Cryptococcus neoformans is a fungal pathogen that causes fatal meningitis and pneumonia. During host defense to Cryptococcus, NK cells directly recognize and kill C. neoformans using cytolytic degranulation analogous to killing of tumor cells. This fungal killing requires independent activation of Src family kinase (SFK) and Rac1-mediated pathways. Recognition of C. neoformans requires the natural cytotoxicity receptor, NKp30; however, it is not known whether NKp30 activates both signal transduction pathways or whether a second receptor is involved in activation of one of the pathways. We used primary human NK cells and a human NK cell line and found that NKp30 activates SFK → PI3K but not Rac1 cytotoxic signaling, which led to a search for the receptor leading to Rac1 activation. We found that NK cells require integrin-linked kinase (ILK) to activate Rac1 for effective fungal killing. This observation led to our identification of β1 integrin as an essential anticryptococcal receptor. These findings demonstrate that multiple receptors, including β1 integrins and NKp30 and their proximal signaling pathways, are required for recognition of Cryptococcus, which activates a central cytolytic antimicrobial pathway leading to fungal killing.

译文

新型隐球菌是一种真菌病原体,会导致致命的脑膜炎和肺炎。在宿主对隐球菌的防御过程中,NK细胞使用类似于杀死肿瘤细胞的溶细胞脱颗粒法直接识别并杀死新生梭菌。这种真菌杀死需要独立激活Src家族激酶 (SFK) 和Rac1-mediated途径。新生梭菌的识别需要天然细胞毒性受体NKp30; 但是,尚不清楚NKp30是否激活了这两种信号转导途径,或者第二种受体是否参与了其中一条途径的激活。我们使用原代人类NK细胞和人类NK细胞系,发现NKp30激活SFK → PI3K,但不激活Rac1细胞毒性信号,这导致寻找导致Rac1激活的受体。我们发现NK细胞需要整合素连接激酶 (ILK) 来激活Rac1以有效杀死真菌。这一观察结果导致我们将 β1整联蛋白鉴定为必不可少的抗链球菌受体。这些发现表明,识别隐球菌需要多种受体,包括 β1整联蛋白和NKp30及其近端信号通路,隐球菌激活了导致真菌杀死的中央溶细胞抗菌途径。

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