Literature DB >> 32978801

Picky ABCG5/G8 and promiscuous ABCG2 - a tale of fatty diets and drug toxicity.

Narakorn Khunweeraphong1,2, James Mitchell-White3, Dániel Szöllősi4, Toka Hussein5, Karl Kuchler1, Ian D Kerr3, Thomas Stockner4, Jyh-Yeuan Lee5.   

Abstract

Structural data on ABCG5/G8 and ABCG2 reveal a unique molecular architecture for subfamily G ATP-binding cassette (ABCG) transporters and disclose putative substrate-binding sites. ABCG5/G8 and ABCG2 appear to use several unique structural motifs to execute transport, including the triple helical bundles, the membrane-embedded polar relay, the re-entry helices, and a hydrophobic valve. Interestingly, ABCG2 shows extreme substrate promiscuity, whereas ABCG5/G8 transports only sterol molecules. ABCG2 structures suggest a large internal cavity, serving as a binding region for substrates and inhibitors, while mutational and pharmacological analyses support the notion of multiple binding sites. By contrast, ABCG5/G8 shows a collapsed cavity of insufficient size to hold substrates. Indeed, mutational analyses indicate a sterol-binding site at the hydrophobic interface between the transporter and the lipid bilayer. In this review, we highlight key differences and similarities between ABCG2 and ABCG5/G8 structures. We further discuss the relevance of distinct and shared structural features in the context of their physiological functions. Finally, we elaborate on how ABCG2 and ABCG5/G8 could pave the way for studies on other ABCG transporters.
© The Authors. FEBS Letters published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.

Entities:  

Keywords:  ABCG2; ABCG5; ABCG8; ATP-binding cassette; cholesterol efflux; membranes; multidrug resistance; polar relay; structural biology

Mesh:

Substances:

Year:  2020        PMID: 32978801      PMCID: PMC7756502          DOI: 10.1002/1873-3468.13938

Source DB:  PubMed          Journal:  FEBS Lett        ISSN: 0014-5793            Impact factor:   3.864


  189 in total

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6.  Direct intestinal cholesterol secretion contributes significantly to total fecal neutral sterol excretion in mice.

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