Ingalls R R, Monks B G, Savedra R, Christ W J, Delude R L, Medvedev A E, Espevik T, Golenbock D T
Department of Medicine, Boston Medical Center, Boston University School of Medicine, MA 02118, USA.
J Immunol. 1998 Nov 15;161(10):5413-20.
The activation of phagocytes by the lipid A moiety of LPS has been implicated in the pathogenesis of Gram-negative sepsis. While two LPS receptors, CD14 and CD11/CD18, have been associated with cell signaling, details of the LPS signal transduction cascade remain obscure. CD14, which exists as a GPI-anchored and a soluble protein, lacks cytoplasmic-signaling domains, suggesting that an ancillary molecule is required to activate cells. The CD11/CD18 integrins are transmembrane proteins. Like CD14, they are capable of mediating LPS-induced cellular activation when expressed on the surface of hamster fibroblasts Chinese hamster ovary (CHO)-K1. The observation that a cytoplasmic deletion mutant is still capable of activating transfected CHO-K1 argues that CD11/CD18 also utilizes an associated signal transducer. We sought to identify further similarities between the signaling systems utilized by CD14 and CD11/CD18. LPS-binding protein, which transfers LPS to CD14, enhanced both LPS-induced cellular activation and binding of Gram-negative bacteria in CD11/CD18-transfected CHO-K1, thus implying that LPS-binding protein can also transfer LPS to CD11/CD18. When synthetic lipid A analogues were analyzed for their ability to function as LPS agonists, or antagonists, in the CHO transfectants, we found the effects were identical regardless of which LPS receptor was expressed. This supports the hypothesis that a receptor distinct from CD14 and CD11/CD18 is responsible for discriminating between the lipid A of LPS and the LPS antagonists. We propose that this receptor, which is the target of the LPS antagonists, functions as the true signal transducer in LPS-induced cellular activation for both CD14 and CD11/CD18.
脂多糖(LPS)的脂质A部分对吞噬细胞的激活与革兰氏阴性菌败血症的发病机制有关。虽然两种LPS受体,即CD14和CD11/CD18,已被证实与细胞信号传导有关,但LPS信号转导级联反应的细节仍不清楚。CD14以糖基磷脂酰肌醇(GPI)锚定蛋白和可溶性蛋白的形式存在,缺乏细胞质信号结构域,这表明需要一个辅助分子来激活细胞。CD11/CD18整合素是跨膜蛋白。与CD14一样,当它们在仓鼠成纤维细胞中国仓鼠卵巢(CHO)-K1表面表达时,能够介导LPS诱导的细胞活化。细胞质缺失突变体仍能激活转染的CHO-K1这一观察结果表明,CD11/CD18也利用相关的信号转导分子。我们试图进一步确定CD14和CD11/CD18所利用的信号系统之间的相似性。将LPS转移至CD14的LPS结合蛋白,增强了LPS诱导的细胞活化以及在CD11/CD18转染的CHO-K1中革兰氏阴性菌的结合,因此意味着LPS结合蛋白也能将LPS转移至CD11/CD18。当分析合成脂质A类似物在CHO转染细胞中作为LPS激动剂或拮抗剂的功能时,我们发现无论表达哪种LPS受体,其效果都是相同的。这支持了一种假说,即一种不同于CD14和CD11/CD18的受体负责区分LPS的脂质A和LPS拮抗剂。我们提出,这种作为LPS拮抗剂靶点的受体,在LPS诱导的CD14和CD11/CD18细胞活化中作为真正的信号转导分子发挥作用。
