通过荧光接近分析和正常模式分析,推测热休克蛋白 70 与高级糖化终产物受体的复合物模型。

Cell Stress and Chaperones Pub Date : 2017-01-01 Epub Date: 2016-11-17 DOI:10.1007/s12192-016-0746-9
Marcelo Sartori Grunwald, Rodrigo Ligabue-Braun, Cristiane Santos Souza, Luana Heimfarth, Hugo Verli, Daniel Pens Gelain, José Cláudio Fonseca Moreira
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引用次数: 0

摘要

细胞外热休克蛋白 70 (HSP70) 可被质膜上的受体识别,如 Toll 样受体 4 (TLR4)、TLR2、CD14 和 CD40。这将导致核因子卡巴 B(NF-κB)的激活、促炎细胞因子的释放、先天性免疫细胞吞噬活性的增强以及抗原特异性反应的刺激。然而,HSP70 结合的具体特征尚不清楚,所有的 HSP70 受体也尚未被描述。考虑到 HSP70 的 ADP 结合态和 ATP 结合态,通过分子对接和相互作用能量计算,获得了 HSP70 与高级糖化终产物受体(RAGEs)复合物的推测模型。在 A549 细胞中通过基于近距离荧光的检测方法检测和观察了这种相互作用,并通过对接复合物的正常模式分析进一步分析了这种相互作用。复合物的相互作用能表明,最有利的对接情况发生在 ATP 结合的 HSP70 和单体状态的 RAGE 之间。荧光接近分析显示,在 HSP70 ATP 处理中检测到的光点数量较多,这与计算结果相吻合。正常模式分析显示,复合物的相互作用界面没有构象变形。我们将研究结果与之前的研究结果进行了比较,在之前的研究中,氧化的 HSP70 被证明对巨噬细胞活化的不同调节作用,而巨噬细胞活化可能是由 RAGE 结合引发的信号通路的结果。我们的数据提供了有关 HSP70 结合和受体相互作用特征的重要见解,以及在界面区具有保守残基的推定模型,这可能对未来的定点诱变研究有用。
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Putative model for heat shock protein 70 complexation with receptor of advanced glycation end products through fluorescence proximity assays and normal mode analyses.

Extracellular heat shock protein 70 (HSP70) is recognized by receptors on the plasma membrane, such as Toll-like receptor 4 (TLR4), TLR2, CD14, and CD40. This leads to activation of nuclear factor-kappa B (NF-κB), release of pro-inflammatory cytokines, enhancement of the phagocytic activity of innate immune cells, and stimulation of antigen-specific responses. However, the specific characteristics of HSP70 binding are still unknown, and all HSP70 receptors have not yet been described. Putative models for HSP70 complexation to the receptor for advanced glycation endproducts (RAGEs), considering both ADP- and ATP-bound states of HSP70, were obtained through molecular docking and interaction energy calculations. This interaction was detected and visualized by a proximity fluorescence-based assay in A549 cells and further analyzed by normal mode analyses of the docking complexes. The interacting energy of the complexes showed that the most favored docking situation occurs between HSP70 ATP-bound and RAGE in its monomeric state. The fluorescence proximity assay presented a higher number of detected spots in the HSP70 ATP treatment, corroborating with the computational result. Normal-mode analyses showed no conformational deformability in the interacting interface of the complexes. Results were compared with previous findings in which oxidized HSP70 was shown to be responsible for the differential modulation of macrophage activation, which could result from a signaling pathway triggered by RAGE binding. Our data provide important insights into the characteristics of HSP70 binding and receptor interactions, as well as putative models with conserved residues on the interface area, which could be useful for future site-directed mutagenesis studies.

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