1.
A Review of Dietary (Phyto)Nutrients for Glutathione Support.
Minich, DM, Brown, BI
Nutrients. 2019;11(9)
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Glutathione is made up of 3 amino acids (cysteine, glutamic acid and glycine) and plays important roles in the body, including oxidative stress reduction, supporting the immune system and contributing to detoxification processes. Evidence suggests that it is an important marker and target for treatment in many chronic, age-related diseases. This review article explores the evidence of nutritional strategies to improve glutathione status. The authors examine the evidence for supplementation of the precursors of glutathione as well as with various forms of supplemental glutathione itself, and the impacts on glutathione status and clinical impacts. Crucially, the review article provides information on dietary sources of precursors of glutathione and glutathione itself, which will provide Nutrition Practitioners with compelling information for use in clinic. Lean protein, brassica vegetables, polyphenol-rich fruits and vegetables, green tea, herbs and spices and omega-3 rich foods are all discussed in detail.
Abstract
Glutathione is a tripeptide that plays a pivotal role in critical physiological processes resulting in effects relevant to diverse disease pathophysiology such as maintenance of redox balance, reduction of oxidative stress, enhancement of metabolic detoxification, and regulation of immune system function. The diverse roles of glutathione in physiology are relevant to a considerable body of evidence suggesting that glutathione status may be an important biomarker and treatment target in various chronic, age-related diseases. Yet, proper personalized balance in the individual is key as well as a better understanding of antioxidants and redox balance. Optimizing glutathione levels has been proposed as a strategy for health promotion and disease prevention, although clear, causal relationships between glutathione status and disease risk or treatment remain to be clarified. Nonetheless, human clinical research suggests that nutritional interventions, including amino acids, vitamins, minerals, phytochemicals, and foods can have important effects on circulating glutathione which may translate to clinical benefit. Importantly, genetic variation is a modifier of glutathione status and influences response to nutritional factors that impact glutathione levels. This narrative review explores clinical evidence for nutritional strategies that could be used to improve glutathione status.
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Vitamin D Supplementation in Central Nervous System Demyelinating Disease-Enough Is Enough.
Häusler, D, Weber, MS
International journal of molecular sciences. 2019;20(1)
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Vitamin D is associated with a reduced risk and severity of multiple sclerosis (MS). However, whether supplementing vitamin D level alters disease severity, is a matter of ongoing debate. This review looks at both clinical and pre-clinical evidence for supplementing vitamin D in people with MS. In vitro experiments show that vitamin D and its metabolites can alter function of various immune cells, mostly via interaction with vitamin D receptors (VDR). Results from human clinical trials, however, are mixed. Preclinical evidence suggests that high dose vitamin D supplementation, when leading to hypercalcaemia, a potentially serious side effect of excessive vitamin D intake, may worsen MS. The authors also review research which suggests mechanisms by which sun exposure can improve MS symptoms independent of vitamin D production. The authors conclude that moderate sun exposure, combined with adequate dietary intake of vitamin D, and in conjunction with a regular assessment of vitamin D serum levels (to avoid hypercalcaemia), might be the best strategy for patients with MS.
Abstract
The exact cause of multiple sclerosis (MS) remains elusive. Various factors, however, have been identified that increase an individual's risk of developing this central nervous system (CNS) demyelinating disease and are associated with an acceleration in disease severity. Besides genetic determinants, environmental factors are now established that influence MS, which is of enormous interest, as some of these contributing factors are relatively easy to change. In this regard, a low vitamin D status is associated with an elevated relapse frequency and worsened disease course in patients with MS. The most important question, however, is whether this association is causal or related. That supplementing vitamin D in MS is of direct therapeutic benefit, is still a matter of debate. In this manuscript, we first review the potentially immune modulating mechanisms of vitamin D, followed by a summary of current and ongoing clinical trials intended to assess whether vitamin D supplementation positively influences the outcome of MS. Furthermore, we provide emerging evidence that excessive vitamin D treatment via the T cell-stimulating effect of secondary hypercalcemia, could have negative effects in CNS demyelinating disease. This jointly merges into the balancing concept of a therapeutic window of vitamin D in MS.
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The Effect of Bifidobacterium animalis ssp. lactis HN019 on Cellular Immune Function in Healthy Elderly Subjects: Systematic Review and Meta-Analysis.
Miller, LE, Lehtoranta, L, Lehtinen, MJ
Nutrients. 2017;9(3)
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Elderly individuals are more susceptible to infections and cancer, due to lowered immune system function. The gut bacteria play a key role in human immune system function and there is an interest in a potential role for probiotics in strengthening the immune system through manipulation of the microbiome. This systematic review and meta-analysis of 4 randomised controlled trials aimed to examine the efficacy of Bifidobacterium animalis lactis HN019 on the cellular immune activity of healthy elderly adults age 60-70 years. The authors concluded that supplementation with this bacterial strain at a range of potencies for 3-6 weeks duration had a significant positive impact on the part of the immune system that is responsible for removing pathogens and cell debris (phagocytosis) and a lesser but nevertheless significant impact on natural killer cells responsible for tumour destruction.
Abstract
Elderly people have increased susceptibility to infections and cancer that are associated with decline in cellular immune function. The objective of this work was to determine the efficacy of Bifidobacterium (B.) animalis ssp. lactis HN019 (HN019) supplementation on cellular immune activity in healthy elderly subjects. We conducted a systematic review of Medline and Embase for controlled trials that reported polymorphonuclear (PMN) cell phagocytic capacity or natural killer (NK) cell tumoricidal activity following B. lactis HN019 consumption in the elderly. A random effects meta-analysis was performed with standardized mean difference (SMD) and 95% confidence interval between probiotic and control groups for each outcome. A total of four clinical trials were included in this analysis. B. lactis HN019 supplementation was highly efficacious in increasing PMN phagocytic capacity with an SMD of 0.74 (95% confidence interval: 0.38 to 1.11, p < 0.001) and moderately efficacious in increasing NK cell tumoricidal activity with an SMD of 0.43 (95% confidence interval: 0.08 to 0.78, p = 0.02). The main limitations of this research were the small number of included studies, short-term follow-up, and assessment of a single probiotic strain. In conclusion, daily consumption of B. lactis HN019 enhances NK cell and PMN function in healthy elderly adults.