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Literature DB >> 26708291

The linker region of breast cancer resistance protein ABCG2 is critical for coupling of ATP-dependent drug transport.

S Macalou¹, R W Robey², G Jabor Gozzi¹, S Shukla³, I Grosjean⁴, T Hegedus⁵, S V Ambudkar³, S E Bates², A Di Pietro⁶.

Abstract

The ATP-binding cassette (ABC) transporters of class G display a different domain organisation than P-glycoprotein/ABCB1 and bacterial homologues with a nucleotide-binding domain preceding the transmembrane domain. The linker region connecting these domains is unique and its function and structure cannot be predicted. Sequence analysis revealed that the human ABCG2 linker contains a LSGGE sequence, homologous to the canonical C-motif/ABC signature present in all ABC nucleotide-binding domains. Predictions of disorder and of secondary structures indicated that this C2-sequence was highly mobile and located between an α-helix and a loop similarly to the C-motif. Point mutations of the two first residues of the C2-sequence fully abolished the transport-coupled ATPase activity, and led to the complete loss of cell resistance to mitoxantrone. The interaction with potent, selective and non-competitive, ABCG2 inhibitors was also significantly altered upon mutation. These results suggest an important mechanistic role for the C2-sequence of the ABCG2 linker region in ATP binding and/or hydrolysis coupled to drug efflux.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: ABC transporter; ATP hydrolysis; Breast cancer resistance protein/ABCG2; C motif/ABC signature; Drug efflux coupling; Specific sequence

Mesh：

Substances：

Year: 2015 PMID： 26708291 PMCID： PMC7477947 DOI： 10.1007/s00018-015-2118-5

Source DB: PubMed Journal: Cell Mol Life Sci ISSN： 1420-682X Impact factor: 9.261

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