An increasing number of people suffer from IgE-mediated food allergies. The immunological mechanisms that cause IgE-mediated food allergy have been extensively studied. B cells play a key role in the development of IgE-mediated food allergies through the production of allergen-specific antibodies. While this particular function of B cells has been known for many years, we still do not fully understand the mechanisms that regulate the induction and maintenance of allergen-specific IgE production. It is still not fully understood where in the body IgE class switch recombination of food allergen-specific B cells occurs, and what processes are involved in the immunological memory of allergen-specific IgE responses. B cells can also contribute to the regulation of allergen-specific immune responses through other mechanisms such as antigen presentation and cytokine production. Recent technological advances have enabled highly detailed analysis of small subsets of B cells down to the single-cell level. In this review, we provide an overview of the current knowledge on the biology of B cells in relation to IgE-mediated food allergies.
Background Despite the established relation between energy restriction and metabolic health, the most beneficial nutrient composition of a weight-loss diet is still subject of debate. Objectives The aim of the study was to examine the additional effects of nutrient quality on top of energy restriction(ER). Methods A parallel-designed 12-week 25%ER dietary intervention study was conducted. Participants aged 40–70 years with abdominal obesity were randomized over three groups: a 25%ER high nutrient quality diet (n = 40); a 25%ER low nutrient quality diet (n = 40); or a habitual diet (n = 30). Both ER diets were nutritionally adequate, the high nutrient quality ER diet was enriched in monounsaturated and n-3 polyunsaturated fatty acids, fiber, and plant protein and reduced in fructose. Before and after the intervention intra-hepatic lipids, body fat distribution, fasting and postprandial responses to a mixed meal shake challenge test of cardio-metabolic risk factors, lipoproteins, vascular measurements, and adipose tissue transcriptome were assessed. Results The high quality ER diet (–8.4 ± 3.2) induced 2.1 kg more weight loss (P = 0.007) than the low quality ER diet (–6.3 ± 3.9), reduced fasting serum total cholesterol (P = 0.014) and plasma triglycerides (P < 0.001), promoted an anti-atherogenic lipoprotein profile and induced a more pronounced decrease in adipose tissue gene expression of energy metabolism pathways than the low quality ER diet. Explorative analyses showed that the difference in weight loss between both ER diets were specifically present in insulin sensitive subjects (HOMA-IR ≤ 2.5), in whom the high nutrient quality diet induced 3.9 kg more weight loss than the low nutrient quality diet. Conclusion A high nutrient quality 25%ER diet is more beneficial for cardiometabolic health than a low nutrient quality 25%ER diet. Overweight insulin sensitive subjects may benefit more from a high than a low nutrient quality ER diet with respect to weight loss, due to potential attenuation of glucose-induced lipid synthesis in adipose tissue. Trial registration: ClinicalTrials.gov NCT02194504.
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