Klkb1-/- 小鼠的血栓形成减少是由 Mas 受体、前列环素、Sirt1、KLF4 增加和组织因子减少介导的。
Reduced thrombosis in Klkb1-/- mice is mediated by increased Mas receptor, prostacyclin, Sirt1, and KLF4 and decreased tissue factor.
机构信息
Divisions of Hematology and Oncology, Department of Medicine, Case Western Reserve University, Cleveland, OH; Department of Medicine, Louis Stokes Veterans Administration Hospital, Cleveland, OH;
Divisions of Hematology and Oncology, Department of Medicine, Case Western Reserve University, Cleveland, OH; Department of Pathology, Case Western Reserve University, Cleveland, OH;
出版信息
Blood. 2015 Jan 22;125(4):710-9. doi: 10.1182/blood-2014-01-550285. Epub 2014 Oct 22.
The precise mechanism for reduced thrombosis in prekallikrein null mice (Klkb1(-/-)) is unknown. Klkb1(-/-) mice have delayed carotid artery occlusion times on the rose bengal and ferric chloride thrombosis models. Klkb1(-/-) plasmas have long-activated partial thromboplastin times and defective contact activation-induced thrombin generation that partially corrects upon prolonged incubation. However, in contact activation-induced pulmonary thromboembolism by collagen/epinephrine or long-chain polyphosphate, Klkb1(-/-) mice, unlike F12(-/-) mice, do not have survival advantage. Klkb1(-/-) mice have reduced plasma BK levels and renal B2R mRNA. They also have increased expression of the renal receptor Mas and plasma prostacyclin. Increased prostacyclin is associated with elevated aortic vasculoprotective transcription factors Sirt1 and KLF4. Treatment of Klkb1(-/-) mice with the Mas antagonist A-779, COX-2 inhibitor nimesulide, or Sirt1 inhibitor splitomicin lowers plasma prostacyclin and normalizes arterial thrombosis times. Treatment of normal mice with the Mas agonist AVE0991 reduces thrombosis. Klkb1(-/-) mice have reduced aortic tissue factor (TF) mRNA, antigen, and activity. In sum, Klkb1(-/-) mice have a novel mechanism for thrombosis protection in addition to reduced contact activation. This pathway arises when bradykinin delivery to vasculature is compromised and mediated by increased receptor Mas, prostacyclin, Sirt1, and KLF4, leading to reduced vascular TF.
激肽释放酶原缺失(Klkb1(-/-))小鼠的血栓形成减少的确切机制尚不清楚。Klkb1(-/-)小鼠在玫瑰 Bengal 和三氯化铁血栓形成模型中的颈动脉闭塞时间延迟。Klkb1(-/-)血浆具有较长的部分凝血活酶时间和缺陷的接触激活诱导的凝血酶生成,在延长孵育时间后部分纠正。然而,在胶原/肾上腺素或长链多聚磷酸盐诱导的接触激活性肺血栓栓塞症中,与 F12(-/-)小鼠不同,Klkb1(-/-)小鼠没有生存优势。Klkb1(-/-)小鼠的血浆 BK 水平和肾脏 B2R mRNA 降低。它们还表现出肾受体 Mas 和血浆前列环素表达增加。前列环素增加与主动脉血管保护转录因子 Sirt1 和 KLF4 的升高有关。用 Mas 拮抗剂 A-779、COX-2 抑制剂尼美舒利或 Sirt1 抑制剂分裂霉素治疗 Klkb1(-/-)小鼠可降低血浆前列环素并使动脉血栓形成时间正常化。用 Mas 激动剂 AVE0991 治疗正常小鼠可减少血栓形成。Klkb1(-/-)小鼠的主动脉组织因子(TF)mRNA、抗原和活性降低。总之,Klkb1(-/-)小鼠除了接触激活减少外,还有一种新的血栓形成保护机制。当血管内皮细胞中缓激肽的传递受损时,这种途径就会出现,并由受体 Mas、前列环素、Sirt1 和 KLF4 的增加介导,导致血管 TF 减少。
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