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Association of Folate and Vitamins Involved in the 1-Carbon Cycle with Polymorphisms in the Methylenetetrahydrofolate Reductase Gene (MTHFR) and Global DNA Methylation in Patients with Colorectal Cancer.
Ferrari, A, Torrezan, GT, Carraro, DM, Aguiar Junior, S
Nutrients. 2019;11(6)
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This 2012 cross-sectional observational study examines the role of epigenetic gene expression and methylation in 189 patients with colorectal adenocarcinoma, including 128 with MTHFR polymorphisms. The mean age was 61 years and there was a 50/50 gender split. The focus nutrients were folate, vitamins B2, B6, B12, choline, betaine, and methionine, all of which are known to be essential nutrients for DNA synthesis and more specifically have a key role in the 1-carbon cycle, and S-adenosylmethionine (SAM). The study is based on prospective data collection from food frequency and clinical evaluation questionnaires, and blood work. There does not appear to have been any control group or blinding of processes (at least not reported in the study). The results showed that serum folate levels were positively correlated with the equivalent total dietary folate intake and global DNA methylation. No significant differences were found between serum folate levels in relation to the different genotypes of MTHFR polymorphisms such as C677T. A weak association was found between the A1298C polymorphism and lower levels of methylation. No significant findings were reported for the vitamins used in the study. The study concludes that folate intake, serum folate levels, global DNA methylation and age were predictors of clinicopathological staging.
Abstract
Folate, vitamin B2, vitamin B6, vitamin B12, choline, and betaine are nutrients involved in the 1-carbon cycle that can alter the levels of DNA methylation and influence genesis and/or tumor progression. Thus, the objective of this study was to evaluate the association of folate and vitamins involved in the 1-carbon cycle and MTHFR polymorphisms in global DNA methylation in patients with colorectal cancer gene. The study included 189 patients with colorectal adenocarcinoma answering a clinical evaluation questionnaire and the Food Frequency Questionnaire (FFQ) validated for patients with colon and rectal cancer. Blood samples were collected for evaluation of MTHFR gene polymorphisms in global DNA methylation in blood and in tumor. The values for serum folate were positively correlated with the equivalent total dietary folate (total DFE) (rho = 0.51, p = 0.03) and global DNA methylation (rho = 0.20, p = 0.03). Individuals aged over 61 years (p = 0.01) in clinicopathological staging III and IV (p = 0.01) and with + heterozygous mutated homozygous genotypes for the MTHFR A1298C gene had higher levels of global DNA methylation (p = 0.04). The association between dietary intake of folate, serum folate, and tumor stage were predictive of global DNA methylation in patients' blood. The levels of serum folate, the dietary folate and the status of DNA methylation can influence clinicopathological staging.
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Role of phosphatidylcholine-DHA in preventing APOE4-associated Alzheimer's disease.
Patrick, RP
FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 2019;33(2):1554-1564
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Alzheimer’s disease (AD) is a neurodegenerative disorder characterised by progressive memory loss, spatial disorientation, cognitive impairment and behavioural changes. Ageing is the main risk factor for AD, with approximately one-third of Americans over the age of 85 being affected by the condition. The APOE gene provides instructions for making the apolipoprotein E family of proteins that are involved in fat metabolism and cholesterol transport. There are three different variants of this gene, one inherited from each parent. The variant called APOE4 is thought to increase AD risk from 2-3-fold (one inherited copy) to as much as 15-fold (two inherited copies), compared to individuals who do not carry this variant. The omega-3 oil docosahexaenoic acid (DHA) is an essential fatty acid, which comprises approximately 30% of the fats found in the human brain. Low levels of DHA in the brain increase the risk of developing AD, while normal and high levels may prevent the condition and ameliorate symptoms. This review paper brings together several lines of evidence on why individuals with the APOE4 gene variant don’t respond well to DHA supplementation but experience positive effects from dietary intake of DHA. The author suggests that this is due to the different forms of DHA found in dietary and supplemental sources. Some of the DHA present in fish and seafood is in phospholipid form, which is metabolised into lysophosphatidylcholine DHA (DHA-lysoPC) in the body. In contrast, fish oil supplements contain no DHA in phospholipid form, but in other forms that are mostly metabolised to free DHA. This paper puts forward an argument that, due to the breakdown of the integrity of the blood-brain barrier, APOE4 carriers have impaired brain transport of free DHA but not DHA-lysoPC. The author concludes that dietary sources that contain high amounts of DHA in phospholipid form, such as fish and fish roe may help increase plasma levels of DHA-lysoPC, which may be better transported to the brains of APOE4 carriers. She also highlights the pressing need for future clinical trials to evaluate the effects of omega-3 oils in phospholipid form on the cognitive function of APOE4 carriers with AD.
Abstract
Dietary and supplemental intake of the ω-3 fatty acid docosahexaenoic acid (DHA) reduces risk of Alzheimer's disease (AD) and ameliorates symptoms. The apolipoprotein E ( APOE) 4 allele is the strongest risk factor for sporadic AD, exclusive of age. APOE4 carriers respond well to the DHA present in fish but do not respond as well to dietary supplements. The mechanisms behind this varied response remain unknown. I posit that the difference is that fish contain DHA in phospholipid form, whereas fish oil supplements do not. This influences whether DHA is metabolized to nonesterified DHA (free DHA) or a phospholipid form called lysophosphatidylcholine DHA (DHA-lysoPC). Free DHA is transported across the outer membrane leaflet of the blood-brain barrier (BBB) via passive diffusion, and DHA-lysoPC is transported across the inner membrane leaflet of the BBB via the major facilitator superfamily domain-containing protein 2A. I propose that APOE4 carriers have impaired brain transport of free DHA but not of DHA-lysoPC, as a consequence of a breakdown in the outer membrane leaflet of the BBB, putting them at increased risk for AD. Dietary sources of DHA in phospholipid form may provide a means to increase plasma levels of DHA-lysoPC, thereby decreasing the risk of AD.-Patrick, R. P. Role of phosphatidylcholine-DHA in preventing APOE4-associated Alzheimer's disease.
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Sex and menopausal status influence human dietary requirements for the nutrient choline.
Fischer, LM, daCosta, KA, Kwock, L, Stewart, PW, Lu, TS, Stabler, SP, Allen, RH, Zeisel, SH
The American journal of clinical nutrition. 2007;85(5):1275-85
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Choline is used to form cell membranes, and it is a precursor for the neurotransmitter acetylcholine. Other than from the diet, choline can also be derived from the de novo biosynthesis of phosphatidylcholine. The current Adequate Intake for choline is considered sufficient to prevent deficiency, however an Estimated Average Requirement cannot be generated due to lack of availability of adequate human data. The aim of this study was to evaluate the dietary choline requirement in healthy men and women (pre- and postmenopausal), and to identify the clinical and metabolic sequelae of choline deficiency. Fifty-seven adult participants (26 healthy men, 16 premenopausal women and 15 postmenopausal women) were recruited for the study. A randomised double-blind protocol was followed to assign participants in one of the 2 arms; folate only (100 DFE) vs a dietary supplement of 400μg folic acid/d (768 DFE). Results show that independent of folate status, most men and postmenopausal women developed liver or muscle dysfunction when fed a low-choline diet, whereas premenopausal women were more resistant to developing such organ dysfunction. AP activity increased in all subjects in response to the low-choline diet regardless of whether they manifested organ dysfunction. Liver and muscle dysfunction occurred in response to a low-choline diet in both men and women. The current AI for choline was not be sufficient for some of the participants who became depleted despite this level of intake.
Abstract
BACKGROUND Although humans require dietary choline for methyl donation, membrane function, and neurotransmission, choline can also be derived from the de novo synthesis of phosphatidylcholine, which is up-regulated by estrogen. A recommended Adequate Intake (AI) exists for choline; however, an Estimated Average Requirement has not been set because of a lack of sufficient human data. OBJECTIVE The objective of the study was to evaluate the dietary requirements for choline in healthy men and women and to investigate the clinical sequelae of choline deficiency. DESIGN Fifty-seven adult subjects (26 men, 16 premenopausal women, 15 postmenopausal women) were fed a diet containing 550 mg choline x 70 kg(-1) x d(-1) for 10 d followed by <50 mg choline x 70 kg(-1) x d(-1) with or without a folic acid supplement (400 microg/d per randomization) for up to 42 d. Subjects who developed organ dysfunction during this diet had normal organ function restored after incremental amounts of choline were added back to the diet. Blood and urine were monitored for signs of toxicity and metabolite concentrations, and liver fat was assessed by using magnetic resonance imaging. RESULTS When deprived of dietary choline, 77% of men and 80% of postmenopausal women developed fatty liver or muscle damage, whereas only 44% of premenopausal women developed such signs of organ dysfunction. Moreover, 6 men developed these signs while consuming 550 mg choline x 70 kg(-1) x d(-1), the AI for choline. Folic acid supplementation did not alter the subjects' response. CONCLUSION Subject characteristics (eg, menopausal status) modulated the dietary requirement for choline, and a daily intake at the current AI was not sufficient to prevent organ dysfunction in 19 of the subjects.