Flaxseed (Linum usitatissimum) as a tool for helping with Metabolic support

It is generally accepted that the organization of eukaryotic DNA into chromatin is strongly governed by a code inherent in the genomic DNA sequence. This code, as well as other codes, is superposed on the triplets coding for amino acids. The history of the chromatin code started three decades ago with the discovery of the periodic appearance of certain dinucleotides, with AA/TT and RR/YY giving the strongest signals, all with a period of 10.4 bases. Every base-pair stack in the DNA duplex has specific deformation properties, thus favoring DNA bending in a specific direction. The appearance of the corresponding dinucleotide at the distance 10.4 xn bases will facilitate DNA bending in that direction, which corresponds to the minimum energy of DNA folding in the nucleosome. We have analyzed the periodic appearances of all 16 dinucleotides in the genomes of thirteen different eukaryotic organisms. Our data show that a large variety of dinucleotides (if not all) are, apparently, contributing to the nucleosome positioning code. The choice of the periodical dinucleotides differs considerably from one organism to another. Among other 10.4 base periodicities, a strong and very regular 10.4 base signal was observed for CG dinucleotides in the genome of the honey bee A. mellifera. Also, the dinucleotide CG appears as the only periodical component in the human genome. This observation seems especially relevant since CpG methylation is well known to modulate chromatin packing and regularity. Thus, the selection of the dinucleotides contributing to the chromatin code is species specific, and may differ from region to region, depending on the sequence context.

Flaxseed is the richest source of the lignan secoisolariciresinol diglucoside (SDG). After ingestion, SDG is converted to secoisolariciresinol, which is further metabolised to the mammalian lignans enterodiol and enterolactone. A growing body of evidence suggests that SDG metabolites may provide health benefits due to their weak oestrogenic or anti-oestrogenic effects, antioxidant activity, ability to induce phase 2 proteins and/or inhibit the activity of certain enzymes, or by mechanisms yet unidentified. Human and animal studies identify the benefits of SDG consumption. SDG metabolites may protect against CVD and the metabolic syndrome by reducing lipid and glucose concentrations, lowering blood pressure, and decreasing oxidative stress and inflammation. Flax lignans may also reduce cancer risk by preventing pre-cancerous cellular changes and by reducing angiogenesis and metastasis. Thus, dietary SDG has the potential to decrease the incidence of several chronic diseases that result in significant morbidity and mortality in industrialised countries. The available literature, though, makes it difficult to clearly identify SDG health effects because of the wide variability in study methods. However, the current evidence suggests that a dose of at least 500 mg SDG/d for approximately 8 weeks is needed to observe positive effects on cardiovascular risk factors in human patients. Flaxseed and its lignan extracts appear to be safe for most adult populations, though animal studies suggest that pregnant women should limit their exposure. The present review discusses the potential health benefits of SDG in humans, with supporting evidence from animal studies, and offers suggestions for future research.

Following a request from the European Commission, the EFSA Panel on Additives and Products or Substances used in Animal Feed (FEEDAP) was asked to deliver a scientific opinion on VevoVitall ® (benzoic acid) as a feed additive for minor porcine species, when used as zootechnical additive at a maximum level of 5,000 mg/kg complete feed. The safety and efficacy of the additive had been evaluated by the FEEDAP Panel on weaned piglets (at the maximum supplementation level of 5,000 mg/kg complete feed) and pigs for fattening and pigs for reproduction (at the maximum level of 10,000 mg/kg complete feed). Subsequent to EFSA's assessments, the additive has been authorised for use in feed of weaned piglets, pigs for fattening and sows. To the knowledge of the FEEDAP Panel, there was no new information that might modify its previous assessments on VevoVitall ® concerning safety for consumers and the environment; therefore, this opinion focused only on the safety of the target animals and the efficacy of the product. The FEEDAP Panel concluded that VevoVitall ® is safe at the supplementation level of 5,000 mg/kg complete feed for minor porcine species for fattening and for reproduction; the FEEDAP could not conclude on the safety of the additive for weaned minor porcine species. VevoVitall ® does not represent a risk for the consumer and the environment. VevoVitall ® does not pose a risk by inhalation to users and is not skin sensitiser, but is a skin irritant and a severe eye irritant. VevoVitall ® has the potential to decrease the urinary pH in minor porcine species at the dose of 5,000 mg/kg complete feed. A remark on the relevance of the claim has been posted by the Panel.