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Cd103cd8 T Cells Promote Neurotoxic Inflammation In Alzheimerâtms Disease Via Granzyme Kpar1 Signaling Eleonora Terrabuio Enrica Caterina Pietronigro Alessandro Bani Vittorina Bianca Carlo Laudanna Barbara Rossi Giulia Finotti Bruno Santoslima Elena Zenaro Ermanna Turano Gabriele Tosadori Matteo Calgaro Nicola Vitulo Monica

  • SKU: BELL-239922852
Cd103cd8 T Cells Promote Neurotoxic Inflammation In Alzheimerâtms Disease Via Granzyme Kpar1 Signaling Eleonora Terrabuio Enrica Caterina Pietronigro Alessandro Bani Vittorina Bianca Carlo Laudanna Barbara Rossi Giulia Finotti Bruno Santoslima Elena Zenaro Ermanna Turano Gabriele Tosadori Matteo Calgaro Nicola Vitulo Monica
$ 35.00 $ 45.00 (-22%)

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Cd103cd8 T Cells Promote Neurotoxic Inflammation In Alzheimerâtms Disease Via Granzyme Kpar1 Signaling Eleonora Terrabuio Enrica Caterina Pietronigro Alessandro Bani Vittorina Bianca Carlo Laudanna Barbara Rossi Giulia Finotti Bruno Santoslima Elena Zenaro Ermanna Turano Gabriele Tosadori Matteo Calgaro Nicola Vitulo Monica instant download after payment.

Publisher: x
File Extension: PDF
File size: 7.38 MB
Author: Eleonora Terrabuio & Enrica Caterina Pietronigro & Alessandro Bani & Vittorina Bianca & Carlo Laudanna & Barbara Rossi & Giulia Finotti & Bruno Santos-Lima & Elena Zenaro & Ermanna Turano & Gabriele Tosadori & Matteo Calgaro & Nicola Vitulo & Monica...
Language: English
Year: 2025

Product desciption

Cd103cd8 T Cells Promote Neurotoxic Inflammation In Alzheimerâtms Disease Via Granzyme Kpar1 Signaling Eleonora Terrabuio Enrica Caterina Pietronigro Alessandro Bani Vittorina Bianca Carlo Laudanna Barbara Rossi Giulia Finotti Bruno Santoslima Elena Zenaro Ermanna Turano Gabriele Tosadori Matteo Calgaro Nicola Vitulo Monica by Eleonora Terrabuio & Enrica Caterina Pietronigro & Alessandro Bani & Vittorina Bianca & Carlo Laudanna & Barbara Rossi & Giulia Finotti & Bruno Santos-lima & Elena Zenaro & Ermanna Turano & Gabriele Tosadori & Matteo Calgaro & Nicola Vitulo & Monica... instant download after payment.

Nature Communications, doi:10.1038/s41467-025-62405-6

Matteo Calgaro 5, Nicola Vitulo 5, Monica Castellucci3, Daniela Cecconi 2,5,1234567890():,;1234567890():,;Check for updatesJessica Brandi 5, Nikolaos Vareltzakis 1, Fabiana Mainieri1, Antonella Calore 1,Gabriele Angelini1, Bruno Bonetti6 & Gabriela Constantin 1,2Immune mechanisms contribute to the neuropathology of Alzheimer’s disease(AD) but the role of adaptive immune cells is unclear. Here we show that thebrain CD8+ T cell compartment is dysregulated in AD patients and in the 3xTgAD mouse model, accumulating activated CD103– tissue-resident memory Tcells that produce large amounts of granzyme K (GrK). These CD103–CD8+T cells originate from the circulation and migrate into the brain using LFA-1integrin. Ablation of brain CD103–CD8+ T cells in 3xTg-AD mice amelioratescognitive decline and reduces neuropathology. GrK induces neuronal dysfunction and tau hyperphosphorylation in human and mouse cells viaprotease-activated receptor-1 (PAR-1), which is expressed at higher levels in theAD brain, revealing a key immune-mediated neurotoxic axis. We conclude thatcommunication between CD8+ T cells and the nervous system is altered in AD,paving the way for therapies targeting T cell-dependent neurotoxicinflammation.