Regulation of Selenium Metabolism and Transport

Selenium is regulated in the body to maintain vital selenoproteins and to avoid toxicity. When selenium is limiting, cells utilize it to synthesize the selenoproteins most important to them, creating a selenoprotein hierarchy in the cell. The liver is the central organ for selenium regulation and pr...

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Vydáno v:Annual review of nutrition Ročník 35; s. 109 - 134
Hlavní autoři: Burk, Raymond F, Hill, Kristina E
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States 17.07.2015
Témata:
Animals
Biological Availability
Biological Transport
Biomarkers
Diet
Dietary Supplements
Health Status
Homeostasis - physiology
Humans
Kidney Tubules, Proximal - metabolism
LDL-Receptor Related Proteins - physiology
Liver - physiology
Low Density Lipoprotein Receptor-Related Protein-2 - physiology
Nutritional Requirements
Organ Specificity
Selenium - deficiency
Selenium - metabolism
Selenium - pharmacokinetics
Selenocysteine - metabolism
Selenomethionine - metabolism
Selenoprotein P - analysis
Selenoprotein P - blood
Selenoproteins - biosynthesis
Selenoproteins - metabolism
selenocysteine lyase
human selenium metabolism
apolipoprotein E receptor-2
selenoprotein hierarchy
megalin
selenoprotein P
ISSN:1545-4312
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Shrnutí:Selenium is regulated in the body to maintain vital selenoproteins and to avoid toxicity. When selenium is limiting, cells utilize it to synthesize the selenoproteins most important to them, creating a selenoprotein hierarchy in the cell. The liver is the central organ for selenium regulation and produces excretory selenium forms to regulate whole-body selenium. It responds to selenium deficiency by curtailing excretion and secreting selenoprotein P (Sepp1) into the plasma at the expense of its intracellular selenoproteins. Plasma Sepp1 is distributed to tissues in relation to their expression of the Sepp1 receptor apolipoprotein E receptor-2, creating a tissue selenium hierarchy. N-terminal Sepp1 forms are taken up in the renal proximal tubule by another receptor, megalin. Thus, the regulated whole-body pool of selenium is shifted to needy cells and then to vital selenoproteins in them to supply selenium where it is needed, creating a whole-body selenoprotein hierarchy.
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ISSN:1545-4312
DOI:10.1146/annurev-nutr-071714-034250