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PI3K-AKT activation resculpts integrin signaling to drive filamentous tau-induced proinflammatory astrogliosis

Peng Wang, Darrell E. Anderson, Yihong Ye

2023Cell & Bioscience15 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Microtubule-binding protein tau is a misfolding-prone protein associated with tauopathies. As tau undergoes cell-to-cell transmission, extracellular tau aggregates convert astrocytes into a pro-inflammatory state via integrin activation, causing them to release unknown neurotoxic factors. RESULTS: Here, we combine transcriptomics with isotope labeling-based quantitative mass spectrometry analysis of mouse primary astrocyte secretome to establish PI3K-AKT as a critical differentiator between pathogenic and physiological integrin activation; simultaneous activation of PI3K-AKT and focal adhesion kinase (FAK) in tau fibril-treated astrocytes changes the output of integrin signaling, causing pro-inflammatory gene upregulation, trans-Golgi network restructuring, and altered secretory flow. Furthermore, NCAM1, as a proximal signaling component in tau-stimulated integrin and PI3K-AKT activation, facilitates the secretion of complement C3 as a main neurotoxic factor. Significantly, tau fibrils-associated astrogliosis and C3 secretion can be mitigated by FAK or PI3K inhibitors. CONCLUSIONS: These findings reveal an unexpected function for PI3K-AKT in tauopathy-associated reactive astrogliosis, which may be a promising target for anti-inflammation-based Alzheimer's therapy.

Topics & Concepts

AstrogliosisProtein kinase BPI3K/AKT/mTOR pathwayCell biologyIntegrinChemistryFocal adhesionTauopathySignal transductionNeuroinflammationTau proteinLY294002Stable isotope labeling by amino acids in cell cultureBiologyNeuroscienceInflammationCellImmunologyBiochemistryNeurodegenerationProteomicsMedicineAlzheimer's diseaseInternal medicineCentral nervous systemGeneDiseaseAlzheimer's disease research and treatmentsCellular transport and secretionCell Adhesion Molecules Research