9-PAHSA displays a weak anti-inflammatory potential mediated by specific antagonism of chemokine G protein-coupled receptors

P. Wohlfart, Mounir Chehtane, E. Luna, R. Mehta, M. Korn, A. Konkar, U. Schwahn, S. Petry, N. Tennagels, M. Bielohuby
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Abstract

Introduction: 9-PAHSA belongs to a class of endogenous mammalian bioactive lipids, fatty acid esters of hydroxy fatty acids (FAHFA), that are present in circulation at nanomolar concentrations in mice and humans. Published preclinical data suggest beneficial effects of 9-PAHSA treatment on glucose metabolism as well as modulation of immune function. However, receptor molecules with high affinity towards these lipids have not been identified so far.Methods: In a broad screen of a panel of G protein-coupled receptors (GPCRs) we discovered that 9-PAHSA displays antagonist activity with an IC50 in the micromolar range on selected chemokine receptors, namely, CCR6, CCR7, CXCR4, and CXCR5. The potential immunomodulatory activities in a human cellular model of innate immunity were then investigated.Results and discussion: In our in vitro experiments, a weak anti-inflammatory potential for high concentrations of 9-PAHSA (10–100 µM) could be detected, as treatment reduced the LPS-induced secretion of certain chemokines, such as CXCL10, MIP-1 beta and MCP. Regarding metabolic effects, we re-investigated 9-PAHSA on glucose metabolism and insulin sensitivity in vitro and in mice confirming conclusions from our earlier study that FAHFAs lack glucoregulatory activity following an acute treatment. In conclusion, the specific interactions with a subset of chemokine receptors may contribute to weak anti-inflammatory properties of 9-PAHSA, but further studies are needed to confirm its in anti-inflammatory potential in vivo.
9-PAHSA在趋化因子G蛋白偶联受体的特异性拮抗作用下表现出微弱的抗炎潜能
引言:9-PAHSA属于一类内源性哺乳动物生物活性脂质,即羟基脂肪酸脂肪酸酯(FAHFA),以纳摩尔浓度存在于小鼠和人类的循环中。已发表的临床前数据表明,9-PAHSA治疗对葡萄糖代谢和免疫功能的调节具有有益作用。然而,迄今为止,对这些脂质具有高亲和力的受体分子尚未被鉴定。方法:在一组G蛋白偶联受体(GPCR)的广泛筛选中,我们发现9-PAHSA对选定的趋化因子受体(即CCR6、CCR7、CXCR4和CXCR5)显示出IC50在微摩尔范围内的拮抗剂活性。然后研究了先天免疫的人类细胞模型中潜在的免疫调节活性。结果和讨论:在我们的体外实验中,由于治疗减少了LPS诱导的某些趋化因子的分泌,如CXCL10、MIP-1β和MCP,可以检测到高浓度9-PAHSA(10-100µM)的弱抗炎潜力。关于代谢影响,我们在体外和小鼠中重新研究了9-PAHSA对葡萄糖代谢和胰岛素敏感性的影响,证实了我们早期研究的结论,即FAHFAs在急性治疗后缺乏葡萄糖调节活性。总之,与趋化因子受体亚群的特异性相互作用可能导致9-PAHSA的抗炎特性较弱,但还需要进一步的研究来证实其在体内的抗炎潜力。
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