Immunoproteasomal Processing of Isolevuglandin Adducts in Hypertension.
Néstor de la VisitaciónWei ChenJaya KrishnanJustin P Van BeusecumVenkataraman AmarnathElizabeth M HennenShilin ZhaoMohammad SaleemMingfang AoDavid G HarrisonDavid M PatrickPublished in: bioRxiv : the preprint server for biology (2023)
Isolevuglandins (isoLGs) are lipid aldehydes that form in the presence of reactive oxygen species (ROS) and drive immune activation. We found that isoLG-adducts are presented within the context of major histocompatibility complexes (MHC-I) by an immunoproteasome dependent mechanism. Pharmacologic inhibition of LMP7, the chymotrypsin subunit of the immunoproteasome, attenuates hypertension and tissue inflammation in the angiotensin II (Ang II) model of hypertension. Genetic loss of function of all immunoproteasome subunits or conditional deletion of LMP7 in dendritic cell (DCs) or endothelial cells (ECs) attenuated hypertension, reduced aortic T cell infiltration, and reduced isoLG-adduct MHC-I interaction. Furthermore, isoLG adducts structurally resemble double-stranded DNA and contribute to the activation of STING in ECs. These studies define a critical role of the immunoproteasome in the processing and presentation of isoLG-adducts. Moreover they define a role of LMP7 as a regulator of T cell activation and tissue infiltration in hypertension.
Keyphrases
- blood pressure
- angiotensin ii
- reactive oxygen species
- epstein barr virus
- endothelial cells
- dendritic cells
- oxidative stress
- vascular smooth muscle cells
- cell death
- transcription factor
- aortic valve
- arterial hypertension
- immune response
- gene expression
- regulatory t cells
- heart failure
- circulating tumor
- single molecule