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Oral administration of 5-aminolevulinic acid induces heme oxygenase-1 expression in peripheral blood mononuclear cells of healthy human subjects in combination with ferrous iron.
Ito, H, Nishio, Y, Hara, T, Sugihara, H, Tanaka, T, Li, XK
European journal of pharmacology. 2018;:25-33
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Abstract
Heme oxygenase-1 (HO-1) is a major anti-inflammatory enzyme and a key regulator that induces immune tolerance through affecting the differentiation of dendritic cells. The aim of this study is to determine whether the combination of 5-aminolevulinic acid (ALA) and iron induces HO-1 expression in healthy human peripheral blood mononuclear cells (PBMC). The study was an open labeled, non-randomized, non-placebo-controlled trial using healthy male adults and consisted of three parts. Study A aimed to find the peak HO-1 expression at 0, 1, 2, 3, 4, 6, 8, 12, 16, and 24 h after administration. Study B aimed to examine HO-1 dose dependency at 150, 300, and 600 mg of ALA and the need for iron supplementation. Study C aimed to investigate HO-1 changes during a three-day, repetitive administration of ALA and iron. The combination of ALA 600 mg and sodium ferrous citrate (SFC) 942 mg upregulated HO-1 in PBMC at 8 h after administration while sole administration of ALA or SFC was unable to induce HO-1. HO-1 in blood myeloid and plasmacytoid dendritic cells was also upregulated with ALA+SFC. Clear dose dependency of ALA+SFC was not detected, and a slight tendency towards a cumulative effect of HO-1 after three-day, repetitive administration was observed. ALA, which is already approved for use in several countries as a diagnosis agent for cancer, has the potential to become a novel therapeutic drug for diseases stemming from unwanted immune response such as autoimmune diseases and the rejection response following organ transplantation.
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Effect of supplementation with ferrous sulfate or iron bis-glycinate chelate on ferritin concentration in Mexican schoolchildren: a randomized controlled trial.
Duque, X, Martinez, H, Vilchis-Gil, J, Mendoza, E, Flores-Hernández, S, Morán, S, Navarro, F, Roque-Evangelista, V, Serrano, A, Mera, RM
Nutrition journal. 2014;:71
Abstract
BACKGROUND Iron deficiency is one of the most common nutritional deficiencies worldwide. It is more prevalent when iron requirements are increased during pregnancy and during growth spurts of infancy and adolescence. The last stage in the process of iron depletion is characterized by a decrease in hemoglobin concentration, resulting in iron deficiency anemia. Iron deficiency, even before it is clinically identified as anemia, compromises the immune response, physical capacity for work, and intellectual functions such as attention level. Therefore, interventions addressing iron deficiency should be based on prevention rather than on treatment of anemia. The aim of this study was to compare short- and medium-term effects on ferritin concentration of daily supplementation with ferrous sulfate or iron bis-glycinate chelate in schoolchildren with iron deficiency but without anemia. METHODS Two hundred schoolchildren from public boarding schools in Mexico City who had low iron stores as assessed by serum ferritin concentration but without anemia were randomly assigned to a daily supplement of 30 mg/day of elemental iron as ferrous sulfate or iron bis-glycinate chelate for 12 weeks. Iron status was evaluated at baseline, one week post-supplementation (short term), and 6 months (medium term) after supplementation. RESULTS Ferritin concentration increased significantly between baseline and post-supplementation as well as between baseline and 6 months after supplementation. One week post-supplementation no difference was found in ferritin concentration between iron compounds, but 6 months after supplementation ferritin concentration was higher in the group that received bis-glycinate chelate iron. However, there is no difference in the odds for low iron storage between 6 months after supplementation versus the odds after supplementation; nor were these odds different by type of supplement. Hemoglobin concentration did not change significantly in either group after supplementation. CONCLUSIONS Supplementing with 30 mg/d of elementary iron, either as ferrous sulfate or iron bis-glycinate chelate for 90 days, showed positive effects on increasing ferritin concentration in schoolchildren with low iron stores, and this effect persisted 6 months after supplementation.