Author
Listed:
- Marialuisa Perrotta
(“Sapienza” University of Rome
IRCCS Neuromed)
- Sara Perrotta
(IRCCS Neuromed)
- Lorenzo Carnevale
(IRCCS Neuromed)
- Agnese Migliaccio
(IRCCS Neuromed)
- Fabio Pallante
(IRCCS Neuromed)
- Ryszard Nosalski
(University of Edinburgh)
- Tomasz J. Guzik
(University of Edinburgh
Jagiellonian University)
- Stefania Fardella
(IRCCS Neuromed)
- Emilio Hirsch
(University of Torino)
- Valentina Fardella
(IRCCS Neuromed)
- Azzurra Zonfrilli
(“Sapienza” University of Rome)
- Jacopo Pacella
(IRCCS Neuromed)
- Matthias P. Wymann
(University of Basel)
- Giuseppe Lembo
(“Sapienza” University of Rome
IRCCS Neuromed)
- Daniela Carnevale
(IRCCS Neuromed
“Sapienza” University of Rome)
Abstract
Activated immune cells infiltrate the vasculature during the pathophysiology of hypertension by establishing a vascular-immune interface that contributes to blood pressure dysregulation and organ failure. Many observations indicate a key role of CD8+ T cells in hypertension but mechanisms regulating their activation and interplay with the cardiovascular system are still unknown. In murine model, here we show that a specific member of the phosphoinositide-3-kinases (PI3K) family of lipid kinases, PI3Kγ, is a key intracellular signaling of CD8+ T cells activation and RANTES/CCL5 secretion in hypertension: CCL5-CCR5 signaling is crucial for the establishment of the vascular-immune interface in peripheral organs, lastly contributing to CD8+ tissue infiltration, organ dysfunction and blood pressure elevation. Our studies identify PI3Kγ as a booster of effector CD8+ T cell function, even in the absence of external stimuli. Lastly, an enhanced PI3Kγ signaling mediates the bystander activation of CD8+ T cells and proves effective in transferring the hypertensive phenotype between mice.
Suggested Citation
Marialuisa Perrotta & Sara Perrotta & Lorenzo Carnevale & Agnese Migliaccio & Fabio Pallante & Ryszard Nosalski & Tomasz J. Guzik & Stefania Fardella & Emilio Hirsch & Valentina Fardella & Azzurra Zon, 2025.
"PI3Kγ signaling controls trafficking of CD8+ T cells between lymphoid and non-lymphoid organs and drives hypertension in a murine model,"
Nature Communications, Nature, vol. 16(1), pages 1-19, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61009-4
DOI: 10.1038/s41467-025-61009-4
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