Hayashi M, Matsushita T, Mackman N, Ito M, Adachi T, Katsumi A, Yamamoto K, Takeshita K, Kojima T, Saito H, Murohara T, Naoe T
Department of Cardiology, Nagoya University Graduate School of Medicine, Japan.
J Thromb Haemost. 2006 Jan;4(1):177-85. doi: 10.1111/j.1538-7836.2005.01679.x.
We previously reported that the targeted disruption of murine antithrombin (AT) gene resulted in embryonic lethality before 16.5 gestational days (gd) because of severe cardiac and hepatic thrombosis.
To investigate the influences of lowered tissue factor (TF) activity upon hypercoagulation of AT-/- embryos, we crossed AT+/- with low TF (mTF-/- hTF+) mice to yield homozygous AT-deficient mice with the extremely low TF activity, that is expressed from the inserted human TF mini gene.
AT-/- embryos either with 50% TF (AT-/- mTF+/- hTF+) or with low (approximately 1% TF, AT-/- mTF-/- hTF+) were not born, although the survival was prolonged until 18.5 gd. In both genotypes, histological examination showed disseminated thrombosis in hepatic sinusoidal space or in the portal veins, suggesting that the thrombogenesis caused loss of hepatic blood flow. As in original AT-/-, AT-/- mTF+/- hTF+ showed subcutaneous (s.c.) bleeding and also suffered from the myocardial degeneration apparently because of coronary thrombus formation. However, AT-/- mTF-/- hTF+ had no skin hemorrhage and the thrombosis and degeneration were completely abolished in the heart. Myocardium of adult low TF mice had exhibited fibrosis secondary to hemorrhage; however, it was significantly decreased in low TF mice with AT+/-.
Our current model suggests that, in the heart, TF plays an important role in the thrombogenesis and it counterbalances AT-dependent anticoagulation. AT may be a potent anticoagulant during mice development and the activation and subsequent regulation of TF-procoagulant activity take place differently between the liver and the heart. These differences appear to point to local regulatory mechanisms in murine hemostasis.
我们先前报道,由于严重的心脏和肝脏血栓形成,小鼠抗凝血酶(AT)基因的靶向破坏导致胚胎在妊娠16.5天(gd)之前死亡。
为了研究组织因子(TF)活性降低对AT-/-胚胎高凝状态的影响,我们将AT+/-与低TF(mTF-/- hTF+)小鼠杂交,以产生具有极低TF活性的纯合AT缺陷小鼠,该活性由插入的人TF小基因表达。
具有50%TF(AT-/- mTF+/- hTF+)或低TF(约1%TF,AT-/- mTF-/- hTF+)的AT-/-胚胎均未出生,尽管存活时间延长至18.5 gd。在两种基因型中,组织学检查均显示肝窦间隙或门静脉内有弥漫性血栓形成,提示血栓形成导致肝血流丧失。与原始AT-/-一样,AT-/- mTF+/- hTF+表现出皮下(s.c.)出血,并且显然由于冠状动脉血栓形成而患有心肌变性。然而,AT-/- mTF-/- hTF+没有皮肤出血,心脏中的血栓形成和变性完全消失。成年低TF小鼠的心肌因出血而出现纤维化;然而,在AT+/-的低TF小鼠中,这种纤维化明显减少。
我们目前的模型表明,在心脏中,TF在血栓形成中起重要作用,并且它与AT依赖性抗凝作用相互平衡。在小鼠发育过程中,AT可能是一种有效的抗凝剂,并且TF促凝活性的激活及其随后的调节在肝脏和心脏之间的发生方式不同。这些差异似乎指向小鼠止血中的局部调节机制。
