Table 1.
Summary of human and lab animal microbiome studies on Maillard reaction products (AGE and EGP).
| Disease Model | Population/Animal Model | Exposure Windows | MRP/Dose/Concentration | Routes of Administration | Diet | Effects | Reference |
|---|---|---|---|---|---|---|---|
| Autoimmune prostatitis | Male NOD mice | Feeding (6 mo) starting at ≈ 4-mo-of-age | 600 mg EGP/kg | Gavage | Diet 5053, PicoLab | Increased Anaerostipes, Parabacteroides, Prevotella, Allobaculum and Bacteroides and decreased Adlercreutzia and Roseburia in terms of relative abundance. | Chen, et al. 2019 |
| Not Specified | Weanling Wistar rats | Feeding for 88 d | Diets containing bread crust or its soluble high molecular weight, soluble low molecular weight or insoluble fractions | In food | AIN-93G purified diet | Low and high MW fractions rich in Amadori compounds down-regulated Lactobacillus spp.; the insoluble fraction abundant in HMF and CML down-regulated E. rectale/C. coccoides and C. leptum | Delgado-Andrade et al. 2017 |
| Not Specified | Sprague-Dawley rats | Feeding for 2 wk | High in furosine (Amadori compound-derived marker for initial stage of Maillard reaction), CML, and CEL | In food | Increases in Akkermansia, Allobaculum and Lachnospiraceae_UCG-006, and a decrease in Erysipelatoclostridium at genus level compared to in hosts fed heated control | Han et al. 2018 | |
| Atherosclerosis | Male ApoE−/− mice | Feeding (8 wk) starting at 8-wk-of-age | Plasma CML and CEL increased 1.7- and 2.5-fold, respectively | In food | Heat-treated high-fat diet | Decreased α diversity accompanied by increases in Allobaculum and unclassified genus of Clostridiales and decreases in Bacteroides, unclassified genera of Lachnospiraceae, Rikenellaceae and Ruminococcaceae at genus level | Marungruang et al. 2016 |
| Inflammatory bowel diseases | Male BALB/c mice | Feeding (3 wk) starting at 7-wk-of-age | Nε-Carboxymethyllysine; 1.6 mg/kg/day | Per os | Standard chow | Bacteroidaceae increased, Lachnospraceae decreased | ALJahdali et al. 2017 |
| Not Specified | Male Sprague-Dawley rats | Fed for 6, 12, or 18 wk | Fluorescent AGE (968 v. 2148 AU/g), CML (272 v. 143 μg/g), CEL (6.26 v. 0.97 μg/g), GO (49.1 v. 12.1 mg/kg), and MGO (28.7 v. 1.1 mg/kg) were higher in the H-AGE diet | In food | AIN-93G diet enriched with AGEs | Decreased α diversity, Alloprevotella and Ruminococcaceae, while increasing Allobaculum and Bacteroides | Qu et al. 2017 |
| Not Specified | Male C57BL/6 mice | Feeding (8 mo) starting at 6-wk-of-age | Same as above | In food | Same as above | Decreased α diversity, increased Alloprevotella, Helicobacter, Parabacteroides, Ruminococcaceae_UCG-014 and unclassified genus of Rhodospirillaceae, and decreased Alistipes, Desulfovibrio, Lachnospiraceae_NK4A136_group and Rikenellaceae_RC9_gut group. | Qu et al. 2018 |
| Not Specified | Adolescent men | 2-wk randomized two-period crossover trial | Diets high or low in hydroxy-methylfurfural (HMF; 5-fold) and CML (2-fold) | In food | Prepared by a local catering firm | Negative correlations between Lactobacilli numbers and dietary advanced MRP (e.g., AGE); Bifidobacteria counts negatively correlated with Amadori compound intake (e.g., EGP). | Seiquer et al. 2014 |
| Not Specified | Male weanling Wister rats | Feeding (87 days) starting at weanling | High in Amadori compounds, HMF and CML | In food | AIN 93G diet | Total bacteria and Lactobacilli were negatively-correlated with MRP intake; no correlations were found with Bifidobacteria. | Seiquer et al. 2014 |
| End stage renal disease (ESRD) patients | Undergoing peritoneal dialysis | One-month dietary AGE restriction | Dietary AGE restriction resulted in decreases in serum CML (29.6 vs. 23.3 u/ml) and methylglyoxal-derivatives (5.6 vs. 4.0) | In food | Habitually consuming a high AGE diet | Dietary AGE restriction significantly decreased Prevotella copri and Bifidobacterium animalis relative Abundance, and increased Alistipes indistinctus, Clostridium citroniae, Clostridium hathewayi and Ruminococcus gauvreauii relative abundance |
Yacoub et al. 2017 |