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Plasma IL-2 and Symptoms Response after Acute Gluten Exposure in Subjects With Celiac Disease or Nonceliac Gluten Sensitivity.
Cartee, AK, Choung, RS, King, KS, Wang, S, Dzuris, JL, Anderson, RP, Van Dyke, CT, Hinson, CA, Marietta, E, Katzka, DA, et al
The American journal of gastroenterology. 2022;(2):319-326
Abstract
INTRODUCTION Treated patients with celiac disease (CeD) and nonceliac gluten sensitivity (NCGS) report acute, transient, incompletely understood symptoms after suspected gluten exposure. To determine whether (i) blinded gluten exposure induces symptoms, (ii) subjects accurately identify gluten exposure, and (iii) serum interleukin-2 (IL-2) levels distinguish CeD from NCGS subjects after gluten exposure. METHODS Sixty subjects (n = 20 treated, healed CeD; n = 20 treated NCGS; n = 20 controls) were block randomized to a single, double-blind sham (rice flour) or 3-g gluten challenge with 72-hours follow-up. Twelve serial questionnaires (100 mm visual analog scale; pain, bloating, nausea, and fatigue) and 10 serial plasma samples were collected. Mucosal permeability was assessed using both urinary lactulose-13C mannitol ratios and endoscopic mucosal impedance. RESULTS Thirty-five of 40 (83%) subjects with CeD and NCGS reported symptoms with gluten (8 CeD, 9 NCGS) and sham (9 CeD, 9 NCGS) compared with 9 of 20 (45%) controls after gluten (n = 6) and sham (n = 3). There was no significant difference in symptoms among groups. Only 2 of 10 subjects with CeD and 4 of 10 NCGS identified gluten, whereas 8 of 10 subjects with CeD and 5 of 10 NCGS identified sham. A significant plasma IL-2 increase occurred only in subjects with CeD after gluten, peaking at 3 hours and normalizing within 24 hours postchallenge despite no significant intestinal permeability change from baseline. DISCUSSION Symptoms do not reliably indicate gluten exposure in either subjects with CeD or NCGS. IL-2 production indicates a rapid-onset gluten-induced T-cell activation in CeD despite long-standing treatment. The effector site is unknown, given no increased intestinal permeability after gluten.
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Gut Microbial Carbohydrate Metabolism Hinders Weight Loss in Overweight Adults Undergoing Lifestyle Intervention With a Volumetric Diet.
Muñiz Pedrogo, DA, Jensen, MD, Van Dyke, CT, Murray, JA, Woods, JA, Chen, J, Kashyap, PC, Nehra, V
Mayo Clinic proceedings. 2018;93(8):1104-1110
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Plain language summary
Recent research suggests that the human gut microbiome has a role to play in the development and maintenance of obesity, by influencing metabolism, fat deposition, brain-hormone signalling and insulin sensitivity. This pilot study of 26 participants, aimed to assess whether the composition and functional aspects of the gut microbiome influence outcomes of a comprehensive weight loss programme in overweight and obese individuals in America. A success criteria of 5% weight loss over a 3 month period was established. Comparisons in the gut microbiome using fecal samples at baseline and at 3 months were made between those successfully achieving the weight loss with those that did not. Achieving the weight loss success criteria was positively associated with the presence of Phascolarctobacterium. In contrast, an increased abundance of Dialister and of genes encoding gut microbial carbohydrate-active enzymes was positively associated with a failure to lose 5% of baseline body weight after 3 months. Interestingly, Phascolarctobacterium and Dialister both belong to the same bacterial family, which suggests that a compositional shift in this family may be responsible for host carbohydrate metabolism and obesity outcomes. This study highlights the potential of influencing the gut microbiome as part of an individualised obesity management programme. However the findings need to be confirmed in a larger, cohort study over a longer duration.
Abstract
The rising incidence of obesity requires the reevaluation of our current therapeutic strategies to optimize patient outcomes. The objective of this study was to determine whether compositional and functional characteristics of the gut microbiota in adults predict responses to a comprehensive lifestyle intervention program in overweight and obese adults. We recruited 26 participants from the Mayo Clinic Obesity Treatment Research Program between August 6, 2013, and September 12, 2013, to participate in a lifestyle intervention program for weight loss. Adults aged 18 to 65 years with a body mass index of 27 to 39.9 kg/m2 and able to provide informed consent were included in the study. Fecal stool samples were obtained at baseline and after 3 months. Loss of at least 5% of baseline weight after 3 months was defined as success. Clinical characteristics and gut microbial composition and function were compared between those who achieved at least 5% and those who achieved less than 5% weight loss. After 3 months, 9 of 26 participants lost at least 5% of their weight. The mean weight loss was 7.89 kg (95% CI, 6.46-9.32 kg) in the success group and 1.51 kg (95% CI, 0.52-2.49 kg) in the less than 5% weight loss group. An increased abundance of Phascolarctobacterium was associated with success. In contrast, an increased abundance of Dialister and of genes encoding gut microbial carbohydrate-active enzymes was associated with failure to lose 5% body weight. A gut microbiota with increased capability for carbohydrate metabolism appears to be associated with decreased weight loss in overweight and obese patients undergoing a lifestyle intervention program.