Wuescher L M, Takashima A, Worth R G
Department of Medical Microbiology and Immunology, University of Toledo College of Medicine and Life Sciences, Toledo, OH, USA.
J Thromb Haemost. 2015 Feb;13(2):303-13. doi: 10.1111/jth.12795. Epub 2014 Dec 30.
Platelets are critical cells for maintaining vascular hemostasis, but their activities in other processes are becoming apparent. Specifically, the ability of platelets to recognize and respond to infectious agents is an important area of investigation. To understand the physiologic roles of platelets in vivo, most researchers have used antibody-mediated platelet depletion, which has certain limitations.
To develop an optimal system with which to study the contribution of platelets to protection against S. aureus blood infection.
Here, we describe a novel experimental model of conditional platelet depletion based on the Cre-recombinase cell ablation system. With this technology, the simian diphtheria toxin receptor was expressed in platelet factor 4-positive cells (megakaryocytes and platelets).
Systemic administration of diphtheria toxin every 48 h resulted in reduced platelet numbers that became undetectable after 6 days. Although platelets were depleted, no other blood cells were affected. With this newly developed model, the functional contributions of platelets to protection against Staphylococcus aureus bacteremia was examined. Platelet-depleted mice succumbed to infection more rapidly than wild-type mice, and had a significantly higher bacterial burden in kidneys, elevated levels of serum markers of kidney damage, and increased levels of cytokines indicative of septic shock.
Here, we illustrate a new mouse model for conditional platelet depletion, and implicate platelets as important participants in the immune response to bacterial blood infections.
血小板是维持血管止血的关键细胞,但其在其他过程中的作用也日益明显。具体而言,血小板识别和应对感染因子的能力是一个重要的研究领域。为了解血小板在体内的生理作用,大多数研究人员使用了抗体介导的血小板清除法,但该方法存在一定局限性。
建立一个优化系统,用于研究血小板在抵御金黄色葡萄球菌血液感染中的作用。
在此,我们描述了一种基于Cre重组酶细胞消融系统的条件性血小板清除的新型实验模型。利用该技术,在血小板因子4阳性细胞(巨核细胞和血小板)中表达猿猴白喉毒素受体。
每48小时全身注射一次白喉毒素导致血小板数量减少,6天后无法检测到血小板。虽然血小板被清除,但其他血细胞未受影响。利用这个新建立的模型,研究了血小板在抵御金黄色葡萄球菌菌血症中的功能作用。血小板清除的小鼠比野生型小鼠更快死于感染,肾脏中的细菌载量显著更高,肾脏损伤血清标志物水平升高,以及表明脓毒性休克的细胞因子水平增加。
在此,我们阐述了一种用于条件性血小板清除的新小鼠模型,并表明血小板是细菌血液感染免疫反应的重要参与者。