Intrarectal Xyloglucan Administration Reduces Disease Severity in the Dextran Sodium Sulfate Model of Mouse Colitis.

IF 2.5 Q2 GASTROENTEROLOGY & HEPATOLOGY

Clinical and Experimental Gastroenterology Pub Date : 2021-11-03 eCollection Date: 2021-01-01 DOI:10.2147/CEG.S325945

Edward A Ross, Madelyn H Miller, Allison Pacheco, Alicia R Willenberg, Justine T Tigno-Aranjuez, Kaitlyn E Crawford

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引用次数: 1

Abstract

Background: The pathophysiology of inflammatory bowel diseases remains poorly understood and treatment remains suboptimal for many patients. We hypothesize that the inflammatory milieu secondarily prolongs the injury and attenuates healing. We propose primary or adjuvant therapy with biocompatible adhesives to restore a barrier to protect submucosal structures, particularly stem cells.

Methods: We used the well-described mouse dextran sodium sulfate (DSS) model of colitis resembling human ulcerative colitis to test the therapeutic efficacy of intrarectal administration of the tamarind plant-derived xyloglucan (TXG) polymer adhesive which underwent extensive analytic characterization. Mice in control, DSS-only, TXG-only, and DSS + TXG groups were studied for gross (weight, blood in stool, length of colon) and multiple histologic parameters.

Results: Compared to DSS-only mice, TXG prevented the weight loss, occurrence of blood in the stool and colon shortening, with all those parameters not being statistically different from treatment naïve animals. Histologically, there was dramatic and highly statistically significant reduction in the total inflammatory index and protection from goblet cell loss, cellular infiltration, crypt abscess formation, epithelial erosion, granulation tissue, epithelial hyperplasia crypt irregularity and crypt loss. The TXG purity and characterization were established by nuclear magnetic resonance, infrared spectroscopy, differential scanning calorimetry, and texture analysis.

Conclusion: The striking attenuation of disease severity by intrarectal TXG use warrants future investigations of natural bioadhesives with well-established high safety profiles, and which could potentially be derivatized to include therapeutically active moieties for local drug delivery.

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直肠内注射木葡聚糖可降低小鼠结肠炎模型的疾病严重程度。

背景:炎症性肠病的病理生理学仍然知之甚少，许多患者的治疗仍然不够理想。我们假设炎症环境继发性地延长了损伤并减弱了愈合。我们建议使用生物相容性粘接剂进行初级或辅助治疗，以恢复保护粘膜下结构的屏障，特别是干细胞。方法:采用已建立的类似人类溃疡性结肠炎的小鼠右旋糖酐硫酸钠(DSS)模型，观察罗望子植物源性木葡聚糖(TXG)聚合物黏合剂直肠内给药的治疗效果，并进行了广泛的分析表征。研究对照组、DSS-单组、DSS-单组和DSS + TXG组小鼠的毛重(体重、便血、结肠长度)和多项组织学指标。结果:与仅使用dss的小鼠相比，TXG可防止体重减轻、便血发生和结肠缩短，所有这些参数与处理naïve动物无统计学差异。组织学上，总的炎症指数和对杯状细胞丢失、细胞浸润、隐窝脓肿形成、上皮糜烂、肉芽组织、上皮增生、隐窝不规则和隐窝丢失的保护显著降低，具有高度统计学意义。采用核磁共振、红外光谱、差示扫描量热、织构分析等方法对TXG进行纯度鉴定。结论:直肠内使用TXG显著降低疾病严重程度，值得未来研究具有良好安全性的天然生物粘合剂，并且可能衍生出用于局部药物递送的治疗活性部分。

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