Abstract
Acute aortic dissection is the most common life-threatening vascular disease, with sudden onset of severe pain and a high fatality rate. Clarifying the detailed mechanism for aortic dissection is of great significance for establishing effective pharmacotherapy for this high mortality disease. In the present study, we evaluated the influence of biomechanical stretch, which mimics an acute rise in blood pressure using an experimental apparatus of stretching loads in vitro, on rat aortic smooth muscle cell (RASMC) death. Then, we examined the effects of azelnidipine and mitogen-activated protein kinase inhibitors on mechanical stretch-induced RASMC death. The major findings of the present study are as follows: (1) cyclic mechanical stretch on RASMC caused cell death in a time-dependent manner up to 4 h; (2) cyclic mechanical stretch on RASMC induced c-Jun N-terminal kinase (JNK) and p38 activation with peaks at 10 min; (3) azelnidipine inhibited RASMC death in a concentration-dependent manner as well as inhibited JNK and p38 activation by mechanical stretch; and (4) SP600125 (a JNK inhibitor) and SB203580 (a p38 inhibitor) protected against stretch-induced RASMC death; (5) Antioxidants, diphenylene iodonium and tempol failed to inhibit stretch-induced RASMC death. On the basis of the above findings, we propose a possible mechanism where an acute rise in blood pressure increases biomechanical stress on the arterial walls, which induces RASMC death, and thus, may lead to aortic dissection. Azelnidipine may be used as a pharmacotherapeutic agent for prevention of aortic dissection independent of its blood pressure lowering effect.
Highlights
With the rapid progress of population aging in most developed countries, the number of patients with atherosclerosis has remarkably increased; this is becoming an extremely serious problem requiring urgent attention [1,2]
We hypothesized that acute mechanical stretching force, which mimics an acute rise in blood pressure, may cause rat aortic smooth muscle cell (RASMC) death including apoptosis, leading to the occurrence of aortic dissection
These results suggest that cyclic mechanical stretch induced cell death in RASMCs
Summary
With the rapid progress of population aging in most developed countries, the number of patients with atherosclerosis has remarkably increased; this is becoming an extremely serious problem requiring urgent attention [1,2]. It has been reported that various endovascular techniques with minimally invasive characteristics have been applied extensively to elderly patients and have proven to be effective in acute aortic dissection treatment. Collins et al reported that progressive loss of smooth muscle cells is observed in the specimens of acute aortic dissection characterized by aortic medial degeneration [5]. Hipper and Isenberg found that cyclic mechanical strain reduced DNA synthesis in VSMCs [8]. Along with these findings, we hypothesized that acute mechanical stretching force, which mimics an acute rise in blood pressure, may cause rat aortic smooth muscle cell (RASMC) death including apoptosis, leading to the occurrence of aortic dissection
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