Abstract

Background: The gene encoding the extracellular matrix (ECM) protease ADAMTS-7 was associated with coronary artery disease (CAD) in genome-wide association studies. ADAMTS-7 is expressed at all stages in human plaques and mice lacking Adamts-7 displayed reduced atherosclerotic plaque formation. While these findings render ADAMTS-7 a promising therapeutic target, the underlying mechanisms remain unknown. Methods and Results: Here, we sought to identify downstream mechanisms of ADAMTS-7 in atherosclerotic plaque formation. Targets of Adamts-7 were identified by high-resolution mass spectrometry of atherosclerotic plaques in Apoe-/- and Apoe-/-Adamts7-/- mice. ECM proteins were identified using solubility profiling. The endogenous inhibitor of matrix metalloproteinases (MMP) Timp-1 was identified as a novel target of Adamts-7. Adamts-7 and Timp-1 were found to be co-localized in atherosclerotic plaques and co-immunoprecipitation (Co-IP) studies revealed TIMP-1 as the first putative target to bind to the catalytic domain of ADAMTS-7. In vitro degradation assays demonstrated that ADAMTS-7 degrades TIMP-1. Co-IP furthermore revealed less binding of TIMP-1 to its canonical target MMP-9 when ADAMTS-7 was present. In line, scaffolding and degradation of TIMP-1 by ADAMTS-7 impaired TIMP-1-mediated inhibition of MMP-9 in vitro. As a downstream mechanism, we investigated collagen content in atherosclerotic plaques of Apoe-/- and Apoe-/- Adamts7-/- mice after Western diet. Collagen stainings of the aortic root revealed less collagen as a readout of higher MMP-9 activity in Apoe-/- as compared to Apoe-/- Adamts7-/- mice. Since ADAMTS-7 might exert its pro-atherogenic effects through interaction with TIMP-1, we established a TIMP-1-ADAMTS-7-interaction assay based on Förster resonance energy transfer (FRET) to identify inhibitors of this protein-protein interaction. Conclusion and Outlook: TIMP-1 represents a novel downstream target of ADAMTS-7 that can explain the role of this novel risk factor in CAD. Our FRET-based protein-protein interaction assay may be used for high-throughput screening to identifiy inhibitors and prevent the initiation or slow the progression of atherosclerosis.

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