Abstract Body (Do not enter title and authors here): Background: D-flow’s impact on metabolic reprogramming, particularly glycolysis, needs reevaluation due to its conflicting role in atherosclerosis. We show that d-flow reduces LATS1/2 expression, leading to both EC proliferation and senescence. However, the exact molecular mechanisms remain elusive.
Methods: We utilized EC-specific Lats1^+/-/Lats2^-/- knockout (LATS1/2-EKO) mice in a partial left carotid ligation (PLCL) model under hypercholesterolemia with AAV-PCSK9 injection to mimic d-flow. Anti-CD38 antibody (Ab68) and IgG2a control were administered intraperitoneally every 5 days at a dose of 5 mg/kg starting one day before PLCL. Plaque characterization was performed using imaging mass cytometry and sequential immunofluorescence (COMET^TM), integrating spatial metabolite data from Bruker timsTOF Flex Mass Spectrometer, and spatial single-cell metabolite data via the Visiopharm platform.
Results: EC LATS1/2 depletion induced a unique atherothrombosis lesion with induced EC proliferation and senescence-associated secretory phenotype (SASP). Utilizing spatial single-cell metabolomics, we cataloged 134 distinct metabolites within the ECs. Subsequent overrepresentation analysis revealed that pathways related to glutamate and the citric acid cycle were enhanced in LATS1/2-EKO mice. Specifically, CD38-dependent downregulation of the pyruvate dehydrogenase (PDH) substrate lipoamide decreased PDH enzymatic activity, linking to CD38 to senescence induction. This inhibition led to a metabolic shift towards YAP-dependent glutaminolysis, and upregulated the citric acid cycle. The use of a glutaminase 1 inhibitor (CB-839) significantly curtailed senescence-associated stemness (SAS), underscoring the pivotal role of CD38 in driving glutaminolysis that contributes to d-flow-induced SAS. Moreover, the application of Ab68 but not IgG2a control decreased atherothrombosis formation following PLCL in LATS1/2-EKO mice. However, the effectiveness of Ab68 in attenuating atherosclerosis in wild-type mice was less pronounced.
Conclusions: In the presence of d-flow, upregulated CD38, resulting from reduced LATS1/2 expression, triggers EC responses characterized by increased glutaminolysis and the emergence of an EC SAS phenotype. These processes play a crucial role in a unique form of atherothrombosis. Additionally, CD38’s impact on reducing PDH activity, along with YAP and CD38-mediated enhancement of glutaminolysis, constitutes critical pathways for inducing EC SAS by d-flow.