Ferritin

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Structure of the ferritin complex
ferritin, light polypeptide
Identifiers
Symbol	FTL
Entrez	2512
HUGO	3999
OMIM	134790
RefSeq	NM_000146
UniProt	P02792
Other data
Locus	Chr. 19 q13.3-13.4

ferritin, heavy polypeptide 1
Identifiers
Symbol	FTH1
Alt. Symbols	FTHL6
Entrez	2495
HUGO	3976
OMIM	134770
RefSeq	NM_002032
UniProt	P02794
Other data
Locus	Chr. 11 q13

ferritin mitochondrial
Identifiers
Symbol	FTMT
Entrez	94033
HUGO	17345
OMIM	608847
RefSeq	NM_177478
UniProt	Q8N4E7
Other data
Locus	Chr. 5 q23.1

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Ferritin is a globular protein complex consisting of 24 protein subunits and is the main intracellular iron storage protein in both prokaryotes and eukaryotes, keeping it in a soluble and non-toxic form. Ferritin which is not combined with iron is called apoferritin.

1 Description
2 Function
3 Diagnostic uses
4 See also
5 References
6 External links

Description

Ferritin, a 450 kDa protein consisting of 24 subunits is present in every cell type. In vertebrates, these subunits are both the light (L) and the heavy (H) type with an apparent molecular weight of 19 kDA or 21 kDA respectively. In plants and bacteria the complex only consists of the H-chain type. Inside the ferritin shell, iron ions form crystallites together with phosphate and hydroxide ions. The resulting particle is similar to the mineral ferrihydrite. Each ferritin complex can store about 4500 iron (Fe³⁺) ions.

Some ferritin complexes in vertebrates are hetero-oligomers of two highly-related gene products with slightly different physiological properties. The ratio of the two homologous proteins in the complex depends on the relative expression levels of the two genes.

Function

Free iron is toxic to cells as it acts as a catalyst in the formation of free radicals from reactive oxygen species via the Fenton Reaction.^[1] Hence organisms have evolved an elaborate set of protective mechanisms to bind iron in various tissue compartments. Within cells, iron is stored complexed to protein as ferritin or hemosiderin. Apoferritin binds to free ferrous iron and stores it in the ferric state. As ferritin accumulates within cells of the reticuloendothelial system, protein aggregates are formed as hemosiderin. Iron in ferritin or hemosiderin can be extracted for release by the RE cells although hemosiderin is less readily available. Under steady state conditions, the serum ferritin level correlates with total body iron stores; thus, the serum ferritin level is the most convenient laboratory test to estimate iron stores.

Ferritin is also used in materials science as a precursor in making iron nanoparticles for carbon nanotube growth by chemical vapor deposition.

Diagnostic uses

Serum ferritin levels are measured in patients as part of the iron studies workup for anemia and for restless legs syndrome. The ferritin levels measured have a direct correlation with the total amount of iron stored in the body (except in certain circumstances, such as anemia of chronic disease). If ferritin is high there is iron in excess, which would be excreted in the stool. If ferritin is low there is a risk for lack in iron which could lead to anemia. Low ferritin levels (<50 ng/mL) have been associated with symptoms of restless legs syndrome even in the absence of anemia.^[2]

Normal blood levels are 30-300 ng/mL for males and 15-200 ng/mL for females. ((according to clinical medicine by Kumar & Clark page 428)).^[3]^[4]

In the setting of anemia, serum ferritin is the most sensitive lab test for iron deficiency anemia.^[5]

Ferritin is also used as a marker for iron overload disorders, such as hemochromatosis and porphyria in which the ferritin level may be abnormally raised.

As ferritin is also an acute-phase reactant, it is often elevated in the course of disease. A normal C-reactive protein can be used to exclude elevated ferritin caused by acute phase reactions.

Ferritin can be elevated during periods of acute malnourishment.^[6]

In a certain study in Paris, France, the level of iron in the blood (measured by ordering a ferritin serum test) has been connected to ADHD in children. Specifically, the lower the iron level, the more severe the ADHD symptoms.^[7]

References

^ Orino K, Lehman L, Tsuji Y, Ayaki H, Torti SV, Torti FM (2001). "Ferritin and the response to oxidative stress". Biochem J 357 (1): 241–7. doi:10.1042/0264-6021:3570241. PMID 11415455.
^ Kryger MH, Otake K, Foerster J (March 2002). "Low body stores of iron and restless legs syndrome: a correctable cause of insomnia in adolescents and teenagers". Sleep Med. 3 (2): 127–32. doi:10.1016/S1389-9457(01)00160-5. PMID 14592231.
^ Ryan GM, Torelli J (2005). Beyond cholesterol: 7 life-saving heart disease tests that your doctor may not give you. New York: St. Martin's Griffin. ISBN 0-312-34863-0.
^ "Ferritin". MedlinePlus Medical Encyclopedia. U.S. National Library of Medicine.
^ Guyatt G, Patterson C, Ali M, Singer J, Levine M, Turpie I, Meyer R (1990). "Diagnosis of iron-deficiency anemia in the elderly". Am J Med 88 (3): 205–9. doi:10.1016/0002-9343(90)90143-2. PMID 2178409.
^ Kennedy A, Kohn M, Lammi A, Clarke S (2004). "Iron status and haematological changes in adolescent female inpatients with anorexia nervosa". J Paediatr Child Health 40 (8): 430–2. doi:10.1111/j.1440-1754.2004.00432.x. PMID 15265182.
^ Greene MD, Alan (2004-12-17). "Iron and ADHD". Retrieved on 2008-08-19.

External links

Bridges KR, Okam M (2001-01-29). "Transerrin and Iron Transport Physiology". Joint Center for Sickle Cell and Thalassemic Disorders. Harvard Medical School and Brigham And Women's Hospital. Retrieved on 2008-08-23.

v • d • e Carrier proteins, metalloproteins: iron-binding proteins

heme	Ferritin (Bacterioferritin) - Lactoferrin - Transferrin

nonheme	Hemerythrin - Inositol oxygenase - Iron-sulfur protein - Lipoxygenase - Tyrosine hydroxylase

Wikipedia content modification information:

This page was last modified on 23 August 2008, at 18:41.

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