Abstract 054: Role Of The Immunoproteasome In Hypertension-associated Immune Activation

Abstract

Background: Inflammation is essential for the development of hypertension (HTN), however the mechanisms underlying this process remain unclear. The immunoproteasome processes intracellular peptides for display within class I major histocompatibility complexes (MHC-I). LMP7 is the chymotrypsin subunit of the immunoproteasome. Isolevuglandins (isoLGs) are reactive oxygen species (ROS) that drive immune activation and contribute to the development of HTN. Methods: IsoLG adduct-MHC-I interaction was measured by fluorescence resonance energy transfer. Mice with LoxP sites flanking exons 1 and 2 of Psmb8 , the gene encoding the immunoproteasome subunit LMP7, were generated and crossed to mice expressing dendritic cell (DC) and endothelial cell (EC) specific cre-recombinase. Mice were treated with angiotensin II as a model of HTN and blood pressure was measured by radiotelemetry. Tissue inflammation was measured by flow cytometry. In vitro , DCs, ECs, and B8 fibroblasts were used to study IsoLG adduct processing. Mouse aortic ECs (MAECs) were studied in models of isoLG-mediated T cell proliferation, gene expression, and antigen presentation. Results: Overexpression of immunoproteasome subunits augments isoLG-adduct MHC-I presentation. Oxidative stress induces IsoLG adduct MHC-I presentation by ECs and DCs. EC-specific IsoLG adduct MHC-I presentation contributes to hypertensive T-cell proliferation. Conditional deletion of LMP7 in DCs attenuated both tissue inflammation and HTN (142.3 ± 13.3 mmHg in Psmb8 fl/fl mice compared to 127.1 ± 9.5 mmHg in Psmb8 fl/fl /CD11c-Cre mice, N = 5-6, p=0.0363). Similarly, EC-specific LMP7 loss-of function attenuated inflammation and HTN (142.9 ± 3.4 mm Hg in Psmb8 fl/fl mice compared to 119.2 ± 2.6 mm Hg in Psmb8 fl/fl /vecadherin-Cre mice, N = 5, p= 0.0094). IsoLGs increase LMP7 expression and STING activation in MAECs. Conclusions: These studies define a critical role of the immunoproteasome in the regulation of immune cell activation and tissue infiltration in HTN. Moreover, they define a mechanism of isoLG adduct MHC-I presentation as a driver of this process. Finally, these studies define a critical role of antigen presentation in T cell activation, proliferation, and migration in HTN.