The Gut Metabolism is altered in patients with CRB1-associated inherited retinal degeneration

Lude Moekotte, Joke H. de Boer, Sanne Hiddingh, Bram Gerritsen, Jutta Lintelmann, Alexander Cecil, L. Ingeborgh van den Born, Xuan-Thanh-An Nguyen, Camiel J.F. Boon, Maria M. van Genderen
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Abstract

Purpose: To compare the plasma metabolic profile of patients with a CRB1-associated inherited retinal degeneration (CRB1-IRD) with healthy controls (HCs). Design: A case-control study. Methods: Plasma concentration of 619 metabolites was measured with the MxP® Quant 500 Kit in 30 patients with a CRB1-IRD and 29 HCs. We fitted a linear regression model with adjustments for age and sex based on the concentration of metabolites in μM (μmol/L), or on the sums and ratios of metabolites, to determine differences between patients and controls. Results: Over-representation of pathways among metabolites associated strongest to CRB1-IRDs (P < 0.05, n = 62) identified amino acid pathways (such as beta-alanine, histidine, and glycine/serine) and bile acid biosynthesis, driven by a decrease in deoxycholic acid derivatives produced by gut microbiota. Enrichment analysis of metabolic classes across the plasma metabolic profile further identified significant positive enrichment for lipid metabolites glycerophospholipids, cholesterol esters, and ceramides, and significant depletion for bile acid metabolites. Further investigation of the sums and ratios (i.e., metabolism indicators) ascertained a significant decrease in intestinal microbial-dependent secondary bile acid classes. Conclusions: Lipid metabolic alterations and decreased microbiota-related secondary bile acid concentrations indicate significant alterations in gut metabolism in patients with a CRB1-IRD.
CRB1 相关遗传性视网膜变性患者的肠道代谢发生改变
目的:比较CRB1相关遗传性视网膜变性(CRB1-IRD)患者与健康对照组(HCs)的血浆代谢谱:设计:病例对照研究:用 MxP® Quant 500 套件测量了 30 名 CRB1-IRD 患者和 29 名健康对照者的血浆中 619 种代谢物的浓度。我们根据代谢物的浓度(单位:μM(μmol/L))或代谢物的总和和比值建立了一个线性回归模型,并对年龄和性别进行了调整,以确定患者和对照组之间的差异:在与 CRB1-IRDs 关系最密切的代谢物中,路径的代表性过高(P < 0.05,n = 62),确定了氨基酸路径(如 beta-丙氨酸、组氨酸和甘氨酸/丝氨酸)和胆汁酸的生物合成,其驱动力是肠道微生物群产生的脱氧胆酸衍生物的减少。对整个血浆代谢轮廓进行的代谢类别富集分析进一步发现,脂质代谢物甘油磷脂、胆固醇酯和神经酰胺显著正富集,而胆汁酸代谢物则显著减少。对总和和比率(即代谢指标)的进一步研究发现,肠道微生物依赖的次级胆汁酸类明显减少:结论:脂质代谢的改变和微生物相关次级胆汁酸浓度的降低表明,CRB1-IRD 患者的肠道代谢发生了重大改变。
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