Gene/Protein
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Enzyme
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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ferritin is an iron-storage protein composed of different ratios of 24 light (L) and heavy (H) subunits. The serum level of
ferritin
is a clinical marker of the body's iron level. Transferrin receptor (TFR)1 is the receptor not only for transferrin but also for H-
ferritin
, but how it binds two different ligands and the blood cell types that preferentially incorporate H-
ferritin
remain unknown. To address these questions, we investigated
hematopoietic cell-specific
ferritin
uptake by flow cytometry. Alexa Fluor 488-labeled H-
ferritin
was preferentially incorporated by erythroid cells among various hematopoietic cell lines examined, and was almost exclusively incorporated by bone marrow erythroblasts among human primary hematopoietic cells of various lineages. H-
ferritin
uptake by erythroid cells was strongly inhibited by unlabeled H-
ferritin
but was only partially inhibited by a large excess of holo-transferrin. On the other hand, internalization of labeled holo-transferrin by these cells was not inhibited by H-
ferritin
. Chinese hamster ovary cells lacking functional endogenous TFR1 but expressing human TFR1 with a mutated RGD sequence, which is required for transferrin binding, efficiently incorporated H-
ferritin
, indicating that TFR1 has distinct binding sites for H-
ferritin
and holo-transferrin. H-
ferritin
uptake by these cells required a threshold level of cell surface TFR1 expression, whereas there was no threshold for holo-transferrin uptake. The requirement for a threshold level of TFR1 expression can explain why among primary human hematopoietic cells, only erythroblasts efficiently take up H-
ferritin
.
...
PMID:H-Ferritin Is Preferentially Incorporated by Human Erythroid Cells through Transferrin Receptor 1 in a Threshold-Dependent Manner. 2644 Dec 43
Erythropoiesis requires large amounts of iron for hemoglobin synthesis, which is mainly provided by macrophages and the intestines in a transferrin (Tf)-bound form. Bone marrow erythroblasts incorporate Tf through endocytosis, which is mediated by transferrin receptor 1 (TFR1). Recently, human TFR1, aside from its role as a Tf receptor, was also found to be a receptor for the H-subunit of
ferritin
(FTH). In humans, hematopoietic erythroid precursor cells express high levels of TFR1 and specifically take up the FTH homopolymer (H-
ferritin
). H-
ferritin
inhibits the formation of burst forming unit-erythroid colonies in vitro. TFR2, which is also a Tf receptor, is predominantly expressed in hepatocytes and erythroid precursor cells. In the liver, TFR2 forms a complex with HFE, a hereditary hemochromatosis-associated protein, and acts as an iron sensor. In mice, hepatocyte-specific knockout of the TFR2 gene has been shown to cause systemic iron-overload with decreased expression of hepcidin, the central regulator of iron homeostasis. In erythroid cells, TFR2 forms a complex with the erythropoietin receptor and facilitates its trafficking to the cell membrane. Moreover,
hematopoietic cell-specific
knockout of the TFR2 gene causes microcytic erythrocytosis in mice. This review focuses on the molecular evolution and functions of these TFRs and their ligands.
...
PMID:Roles of transferrin receptors in erythropoiesis. 2749 43
