Identification of KU-55933 as an anti-atherosclerosis compound by using a hemodynamic-based high-throughput drug screening platform.
Shu-Yi WeiWei-Shan FuChang-Hsuan LiuWei-Li WangYu-Tsung ShihShu ChienJeng-Jiann ChiuPublished in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Several compounds have been used for atherosclerosis treatment, including clinical trials; however, no anti-atherosclerotic drugs based on hemodynamic force-mediated atherogenesis have been discovered. Our previous studies demonstrated that "small mothers against decapentaplegic homolog 1/5" (Smad1/5) is a convergent signaling molecule for chemical [e.g., bone morphogenetic proteins (BMPs)] and mechanical (e.g., disturbed flow) stimulations and hence may serve as a promising hemodynamic-based target for anti-atherosclerosis drug development. The goal of this study was to develop a high-throughput screening (HTS) platform to identify potential compounds that can inhibit disturbed flow- and BMP-induced Smad1/5 activation and atherosclerosis. Through HTS using a Smad1/5 downstream target inhibitor of DNA binding 1 ( Id-1 ) as a luciferase reporter, we demonstrated that KU-55933 and Apicidin suppressed Id-1 expression in AD-293 cells. KU-55933 (10 μM), Apicidin (10 μM), and the combination of half doses of each [1/2(K + A)] inhibited disturbed flow- and BMP4-induced Smad1/5 activation in human vascular endothelial cells (ECs). KU-55933, Apicidin, and 1/2(K + A) treatments caused 50.6%, 47.4%, and 73.3% inhibitions of EC proliferation induced by disturbed flow, respectively, whereas EC inflammation was only suppressed by KU-55933 and 1/2(K + A), but not Apicidin alone. Administrations of KU-55933 and 1/2(K + A) to apolipoprotein E-deficient mice inhibited Smad1/5 activation in ECs in athero-susceptible regions, thereby suppressing endothelial proliferation and inflammation, with the attenuation of atherosclerotic lesions in these mice. A unique drug screening platform has been developed to demonstrate that KU-55933 and its combination with Apicidin are promising therapeutic compounds for atherosclerosis based on hemodynamic considerations.
Keyphrases
- endothelial cells
- high throughput
- epithelial mesenchymal transition
- high glucose
- transforming growth factor
- cardiovascular disease
- signaling pathway
- dna binding
- oxidative stress
- clinical trial
- diabetic rats
- drug induced
- induced apoptosis
- mesenchymal stem cells
- poor prognosis
- transcription factor
- metabolic syndrome
- emergency department
- single molecule
- binding protein
- bone mineral density
- postmenopausal women
- adverse drug
- vascular endothelial growth factor
- body composition
- bone marrow
- adipose tissue
- bone loss
- climate change
- case control
- electronic health record