苦味植物化学物质通过抑制肠道对葡萄糖的吸收来降低血糖水平

Kimberly Marie Palatini Jackson, Reham Mhawish, S. Komarnytsky
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引用次数: 0

摘要

对于早期类人猿来说,由于经常接触植物性食物,因此必须具备辨别苦味毒物的能力,并在进食富含碳水化合物的食物时调整肠胃系统的活动。尽管苦味植物化学物质的结构种类繁多,却没有一个共同的分子靶标,但历史上人们还是用苦味植物来控制各种代谢和消化紊乱。我们的研究证实了在使用 24 种模型化合物的标准化 C57BL/6J 糖尿病前期小鼠模型中的上述观察结果,结果表明,经胃内而非腹腔治疗后,血糖峰值急剧下降,葡萄糖耐量得到改善。服用合成苦味化合物苯甲酸地那铵也会产生类似的结果,而同时服用苦味 TAS2R 受体的异构抑制剂则会减弱这种结果。我们还发现,这些效应的发生与剂量有关,与葡萄糖摄取减少、细胞内[Ca2+]通量增加和 GLP-1 表达增强有关,并在神经内分泌 STC-1 肠细胞中被 TAS2R 抑制剂减弱。这些发现支持这样一种观点,即肠道中的 TAS2R 苦味受体信号抑制葡萄糖从肠腔向血液的转运可能代表了口服苦味植物化学物质后急性反应的一种共同机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bitter Phytochemicals Acutely Lower Blood Glucose Levels by Inhibition of Glucose Absorption in the Gut
For early hominids, frequent encounters with plant foods necessitated the ability to discern bitter poisons and adjust the activity of the gastrointestinal system in anticipation of carbohydrate-rich meals. Plants bitters were also used historically to manage a variety of metabolic and digestive disorders despite an immense structural diversity of bitter phytochemicals without a common molecular target. Our study confirms these observations in a standardized C57BL/6J prediabetic mouse model using 24 model compounds by demonstrating acute lower peak blood glucose values and improved glucose tolerance following intragastric, but not intraperitoneal, treatment. The administration of the synthetic bitter compound denatonium benzoate yielded similar results that were attenuated by co-application of the allosteric inhibitor of the bitter TAS2R receptors. We also show that these effects occur dose-dependently; associate with reduced glucose uptake, increased intracellular [Ca2+] fluxes, and enhanced GLP-1 expression; and are attenuated by the TAS2R inhibitor in the neuroendocrine STC-1 intestinal cells. These findings support the view that inhibition of glucose transport from the intestinal lumen to the blood by TAS2R bitter receptor signaling in the gut may represent a common mechanism in the acute response to oral ingestion of bitter phytochemicals.
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