Zheng-Rong Zhu1,2, Qiong He3, Wei-Bin Wu1, Guang-Qi Chang1, Chen Yao1, Yang Zhao1, Mian Wang1, Shen-Ming Wang1. 1. Division of Vascular Surgery and Laboratory of Vascular Surgery, The First Affiliated Hospital of Sun Yat-sen University. 2. Division of Vascular Surgery, The First People's Hospital of Foshan. 3. Division of Pathology, The First Affiliated Hospital of Sun Yat-sen University.
Abstract
AIM: In-Stent Restenosis (ISR) is the major reason for recurrent ischemia and amputation after endovascular treatment of Peripheral Artery Disease (PAD). Our previous study demonstrated that miR-140-3p is significantly down-regulated in PAD arteries. However, expression and function of miR-140-3p in ISR of human PAD are currently unclear.The aim of this study is to determine the miR-140-3p expression and its regulative role in ISR of PAD. METHODS: The RNA level was determined by quantitative real-time polymerase chain Reaction (qRT-PCR) and in situ hybridization. Primary cultured ASMCs were isolated from human femoral arterial of the healthy donors or ISR patients. Cell proliferation was determined by Edu incorporation and CCK-8 assay. Apoptosis was determined by Annexin-Ⅴ/PI Double-Staining assay and TUNEL assay. A rat carotid artery balloon angioplasty model was used to investigate the effect of miR-140-3p on restenosis. RESULTS: MiR-140-3p was significantly down-regulated in PAD and ISR arteries than normal arteries. Primary cultured ISR ASMCs exhibited elevated proliferation and down-regulated miR-140-3p than normal ASMCs. Transfection of miR-140-3p mimic attenuated PDGF-BB-induced proliferation in cultured ASMCs and induced apoptosis. Luciferase reporter assay indicated that miR-140-3p transfection significantly down-regulated C-Myb and BCL-2 in ISR ASMCs by targeting to their 3'-UTRs. MiR-140-3p transfection induced anti-proliferation and apoptosis in ASMCs, which were ameliorated by over-expression of C-Myb or BCL-2. Moreover, the animal study showed that miR-140-3p can reduce restenosis following angioplasty via targeting C-Myb and BCL-2. CONCLUSIONS: The result suggests that miR-140-3p regulates ASMC function via targeting C-Myb and BCL-2 in the process of ISR in PAD. The novel findings may offer a hopeful therapeutic target for human PAD.
AIM: In-Stent Restenosis (ISR) is the major reason for recurrent ischemia and amputation after endovascular treatment of Peripheral Artery Disease (PAD). Our previous study demonstrated that miR-140-3p is significantly down-regulated in PAD arteries. However, expression and function of miR-140-3p in ISR of human PAD are currently unclear.The aim of this study is to determine the miR-140-3p expression and its regulative role in ISR of PAD. METHODS: The RNA level was determined by quantitative real-time polymerase chain Reaction (qRT-PCR) and in situ hybridization. Primary cultured ASMCs were isolated from human femoral arterial of the healthy donors or ISR patients. Cell proliferation was determined by Edu incorporation and CCK-8 assay. Apoptosis was determined by Annexin-Ⅴ/PI Double-Staining assay and TUNEL assay. A rat carotid artery balloon angioplasty model was used to investigate the effect of miR-140-3p on restenosis. RESULTS:MiR-140-3p was significantly down-regulated in PAD and ISR arteries than normal arteries. Primary cultured ISR ASMCs exhibited elevated proliferation and down-regulated miR-140-3p than normal ASMCs. Transfection of miR-140-3p mimic attenuated PDGF-BB-induced proliferation in cultured ASMCs and induced apoptosis. Luciferase reporter assay indicated that miR-140-3p transfection significantly down-regulated C-Myb and BCL-2 in ISR ASMCs by targeting to their 3'-UTRs. MiR-140-3p transfection induced anti-proliferation and apoptosis in ASMCs, which were ameliorated by over-expression of C-Myb or BCL-2. Moreover, the animal study showed that miR-140-3p can reduce restenosis following angioplasty via targeting C-Myb and BCL-2. CONCLUSIONS: The result suggests that miR-140-3p regulates ASMC function via targeting C-Myb and BCL-2 in the process of ISR in PAD. The novel findings may offer a hopeful therapeutic target for human PAD.
Authors: Asier Fernández-Pato; Ana Virseda-Berdices; Salvador Resino; Pablo Ryan; Oscar Martínez-González; Felipe Pérez-García; María Martin-Vicente; Daniel Valle-Millares; Oscar Brochado-Kith; Rafael Blancas; Amalia Martínez; Francisco C Ceballos; Sofía Bartolome-Sánchez; Erick Joan Vidal-Alcántara; David Alonso; Natalia Blanca-López; Ignacio Ramirez Martinez-Acitores; Laura Martin-Pedraza; María Ángeles Jiménez-Sousa; Amanda Fernández-Rodríguez Journal: Emerg Microbes Infect Date: 2022-12 Impact factor: 7.163