The Molecular Medicine Program, University of Utah, Salt Lake City, UT 84112, USA.
Blood. 2012 Dec 13;120(25):5014-20. doi: 10.1182/blood-2012-04-420661. Epub 2012 Oct 18.
Bacteria can enter the bloodstream in response to infectious insults. Bacteremia elicits several immune and clinical complications, including thrombocytopenia. A primary cause of thrombocytopenia is shortened survival of platelets. We demonstrate that pathogenic bacteria induce apoptotic events in platelets that include calpain-mediated degradation of Bcl-x(L), an essential regulator of platelet survival. Specifically, bloodstream bacterial isolates from patients with sepsis induce lateral condensation of actin, impair mitochondrial membrane potential, and degrade Bcl-x(L) protein in platelets. Bcl-x(L) protein degradation is enhanced when platelets are exposed to pathogenic Escherichia coli that produce the pore-forming toxin α-hemolysin, a response that is markedly attenuated when the gene is deleted from E coli. We also found that nonpathogenic E coli gain degrading activity when they are forced to express α-hemolysin. Like α-hemolysin, purified α-toxin readily degrades Bcl-x(L) protein in platelets, as do clinical Staphylococcus aureus isolates that produce α-toxin. Inhibition of calpain activity, but not the proteasome, rescues Bcl-x(L) protein degradation in platelets coincubated with pathogenic E coli including α-hemolysin producing strains. This is the first evidence that pathogenic bacteria can trigger activation of the platelet intrinsic apoptosis program and our results suggest a new mechanism by which bacterial pathogens might cause thrombocytopenia in patients with bloodstream infections.
细菌可以在受到感染性刺激时进入血液。菌血症会引发多种免疫和临床并发症,包括血小板减少症。血小板减少症的一个主要原因是血小板的存活时间缩短。我们证明,致病性细菌会在血小板中引发凋亡事件,包括钙蛋白酶介导的 Bcl-x(L)降解,Bcl-x(L)是血小板存活的重要调节剂。具体来说,败血症患者血液中的分离菌会诱导血小板中肌动蛋白的侧向凝聚,损害线粒体膜电位,并降解血小板中的 Bcl-x(L)蛋白。当血小板暴露于产生孔形成毒素 α-溶血素的致病性大肠杆菌时,Bcl-x(L)蛋白降解会增强,而当从大肠杆菌中删除该基因时,这种反应会明显减弱。我们还发现,当非致病性大肠杆菌被迫表达 α-溶血素时,它们会获得降解活性。与 α-溶血素一样,纯化的 α-毒素也容易在血小板中降解 Bcl-x(L)蛋白,产生 α-毒素的临床金黄色葡萄球菌分离株也是如此。钙蛋白酶活性的抑制,但不是蛋白酶体的抑制,可挽救与致病性大肠杆菌(包括产生 α-溶血素的菌株)共孵育的血小板中 Bcl-x(L)蛋白的降解。这是第一个证据表明,致病性细菌可以触发血小板内在凋亡程序的激活,我们的结果表明,细菌病原体可能通过一种新的机制在血流感染患者中引起血小板减少症。