Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Target Concepts:
Gene/Protein
Disease
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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)
Inherited microcytic-hypochromic anemias in rodents and zebrafish suggest the existence of corresponding human disorders. The zebrafish mutant shiraz has severe anemia and is embryonically lethal because of
glutaredoxin 5
(GRLX5) deletion, insufficient biogenesis of mitochondrial iron-sulfur (Fe/S) clusters, and deregulated iron-regulatory protein 1 (IRP1) activity. This leads to stabilization of transferrin receptor 1 (TfR) RNA, repression of
ferritin
, and ALA-synthase 2 (ALAS2) translation with impaired heme synthesis. We report the first case of
GLRX5
deficiency in a middle-aged anemic male with iron overload and a low number of ringed sideroblasts. Anemia was worsened by blood transfusions but partially reversed by iron chelation. The patient had a homozygous (c.294A>G) mutation that interferes with intron 1 splicing and drastically reduces
GLRX5
RNA. As in shiraz, aconitase and H-
ferritin
levels were low and TfR level was high in the patient's cells, compatible with increased IRP1 binding. Based on the biochemical and clinical phenotype, we hypothesize that IRP2, less degraded by low heme, contributes to the repression of the erythroblasts
ferritin
and ALAS2, increasing mitochondrial iron. Iron chelation, redistributing iron to the cytosol, might relieve IRP2 excess, improving heme synthesis and anemia.
GLRX5
function is highly conserved, but at variance with zebrafish, its defect in humans leads to anemia and iron overload.
...
PMID:The human counterpart of zebrafish shiraz shows sideroblastic-like microcytic anemia and iron overload. 1748 48
Rationale:
Loss of iron-sulfur cluster function predisposes cancer cells to ferroptosis by upregulating iron-starvation response, but the role of
glutaredoxin 5
(
GLRX5
) silencing in ferroptosis remains unknown. We examined the role of
GLRX5
functional loss in promoting ferroptosis in cisplatin-resistant head and neck cancer (HNC) cells.
Methods:
The effects of sulfasalazine treatment and
GLRX5
gene silencing were tested on HNC cell lines and mouse tumor xenograft models. These effects were analyzed concerning cell viability and death, lipid reactive oxygen species (ROS) and mitochondrial iron production, labile iron pool, mRNA/protein expression, and malondialdehyde assays.
Results:
Cyst(e)ine deprivation, erastin, or sulfasalazine induced ferroptosis in HNC cells, which was relatively less sensitive in cisplatin-resistant HNC cells. Sulfasalazine or cyst(e)ine deprivation-induced ferroptosis resulted from increased lipid peroxidation and intracellular free iron, which were significantly promoted by short-interfering RNA or short hairpin RNA (shRNA) targeting
GLRX5
(
P
<0.05).
GLRX5
silencing activated iron-starvation response and boosted up intracellular free iron through the iron-responsive element-binding activity of increased iron regulatory protein (increased transferrin receptor and decreased
ferritin
). These effects were rescued by resistant
GLRX5
cDNA but not by catalytically inactive mutant
GLRX5
K101Q. The same results were noted in an
in vivo
mouse model transplanted with vector or shGLRX5-transduced HNC cells and treated with sulfasalazine.
Conclusion:
Our data suggest that inhibition of
GLRX5
predisposes therapy-resistant HNC cells to ferroptosis.
...
PMID:Inhibition of Glutaredoxin 5 predisposes Cisplatin-resistant Head and Neck Cancer Cells to Ferroptosis. 3268 19
Iron deprivation activates mitophagy and extends lifespan in nematodes. In patients suffering from Parkinson's disease (PD), PINK1-PRKN mutations via deficient mitophagy trigger iron accumulation and reduce lifespan. To evaluate molecular effects of iron chelator drugs as a potential PD therapy, we assessed fibroblasts by global proteome profiles and targeted transcript analyses. In mouse cells, iron shortage decreased protein abundance for iron-binding nucleotide metabolism enzymes (prominently XDH and
ferritin
homolog RRM2). It also decreased the expression of factors with a role for nucleotide surveillance, which associate with iron-sulfur-clusters (ISC), and are important for growth and survival. This widespread effect included prominently
Nthl1-Ppat-Bdh2
, but also mitochondrial
Glrx5
-
Nfu1
-
Bola1
, cytosolic
Aco1-Abce1-Tyw5
, and nuclear
Dna2
-
Elp3
-
Pold1
-
Prim2
. Incidentally, upregulated
Pink1
-
Prkn
levels explained mitophagy induction, the downregulated expression of
Slc25a28
suggested it to function in iron export. The impact of PINK1 mutations in mouse and patient cells was pronounced only after iron overload, causing hyperreactive expression of ribosomal surveillance factor
Abce1
and of
ferritin
, despite
ferritin
translation being repressed by IRP1. This misregulation might be explained by the deficiency of the ISC-biogenesis factor
GLRX5
. Our systematic survey suggests mitochondrial ISC-biogenesis and post-transcriptional iron regulation to be important in the decision, whether organisms undergo PD pathogenesis or healthy aging.
...
PMID:Systematic Surveys of Iron Homeostasis Mechanisms Reveal Ferritin Superfamily and Nucleotide Surveillance Regulation to be Modified by PINK1 Absence. 3302 55
