Adams Elizabeth L, Rice Peter J, Graves Bridget, Ensley Harry E, Yu Hai, Brown Gordon D, Gordon Siamon, Monteiro Mario A, Papp-Szabo Erzsebet, Lowman Douglas W, Power Trevor D, Wempe Michael F, Williams David L
Department of Surgery, PO Box 70575, James H. Quillen College of Medicine, East Tennessee State University, Johnson City, TN 37614, USA.
J Pharmacol Exp Ther. 2008 Apr;325(1):115-23. doi: 10.1124/jpet.107.133124. Epub 2008 Jan 2.
Glucans are structurally diverse fungal biopolymers that stimulate innate immunity and are fungal pathogen-associated molecular patterns. Dectin-1 is a C-type lectin-like pattern recognition receptor that binds glucans and induces innate immune responses to fungal pathogens. We examined the effect of glucan structure on recognition and binding by murine recombinant Dectin-1 with a library of natural product and synthetic (1-->3)-beta/(1-->6)-beta-glucans as well as nonglucan polymers. Dectin-1 is highly specific for glucans with a pure (1-->3)-beta-linked backbone structure. Although Dectin-1 is highly specific for (1-->3)-beta-d-glucans, it does not recognize all glucans equally. Dectin-1 differentially interacted with (1-->3)-beta-d-glucans over a very wide range of binding affinities (2.6 mM-2.2 pM). One of the most striking observations that emerged from this study was the remarkable high-affinity interaction of Dectin-1 with certain glucans (2.2 pM). These data also demonstrated that synthetic glucan ligands interact with Dectin-1 and that binding affinity increased in synthetic glucans containing a single glucose side-chain branch. We also observed differential recognition of glucans derived from saprophytes and pathogens. We found that glucan derived from a saprophytic yeast was recognized with higher affinity than glucan derived from the pathogen Candida albicans. Structural analysis demonstrated that glucan backbone chain length and (1-->6)-beta side-chain branching strongly influenced Dectin-1 binding affinity. These data demonstrate: 1) the specificity of Dectin-1 for glucans; 2) that Dectin-1 differentiates between glucan ligands based on structural determinants; and 3) that Dectin-1 can recognize and interact with both natural product and synthetic glucan ligands.
葡聚糖是结构多样的真菌生物聚合物,可刺激先天免疫,是真菌病原体相关分子模式。脱噬素-1是一种C型凝集素样模式识别受体,可结合葡聚糖并诱导对真菌病原体的先天免疫反应。我们用天然产物和合成的(1→3)-β/(1→6)-β-葡聚糖库以及非葡聚糖聚合物库,研究了葡聚糖结构对小鼠重组脱噬素-1识别和结合的影响。脱噬素-1对具有纯(1→3)-β-连接主链结构的葡聚糖具有高度特异性。尽管脱噬素-1对(1→3)-β-d-葡聚糖具有高度特异性,但它对所有葡聚糖的识别并不相同。脱噬素-1在非常广泛的结合亲和力范围(2.6 mM - 2.2 pM)内与(1→3)-β-d-葡聚糖有不同的相互作用。这项研究中最引人注目的观察结果之一是脱噬素-1与某些葡聚糖(2.2 pM)之间显著的高亲和力相互作用。这些数据还表明合成葡聚糖配体与脱噬素-1相互作用,并且在含有单个葡萄糖侧链分支的合成葡聚糖中结合亲和力增加。我们还观察到来自腐生菌和病原体的葡聚糖的差异识别。我们发现来自腐生酵母的葡聚糖比来自病原体白色念珠菌的葡聚糖具有更高的亲和力。结构分析表明,葡聚糖主链链长和(1→6)-β侧链分支强烈影响脱噬素-1的结合亲和力。这些数据表明:1)脱噬素-1对葡聚糖的特异性;2)脱噬素-1根据结构决定因素区分葡聚糖配体;3)脱噬素-1可以识别天然产物和合成葡聚糖配体并与之相互作用。
