Bitter-tasting drugs tune GDF15 and GLP-1 expression via bitter taste or motilin receptors in the intestine of patients with obesity

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Qian Wang , Mona Farhadipour , Theo Thijs , Emily Ruilova Sosoranga , Bart Van der Schueren , Laurens J. Ceulemans , Ellen Deleus , Matthias Lannoo , Jan Tack , Inge Depoortere
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引用次数: 0

Abstract

Objective

Growth differentiation factor 15 (GDF15), a stress related cytokine, was recently identified as a novel satiety signal acting via the GFRAL receptor located in the hindbrain. Bitter compounds are known to induce satiety via the release of glucagon-like peptide 1 (GLP-1) through activation of bitter taste receptors (TAS2Rs, 25 subtypes) on enteroendocrine cells in the gut. This study aimed to investigate whether and how bitter compounds induce a stress response in intestinal epithelial cells to affect GDF15 expression in patients with obesity, thereby facilitating satiety signaling from the gut.

Methods

The acute effect of oral intake of the bitter-containing medication Plaquenil (hydroxychloroquine sulfate) on plasma GDF15 levels was evaluated in a placebo-controlled, double-blind, randomized, two-visit crossover study in healthy volunteers. Primary crypts isolated from the jejunal mucosa from patients with obesity were stimulated with vehicle or bitter compounds, and the effect on GDF15 expression was evaluated using RT-qPCR or ELISA. Immunofluorescence colocalization studies were performed between GDF15, epithelial cell type markers and TAS2Rs. The role of TAS2Rs was tested by 1) pretreatment with a TAS2R antagonist, GIV3727; 2) determining TAS2R4/43 polymorphisms that affect taste sensitivity to TAS2R4/43 agonists.

Results

Acute intake of hydroxychloroquine sulfate increased GDF15 plasma levels, which correlated with reduced hunger scores and plasma ghrelin levels in healthy volunteers. This effect was mimicked in primary jejunal cultures from patients with obesity. GDF15 was expressed in enteroendocrine and goblet cells with higher expression levels in patients with obesity. Various bitter-tasting compounds (medicinal, plant extracts, bacterial) either increased or decreased GDF15 expression, with some also affecting GLP-1. The effect was mediated by specific intestinal TAS2R subtypes and the unfolded protein response pathway. The bitter-induced effect on GDF15/GLP-1 expression was influenced by the existence of TAS2R4 amino acid polymorphisms and TAS2R43 deletion polymorphisms that may predict patient's therapeutic responsiveness. However, the effect of the bitter-tasting antibiotic azithromycin on GDF15 release was mediated via the motilin receptor, possibly explaining some of its aversive side effects.

Conclusions

Bitter chemosensory and pharmacological receptors regulate the release of GDF15 from human gut epithelial cells and represent potential targets for modulating metabolic disorders or cachexia.

苦味药物通过肥胖症患者肠道中的苦味或motilin受体调节GDF15和GLP-1的表达。
研究目的生长分化因子 15(GDF15)是一种与应激有关的细胞因子,最近被确认为一种通过位于后脑的 GFRAL 受体发挥作用的新型饱腹感信号。已知苦味化合物可通过激活肠道内分泌细胞上的苦味受体(TAS2Rs,25 个亚型)释放胰高血糖素样肽 1(GLP-1)来诱发饱腹感。本研究旨在探讨苦味化合物是否以及如何诱导肠上皮细胞产生应激反应,从而影响肥胖症患者体内 GDF15 的表达,进而促进肠道发出饱腹感信号:方法:在一项安慰剂对照、双盲、随机、两次访问交叉研究中,评估了健康志愿者口服含苦药物 Plaquenil(硫酸羟氯喹)对血浆 GDF15 水平的急性影响。从肥胖症患者空肠粘膜中分离出的原发性隐窝受到了载体或苦味化合物的刺激,并使用 RT-qPCR 或 ELISA 评估了对 GDF15 表达的影响。在 GDF15、上皮细胞类型标记物和 TAS2Rs 之间进行了免疫荧光共定位研究。通过以下方法检测了 TAS2R 的作用:1)使用 TAS2R 拮抗剂 GIV3727 进行预处理;2)确定影响对 TAS2R4/43 激动剂的味觉敏感性的 TAS2R4/43 多态性:结果:在健康志愿者中,急性摄入硫酸羟氯喹会增加 GDF15 的血浆水平,这与饥饿评分和血浆胃泌素水平的降低有关。这种效应在肥胖症患者的原代空肠培养物中被模拟出来。GDF15 在肠内分泌细胞和鹅口疮细胞中表达,肥胖症患者的表达水平更高。各种苦味化合物(药用、植物提取物、细菌)会增加或减少 GDF15 的表达,其中一些还会影响 GLP-1。这种影响是由特定的肠道 TAS2R 亚型和未折叠蛋白反应途径介导的。苦味对 GDF15/GLP-1 表达的诱导作用受到 TAS2R4 氨基酸多态性和 TAS2R43 缺失多态性的影响,这些多态性可预测患者的治疗反应性。然而,苦味抗生素阿奇霉素对GDF15释放的影响是通过动情素受体介导的,这可能解释了它的一些厌恶性副作用:结论:苦味化感和药理受体可调节人体肠道上皮细胞中 GDF15 的释放,是调节代谢紊乱或恶病质的潜在靶点。
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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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