曲尼司特抑制转化生长因子的激活猪冠状动脉支架植入术后的系统、白细胞积累和新生内膜生长

M. Ward, A. Agrotis, P. Kanellakis, John Hall, G. Jennings, A. Bobik
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引用次数: 57

摘要

N(3,4-二甲氧基肉桂酰)邻氨基苯酸(曲尼司特)可阻止转化生长因子(TGF)的异构体和受体的同步上调-&bgr;动脉损伤后的系统和减少人冠状动脉成形术后的再狭窄。然而,曲尼司特的作用和TGF-&bgr;在支架再狭窄的系统中,向内重构不重要,但炎症细胞对新内膜形成的刺激被夸大,这是不确定的。用曲尼司特或对照剂治疗波士顿小猪,进行腔内支架植入,在28天内评估TGF-&bgr;1和TGF-&bgr;3的表达、它们的信号受体ALK-5和T&bgr;R-II的表达、支架支架周围的白细胞数量和新内膜的发展情况。支架植入术早期(5 d) 2 TGF-&bgr mRNA表达显著升高;同工异构体及其受体。免疫组织化学定位显示,它们在支架支架附近的区域浓度最高,那里白细胞和胶原沉积普遍存在。曲尼司特抑制TGF-&bgr的升高;mrna和减少的免疫反应肽在支架支架周围可检测到。曲尼司特也极大地抑制了这些区域白细胞的积累和胶原的沉积。这些效果与28天最大内膜横截面积减少48%和平均内膜横截面积减少43%相关(P <0.05)。我们得出结论,曲尼司特抑制支架植入术后新生内膜的发展,其作用至少部分归因于其减弱TGF-&bgr;支架支架周围的系统和白细胞积聚。
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Tranilast Prevents Activation of Transforming Growth Factor-&bgr; System, Leukocyte Accumulation, and Neointimal Growth in Porcine Coronary Arteries After Stenting
N (3,4-Dimethoxycinnamoyl) anthranilic acid (tranilast) prevents the synchronous upregulation of isoforms and receptors of the transforming growth factor (TGF)-&bgr; system after arterial injury and reduces restenosis after human coronary angioplasty. However, the effects of tranilast and the importance of the TGF-&bgr; system in stent restenosis, in which inward remodeling is unimportant but inflammatory cell stimulation of neointima formation is exaggerated, are uncertain. Boston minipigs, treated with tranilast or vehicle, were subjected to endoluminal stenting, and the expression of TGF-&bgr;1 and TGF-&bgr;3, the expression of their signaling receptors ALK-5 and T&bgr;R-II, leukocyte numbers around the stent struts, and neointima development were assessed over 28 days. Stenting greatly increased early (5-day) mRNA expression of the 2 TGF-&bgr; isoforms and their receptors. Immunohistochemical localization later showed that their concentrations were greatest in regions adjacent to stent struts, where leukocytes and collagen deposition were prevalent. Tranilast suppressed these elevations in TGF-&bgr; mRNAs and reduced their immunoreactive peptides detectable around stent struts. The accumulation of leukocytes and deposition of collagen in these regions was also greatly inhibited by tranilast. These effects were associated with a 48% reduction in maximal neointimal cross-sectional area and 43% reduction in mean neointimal cross-sectional area at 28 days (P <0.05). We conclude that tranilast suppresses neointima development after stenting, effects that can be at least partly attributed to its ability to attenuate the induction of the TGF-&bgr; system and leukocyte accumulation around stent struts.
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