1, 6-dilauroyl-D-fructofuranose ameliorates lipopolysaccharide-induced septic acute kidney injury via inhibiting caspase 1 mediated pyroptosis formation in rat.

Journal of the Chinese Medical Association : JCMA Pub Date : 2024-12-01 Epub Date: 2024-08-13 DOI:10.1097/JCMA.0000000000001151

Ping-Hsun Yu, Yu-Hsuan Cheng, Shiu-Dong Chung, Chiang-Ting Chien

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Abstract

Background: Sepsis is a systemic inflammatory state associated with acute kidney injury (AKI) and high mortality. However, sepsis-induced AKI cannot be effectively prevented or treated using current antimicrobial therapies and supportive measures. We explored the therapeutic effect of newly developed fructose esters on sepsis-induced AKI (S-AKI).

Methods: We used the surface plasmon resonance technique and ultrasensitive chemiluminescence analyzer to characterize the lipopolysaccharide (LPS)/endotoxin binding activity and antioxidant capability of fructose esters. We assessed the extent of fructose ester gastrointestinal digestion using rat intestinal acetone powder. We examined the therapeutic effect of fructose esters on LPS-induced S-AKI by evaluating the blood and renal reactive oxygen species (ROS) amounts, caspase 1 mediated pyroptosis, inflammation, microcirculation, and renal dysfunction.

Results: Our data showed that the fructose esters are not easily hydrolyzed by the rat intestinal acetone powder, suggesting their high stability in the gastrointestinal tract. 1,6-dilauroyl-D-fructofuranose (FDL) dose-dependently scavenged H2O2 and displayed a higher binding affinity to LPS compared to sialic acid and fructose did. LPS significantly enhanced caspase 1 mediated pyroptosis and increased leukocyte infiltration, blood and renal ROS amount, and blood urea nitrogen (BUN) and creatinine level, whereas FDL significantly depressed these LPS-enhanced parameters. In addition, the increased plasma inflammatory cytokines levels using LPS could be reduced by intravenous fructose ester FDL treatment.

Conclusion: Our data suggest that FDL, with its antioxidant activity against H2O2, can neutralize LPS toxicity using a high binding affinity, and attenuate S-AKI by inhibiting caspase 1 mediated pyroptosis, thereby ameliorating renal oxidative stress and dysfunction.

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1,6 -二脲酰-d -果糖呋喃糖通过抑制caspase 1介导的大鼠焦亡来改善脂多糖诱导的脓毒性急性肾损伤。

背景：脓毒症是一种与急性肾损伤（AKI）和高死亡率相关的全身性炎症状态。然而，目前的抗菌治疗和支持措施无法有效预防或治疗败血症引起的AKI。我们探讨了新开发的果糖酯对败血症性AKI （S-AKI）的治疗作用。方法：采用表面等离子体共振技术和超灵敏化学发光分析仪对果糖酯的脂多糖/内毒素结合活性和抗氧化能力进行表征。我们用大鼠肠丙酮粉评价果糖酯的胃肠消化程度。我们通过评估血液和肾脏活性氧（ROS）数量、半胱天冬酶1介导的焦亡、炎症、微循环和肾功能障碍来研究果糖酯对lps诱导的S-AKI的治疗效果。结果：我们的数据显示果糖酯不易被大鼠肠道丙酮粉水解，表明其在胃肠道中的稳定性较高。与唾液酸和果糖相比，1,6-二脲酰-d -果糖呋喃糖（FDL）具有剂量依赖性，能够清除H2O2，并且对LPS具有更高的结合亲和力。LPS显著增强了caspase 1介导的焦亡，增加了白细胞浸润、血液和肾脏ROS数量、血尿素氮（BUN）和肌酐水平，而FDL显著抑制了LPS增强的这些参数。此外，静脉注射果糖酯FDL可以降低LPS引起的血浆炎症细胞因子水平升高。结论：FDL具有抗H2O2的活性，可以通过高结合亲和力中和LPS毒性，并通过抑制caspase 1介导的焦亡来减轻S-AKI，从而改善肾脏氧化应激和功能障碍。

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Journal of the Chinese Medical Association : JCMA

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