Departments of Biology (P.A.P., E.M.K., M.T.T., S.A., J.M.D., S.A.K., T.T.H., B.O.B., J.J.A.M., H.L.C., K.N.K., Y.F., D. B.S., J.J.R.), Internal Medicine (Q.T.L., L.B.S.), Pharmacology and Toxicology (D.A.G.), and Microbiology and Immunology (R.K.M.), Virginia Commonwealth University, Richmond, Virginia.
Departments of Biology (P.A.P., E.M.K., M.T.T., S.A., J.M.D., S.A.K., T.T.H., B.O.B., J.J.A.M., H.L.C., K.N.K., Y.F., D. B.S., J.J.R.), Internal Medicine (Q.T.L., L.B.S.), Pharmacology and Toxicology (D.A.G.), and Microbiology and Immunology (R.K.M.), Virginia Commonwealth University, Richmond, Virginia
J Pharmacol Exp Ther. 2020 Jul;374(1):104-112. doi: 10.1124/jpet.119.264234. Epub 2020 May 20.
Statin drugs are widely employed in the clinic to reduce serum cholesterol. Because of their hydroxymethylglutaryl coenzyme A reductase antagonism, statins also reduce isoprenyl lipids necessary for the membrane anchorage and signaling of small G-proteins in the Ras superfamily. We previously found that statins suppress immunoglobulin E (IgE)-mediated mast cell activation, suggesting these drugs might be useful in treating allergic disease. Although IgE-induced function is critical to allergic inflammation, mast cell proliferation and survival also impact atopic disease and mast cell neoplasia. In this study, we describe fluvastatin-mediated apoptosis in primary and transformed mast cells. An IC was achieved between 0.8 and 3.5 μM in both cell types, concentrations similar to the reported fluvastatin serum C value. Apoptosis was correlated with reduced stem cell factor (SCF)-mediated signal transduction, mitochondrial dysfunction, and caspase activation. Complementing these data, we found that p53 deficiency or Bcl-2 overexpression reduced fluvastatin-induced apoptosis. We also noted evidence of cytoprotective autophagy in primary mast cells treated with fluvastatin. Finally, we found that intraperitoneal fluvastatin treatment reduced peritoneal mast cell numbers These findings offer insight into the mechanisms of mast cell survival and support the possible utility of statins in mast cell-associated allergic and neoplastic diseases. SIGNIFICANCE STATEMENT: Fluvastatin, a statin drug used to lower cholesterol, induces apoptosis in primary and transformed mast cells by antagonizing protein isoprenylation, effectively inhibiting stem cell factor (SCF)-induced survival signals. This drug may be an effective means of suppressing mast cell survival.
他汀类药物被广泛用于临床降低血清胆固醇。由于其羟甲基戊二酰辅酶 A 还原酶拮抗作用,他汀类药物还降低了 Ras 超家族中小 G 蛋白的膜锚定和信号传导所必需的异戊烯脂质。我们之前发现他汀类药物抑制免疫球蛋白 E(IgE)介导的肥大细胞活化,表明这些药物在治疗过敏疾病方面可能有用。尽管 IgE 诱导的功能对过敏炎症至关重要,但肥大细胞增殖和存活也会影响特应性疾病和肥大细胞瘤。在这项研究中,我们描述了氟伐他汀介导的原代和转化的肥大细胞凋亡。在这两种细胞类型中,IC 值在 0.8 和 3.5 μM 之间,浓度与报道的氟伐他汀血清 C 值相似。凋亡与降低干细胞因子(SCF)介导的信号转导、线粒体功能障碍和半胱天冬酶激活相关。补充这些数据,我们发现 p53 缺陷或 Bcl-2 过表达减少了氟伐他汀诱导的凋亡。我们还注意到在氟伐他汀处理的原代肥大细胞中存在细胞保护自噬的证据。最后,我们发现腹腔内氟伐他汀治疗减少了腹腔肥大细胞数量。这些发现提供了对肥大细胞存活机制的深入了解,并支持他汀类药物在肥大细胞相关过敏和肿瘤疾病中的可能应用。意义:氟伐他汀是一种用于降低胆固醇的他汀类药物,通过拮抗蛋白异戊烯化诱导原代和转化的肥大细胞凋亡,有效抑制干细胞因子(SCF)诱导的存活信号。这种药物可能是抑制肥大细胞存活的有效手段。
