3 and related neuroprotective effects and provides a target by which RBM3-mediated synapse-regenerative therapies in neurodegenerative disorders can be used therapeutically without the need for inducing hypothermia.

Topics & Concepts

NeuroprotectionTropomyosin receptor kinase BSynapseNeurodegenerationCell biologyNeurotrophinProtein kinase BSynaptic plasticitySignal transductionNeuroscienceBiologyNeurotrophic factorsReceptorMedicineBiochemistryDiseasePathologyHeat shock proteins researchBiochemical effects in animalsThermal Regulation in Medicine
TrkB signaling regulates the cold-shock protein RBM3-mediated neuroprotection | Litcius