短期和长期氟伐他汀抑制血栓软蛋白-1对人血管平滑肌细胞的影响

Vascular and endovascular surgery Pub Date : 2025-01-01 Epub Date: 2024-09-05 DOI:10.1177/15385744241279113
Kristopher Maier, Alex Helkin, Jeffrey J Stein, Helen L Yuan, Keri Seymour, Boris Ryabtsev, Chinenye Iwuchukwu, Vivian Gahtan
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引用次数: 0

摘要

简介血管平滑肌细胞在血管内膜增生中起着重要作用。血栓软蛋白-1是一种参与血管损伤反应的母细胞蛋白。他汀类药物是降低胆固醇的药物,对心血管有益。研究表明,他汀类药物可通过甲羟戊酸途径抑制平滑肌迁移。这种作用被认为是由小 G 蛋白 Ras 和 Rho 的转换介导的,而这种转换需要多个小时。虽然许多接受血管疾病治疗的患者都服用了他汀类药物,但也有许多患者没有服用。因此,手术前立即使用他汀类药物进行预处理可能是有益的。我们假设他汀类药物具有独立于甲羟戊酸途径的作用,因此可以立即见效。方法:用氟伐他汀或甲羟戊酸内酯加氟伐他汀预处理人血管平滑肌细胞 20 小时(长期)或 20 分钟(短期)。测定血栓松蛋白-1诱导的迁移、p42/p44细胞外信号调节激酶、c-Src、局灶粘附激酶和PI3激酶的活化。检测氟伐他汀对血栓软骨素-1诱导的 THBS1、FOS、HAS2 和 TGFB2 表达的影响:结果:两种治疗方法都能抑制血栓软蛋白-1诱导的趋化,使其恢复到对照组。甲磺内酯通过增加迁移逆转了他汀类药物的长期效应,但对他汀类药物的短期反应没有影响。p42/p44细胞外信号调节激酶被血栓松蛋白-1激活,两种处理方法都增强了激活。两种治疗方法都不影响 c-Src 的活性,但都抑制了病灶粘附激酶和 PI3 激酶的活性。只有长期他汀治疗抑制了 THBS1 的表达,而两种治疗方法都抑制了 FOS 和 TGFB2 的表达。两种治疗方法都不影响 HAS2。敲除 FOS 可抑制血栓软蛋白-1 诱导的 HAS2 基因表达,但不能抑制 TGFβ2 基因表达:结论:长期氟伐他汀通过甲羟戊酸途径抑制凝血活酶-1诱导的趋化作用,而短期氟伐他汀通过另一种机制抑制趋化作用。短期染色剂具有独立于甲羟戊酸途径的即时效应。使用他汀类药物进行急性局部治疗后再进行长期治疗,可能会限制血管对损伤的反应。
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Short-Term and Long-Term Fluvastatin Inhibit Effects of Thrombospondin-1 on Human Vascular Smooth Muscle Cells.

Introduction: Vascular smooth muscle cells are important in intimal hyperplasia. Thrombospondin-1 is a matricellular protein involved in the vascular injury response. Statins are cholesterol lowering drugs that have beneficial cardiovascular effects. Statis have been shown to inhibit smooth muscle migration through the mevalonate pathway. This effect is thought to be mediated by small G protein Ras and Rho turnover which requires many hours. While many patients undergoing treatment for vascular disease are on statins, many are not. Thus immediate pretreatment with statins before surgery may be beneficial. We hypothesized that statins have effects independent of the mevalonate pathway and thus have an immediate effect.

Methods: Human vascular smooth muscle cells were pretreated for 20 h (long-term) or 20 min (short-term) with fluvastatin, or mevalonolactone plus fluvastatin. Thrombospondin-1-induced migration, activation of p42/p44 extracellular signal-regulated kinase, c-Src, focal adhesion kinase and PI3 kinase was determined. The effect of fluvastatin on thrombospondin-1-induced expression of THBS1, FOS, HAS2 and TGFB2 was examined.

Results: Both treatments inhibited thrombospondin-1-induced chemotaxis back to the control group. Mevalonolactone reversed the long-term statin effect by increasing migration but had no effect on the short-term statin response. p42/p44 extracellular signal-regulated kinase was activated by thrombospondin-1 and both treatments augmented activation. Neither treatment affected c-Src activity, but both inhibited focal adhesion kinase and PI3 kinase activity. Only long-term statin treatment inhibited THBS1 expression while both treatments inhibited FOS and TGFB2 expression. Neither treatment affected HAS2. FOS knockdown inhibited thrombospondin-1-induced HAS2 but not TGFβ2 gene expression.

Conclusion: Long-term fluvastatin inhibited thrombospondin-1-induced chemotaxis through the mevalonate pathway while short-term fluvastatin inhibited chemotaxis through an alternate mechanism. Short-term stains have immediate effects independent of the mevalonate pathway. Acute local treatment with statins followed by longer term therapy may limit the vascular response to injury.

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