Chenyao Nie, Ji Xu, Yuhui Zhao, Ke Nan, Manqi Tan, Zhaobo Liu, Ming Huang, Wenzhi Ren, Bing Wang
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引用次数: 0
摘要
尽管目前的抗高尿酸血症药物能有效降低尿酸(UA)水平,但不精确的药物剂量或不加控制地降低尿酸水平可能会导致不良后果。为解决这一问题,我们提出了一种基于生物相容性网络复合材料--NW-FPNP/尿酸酶(UOX)的闭环级联策略,用于按需调节尿酸水平。NW-FPNP/UOX 由 UOX 作为 UA 响应元件,FPNP(一种苯基硼酸修饰的黄嘌呤氧化酶(XOD)抑制剂非布索司他的纳米粒子)作为 H2O2 敏感元件与 AMP/Gd3+ 网络封装而成。它将 UA 代谢和生成过程连接成一个闭合的级联反应循环,其中包括 UOX 催化的 UA 代谢和 H2O2 生成、H2O2 触发的非布索司他再生和 XOD 抑制,以及 XOD 催化的 UA 生成。通过根据 UA 水平自动调整 XOD 活性(特别是在 600 × 10-6 m UA 时为 6%,而在 100 × 10-6 m 时为 82%),可以通过动态平衡 UA 代谢和生成,将 UA 水平调节到适当的范围。这种具有生物兼容性的按需尿酸调节系统可防止过量服用降尿酸药物,避免在高尿酸血症治疗中出现高尿酸血症,在尿酸水平智能管理方面显示出巨大潜力。这项工作还引入了一个新概念,即在特定阈值内按需调节生化指标的闭环级联策略。
A Closed-Loop Cascade Strategy for On-Demand Regulation of Uric Acid.
Despite that the current anti-hyperuricemia drugs can effectively reduce uric acid (UA) levels, imprecise medication dosage or uncontrolled lowering of UA levels may result in undesired effects. To address this issue, a closed-loop cascade strategy based on a biocompatible network composite, NW-FPNP/uricase (UOX), is proposed for on-demand regulation of UA levels. NW-FPNP/UOX is constructed by encapsulation of UOX) as UA-responsive element and FPNP, a nanoparticle of phenylboronic acid modified xanthine oxidase (XOD) inhibitor febuxostat, as H2O2-sensitive element with AMP/Gd3+ network. It interrelates the UA metabolization and generation processes into a closed loop of cascade reactions involving UOX-catalyzed UA metabolization and H2O2 generation, H2O2-triggered febuxostat regeneration and XOD inhibition, and XOD-catalyzed UA generation. Through UA level-dependent auto-adjustment of XOD activity, specially 6% at 600 × 10-6 m UA compared to 82% at 100 × 10-6 m, UA levels can be regulated to an appropriate range through dynamically balancing UA metabolization and generation. This biocompatible on-demand UA regulation system prevents the overdose of UA-lowering medications and avoids hypouricemia in hyperuricemia treatment, demonstrating great potential in intelligent UA level management. This work also introduces a new concept of a closed-loop cascade strategy for on-demand regulation of biochemical indicators within specific thresholds.
期刊介绍:
Advanced Healthcare Materials, a distinguished member of the esteemed Advanced portfolio, has been dedicated to disseminating cutting-edge research on materials, devices, and technologies for enhancing human well-being for over ten years. As a comprehensive journal, it encompasses a wide range of disciplines such as biomaterials, biointerfaces, nanomedicine and nanotechnology, tissue engineering, and regenerative medicine.