Abstract
Chronic activation of the adaptive immune system is a hallmark of atherosclerosis. As PI3Kδ is a key regulator of T and B cell differentiation and function, we hypothesized that alleviation of adaptive immunity by PI3Kδ inactivation may represent an attractive strategy counteracting atherogenesis. As expected, lack of hematopoietic PI3Kδ in atherosclerosis-prone Ldlr–/– mice resulted in lowered T and B cell numbers, CD4+ effector T cells, Th1 response, and immunoglobulin levels. However, despite markedly impaired peripheral pro-inflammatory Th1 cells and atheromatous CD4+ T cells, the unexpected net effect of hematopoietic PI3Kδ deficiency was aggravated vascular inflammation and atherosclerosis. Further analyses revealed that PI3Kδ deficiency impaired numbers, immunosuppressive functions, and stability of regulatory CD4+ T cells (Tregs), whereas macrophage biology remained largely unaffected. Adoptive transfer of wild-type Tregs fully restrained the atherosclerotic plaque burden in Ldlr–/– mice lacking hematopoietic PI3Kδ, whereas PI3Kδ-deficient Tregs failed to mitigate disease. Numbers of atheroprotective B-1 and pro-atherogenic B-2 cells as well as serum immunoglobulin levels remained unaffected by adoptively transferred wild-type Tregs. In conclusion, we demonstrate that hematopoietic PI3Kδ ablation promotes atherosclerosis. Mechanistically, we identified PI3Kδ signaling as a powerful driver of atheroprotective Treg responses, which outweigh PI3Kδ-driven pro-atherogenic effects of adaptive immune cells like Th1 cells.
Authors
Mario Zierden, Eva Maria Berghausen, Leoni Gnatzy-Feik, Christopher Millarg, Felix Simon Ruben Picard, Martha Kiljan, Simon Geißen, Apostolos Polykratis, Lea Zimmermann, Richard Julius Nies, Manolis Pasparakis, Stephan Baldus, Chanil Valasarajan, Soni Savai Pullamsetti, Holger Winkels, Marius Vantler, Stephan Rosenkranz
Figure 2
PI3Kδ deficiency impairs CD4+ T cell activation, Teff cell differentiation, and pro-inflammatory Th1 response in
