Sterolin

ABCG5 and ABCG8 genes encode for two proteins sterolin-1 and -2, respectively. Sterolin-1 and –2 are two ‘half’ adenosine triphosphate binding (ATP) cassette (ABC) transporters which found to be indispensable for the regulation of sterol absorption and excretion. Mutations in either genes result in a lipid disorder, sitosterolemia.

Sterolin
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Aliases
External IDsGeneCards:
Orthologs
SpeciesHumanMouse
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View/Edit Human
ATP-binding cassette, sub-family G (WHITE), member 5 (sterolin 1)
Identifiers
SymbolABCG5
NCBI gene64240
HGNC13886
OMIM605459
RefSeqNM_022436
UniProtQ9H222
Other data
LocusChr. 2 p21
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StructuresSwiss-model
DomainsInterPro
ATP-binding cassette, sub-family G (WHITE), member 8 (sterolin 2)
Identifiers
SymbolABCG8
NCBI gene64241
HGNC13887
OMIM605460
RefSeqNM_022437
UniProtQ9H221
Other data
LocusChr. 2 p21
Search for
StructuresSwiss-model
DomainsInterPro

Locus of the genes

The molecular mechanisms regulating the absorption of dietary sterols in the body are poorly understood, and as sitosterolemia is a rare autosomal recessively inherited lipid metabolic disorder characterized by hyperabsorption and decreased biliary excretion of dietary sterols, studies have focused on the molecular basis of sitosterolemia to shed light on important principles concerning intestinal sterol absorption as well as cholesterol secretion into bile.

In 1998, sitosterolemia (STSL) locus has been mapped to the short arm of human chromosome 2 (2p21) after studying 10 well-characterized families with this disorder. Subsequently, the STSL locus has been further localized to a less than 2 centimorgans (cM) region.

In 2001, The STSL locus was found to be comprises two genes, ABCG5 and ABCG8, encoding 2 members of the ABC-transporter family, named sterolin-1 and sterolin-2, respectively, Sterolin-2, discovered after sterolin-1, is located <400 base pair (bp) upstream of sterolin-1 in the opposite orientation.

Structure of the encoded proteins

Typical ABC transporter consists of two transmembrane domains and two nucleotide-binding domains. However, the ABCG or White subfamily with its five fully characterized human members consists of half-size ABC proteins which probably dimerize to form active membrane transporters. In our case, it is suggested that ABCG5 and ABCG8 form a heterodimer . Among the half-size molecules, ABCG proteins have a peculiar domain organization characterized by a nucleotide-binding domain at the N-terminus followed by six transmembrane-spanning domains.

Function

Under normal circumstances, a western diet contains almost equal amounts of cholesterol and noncholesterol sterols (such as plant sterols sitosterol, campesterol, and brassicasterol). However, only about 55% of total dietary cholesterol is absorbed and retained while almost none of the noncholesterol sterols are retained since the small amount of dietary non-cholesterols that do enter the body are rapidly excreted by the liver into bile, almost unchanged.

Sterolins are likely involved both in the selective transport of dietary cholesterol in and out of enterocytes and in selective sterol excretion by the liver into bile, as evidenced by the consequences when it is deficient or over expressed. The exact mechanism(s) whereby ABCG5/ABCG8 exert their effects on sterol metabolism has not yet been clarified. But it is suggested that the ABCG5/ABCG8 heterodimer shuttles cholesterol from the inner leaflet of the canalicular membrane through a chamber formed by the two half-transporters. Following ATP binding and hydrolysis, the complex undergoes a conformational change, flipping a cholesterol molecule into the outer membrane leaflet in a configuration that favors its release into the canalicular space.

Based on the clinical defects in sitosterolemia, ABCG5/ABCG8 are expressed in the liver and/or the intestine. 5 These genes respond to environmental dietary sterols, although whether they are also increased by high phytosterols has yet to be determined.

It is worth to mention that other gene products play a role in dietary-cholesterol transport (such as ABCA1).

Disorders involving ABCG5 and ABCG8 genes

Mutations in both alleles of either ABCG5 or ABCG8 in the human results in sitosterolemia. Sitosterolemia (also known as phytosterolemia) is a rare autosomal recessively inherited lipid metabolic disorder characterized by the presence of tendon xanthomas, premature coronary artery disease and atherosclerotic disease, hemolytic episodes, arthralgias and arthritis. The hallmark of sitosterolemia is diagnostically elevated levels of plant sterols in the plasma.

References

    • Lee M, Lu K, Patel S B. Genetic basis of sitosterolemia. Curr. Opin. Lipidol., 2001; 12(2): 141–149.
    • Patel S B, Salen G, Hidaka H, Kwiterovich P O, Stalenhoef A F, Miettinen T A, Grundy S M, Lee M H, Rubenstein J S, Polymeropoulos M H, Brownstein M J. Mapping a gene involved in regulating dietary cholesterol absorption. The sitosterolemia locus is found at chromosome 2p21. J. Clin. Invest., 1998;102: 1041–1044.
    • Lee M H, Gordon D, Ott J, Lu K, Ose L, Miettinen T, Gylling H, Stalenhoef A F, Pandya A, Hidaka H, B Jr. Brewer, Kojima H, Sakuma N, Pegoraro R, Salen G, Patel S B. Fine mapping of a gene responsible for regulating dietary cholesterol absorption: founder effects underlie cases of phytosterolaemia in multiple communities. Eur. J. Hum. Genet. 2001;9: 375–384.
    • Lee M-H, Lu K, Hazard S, Yu H, Shulenin S, Hidaka H, Kojima H, Allikmets R, Sakuma N, Pegoraro R, Srivastava AK, Salen G, Dean M, Patel SB Identification of a gene, ABCG5, important in the regulation of dietary cholesterol absorption. Nat Genet, 2001;27:79–83.
    • Lu K, Lee M-H, Hazard S,Brooks-Wilson A, Hidaka H, Kojima H, Ose L, Stalenhoef A F H,Mietinnen T,Bjorkhem I,Bruckert E, Pandya A, Brewer H B Jr., Salen G,Dean M,Srivastava A, Patel S B. Two genes that map to the STSL locus cause sitosterolemia: genomic structure and spectrum of mutations involving sterolin-1 and sterolin-2, encoded by ABCG5 and ABCG8, respectively. Am J Hum Genet,. 2001;69:278–290.
    • Stefkoa J, Poledne R, Hubacek J A.ATP-Binding Cassette (ABC) Transporters in Human Metabolism and Diseases. Physiol. Res., 2004;53: 235–243.
    • Wittenburg H, Carey M C.Biliary cholesterol secretion by the twinned sterol half-transporters ABCG5 and ABCG8. J Clin Invest., 2002; 110(5): 605–609.
    • Klett E L, Patel S.Genetic defenses against noncholesterol sterols. Curr Opin Lipidol.,2003 ; 14(4): 341–345.
    • Salen G, Shefer S, Nguyen L, Ness G C,Tint G S,Shore V . Sitosterolemia . J Lipid Res., 1992;33(7):945–955.
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