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Targeting SRSF3 restores immune mRNA translation in microglia/macrophages following cerebral ischemia

Reza Rahimian, Revathy Guruswamy, Hejer Boutej, Pierre Cordeau, Yuan Cheng Weng, Jasna Križ

2024Molecular Therapy13 citationsDOIOpen Access PDF

Abstract

We recently described a novel ribosome-based regulatory mechanism/checkpoint that controls innate immune gene translation and microglial activation in non-sterile inflammation orchestrated by RNA binding protein SRSF3. Here we describe a role of SRSF3 in the regulation of microglia/macrophage activation phenotypes after experimental stroke. Using a model-system for analysis of the dynamic translational state of microglial ribosomes we show that 24 h after stroke highly upregulated immune mRNAs are not translated resulting in a marked dissociation of mRNA and protein networks in activated microglia/macrophages. Next, microglial activation after stroke was characterized by a robust increase in pSRSF3/SRSF3 expression levels. Targeted knockdown of SRSF3 using intranasal delivery of siRNA 24 h after stroke caused a marked knockdown of endogenous protein. Further analyses revealed that treatment with SRSF3-siRNA alleviated translational arrest of selected genes and induced a transient but significant increase in innate immune signaling and IBA1+ immunoreactivity peaking 5 days after initial injury. Importantly, delayed SRSF3-mediated increase in immune signaling markedly reduced the size of ischemic lesion measured 7 days after stroke. Together, our findings suggest that targeting SRSF3 and immune mRNA translation may open new avenues for molecular/therapeutic reprogramming of innate immune response after ischemic injury.

Topics & Concepts

Gene knockdownMicrogliaImmune systemInnate immune systemBiologyInflammationCell biologyMessenger RNATranslation (biology)ImmunologyCancer researchApoptosisGeneBiochemistryNeuroinflammation and Neurodegeneration MechanismsRNA regulation and diseaseRNA Research and Splicing
Targeting SRSF3 restores immune mRNA translation in microglia/macrophages following cerebral ischemia | Litcius