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Ferroportin-1, also known as solute carrier family 40 member 1 (SLC40A1) or iron-regulated transporter 1 (IREG1), is a protein that in humans is encoded by the SLC40A1 gene. [5] Ferroportin is a transmembrane protein that transports iron from the inside of a cell to the outside of the cell.
Another player assisting ferroportin in effecting cellular iron export is GAPDH. [32] A specific post translationally modified isoform of GAPDH is recruited to the surface of iron loaded cells where it recruits apo-transferrin in close proximity to ferroportin so as to rapidly chelate the iron extruded. [33]
After absorption, the iron from preparation becomes part of the iron pool in the body. Upon stimulation, the reduction of iron storage Fe3+ in the enterocyte to Fe2+ ferroportin allows the passage of iron through the cell membrane for export. In the blood, ferroportin is then converted to transferrin to reach other tissues. [14]
Transferrin glycoproteins bind iron tightly, but reversibly. Although iron bound to transferrin is less than 0.1% (4 mg) of total body iron, it forms the most vital iron pool with the highest rate of turnover (25 mg/24 h). Transferrin has a molecular weight of around 80 kDa and contains two specific high-affinity Fe(III) binding sites.
Another player assisting ferroportin in effecting cellular iron export is GAPDH. [47] A specific post translationally modified isoform of GAPDH is recruited to the surface of iron loaded cells where it recruits apo-transferrin in close proximity to ferroportin so as to rapidly chelate the iron extruded. [48]
Ferroportin is upregulated in the reticuloendothelial macrophages after phagocytosis occurs so that iron from the degraded red blood cells can be released into the bloodstream and transported to other types of cells as needed. Hepcidin, a protein synthesized in the liver in response to iron or inflammation, is a regulator of ferroportin ...
Iron is transported by transferrin whose binding site consists of two tyrosines, one aspartic acid and one histidine. [22] The human body has no controlled mechanism for excretion of iron. [ 23 ] This can lead to iron overload problems in patients treated with blood transfusions , as, for instance, with β- thalassemia .
In HEK 293 cells, Q248H was as predisposed to the activities of hepcidin-25 as wild type ferroportin. [27] Ferroportin Q248H also unregulated the expression of transferrin receptor-1 in the same way as wild type. This indicates the ferroportin Q248H is associated with mild clinical phenotype or causes iron disorder in the presence of other factors.