Transport of drugs by the multidrug transporter AcrB involves an access and a deep binding pocket that are separated by a switch-loop

Eicher, Thomas; Cha, Hi-jea; Seeger, Markus A.; Brandstätter, Lorenz; El-Delik, Jasmin; Bohnert, Jürgen A.; Kern, Winfried V.; Verrey, François; Grütter, Markus G.; Diederichs, Kay; Pos, Klaas M.

Publikation:
Transport of drugs by the multidrug transporter AcrB involves an access and a deep binding pocket that are separated by a switch-loop

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Diederichs 208108.pdfGröße: 4.54 MBDownloads: 522

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2012

Autor:innen

Eicher, Thomas

Cha, Hi-jea

Seeger, Markus A.

Brandstätter, Lorenz

El-Delik, Jasmin

Bohnert, Jürgen A.

Kern, Winfried V.

Verrey, François

Grütter, Markus G.

Diederichs, Kay

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Open Access Green

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Biologie: Publikationen

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Proceedings of the National Academy of Sciences. 2012, 109(15), pp. 5687-5692. ISSN 0027-8424. eISSN 1091-6490. Available under: doi: 10.1073/pnas.1114944109

Zusammenfassung

AcrAB-TolC is the major efflux protein complex in Escherichia coli extruding a vast variety of antimicrobial agents from the cell. The inner membrane component AcrB is a homotrimer, and it has been postulated that the monomers cycle consecutively through three conformational stages designated loose (L), tight (T), and open (O) in a concerted fashion. Binding of drugs has been shown at a periplasmic deep binding pocket in the T conformation. The initial drug-binding step and transport toward this drug-binding site has been elusive thus far. Here we report high resolution structures (1.9–2.25 Å) of AcrB/designed ankyrin repeat protein (DARPin) complexes with bound minocycline or doxorubicin. In the AcrB/doxorubicin cocrystal structure, binding of three doxorubicin molecules is apparent, with one doxorubicin molecule bound in the deep binding pocket of the T monomer and two doxorubicin molecules in a stacked sandwich arrangement in an access pocket at the lateral periplasmic cleft of the L monomer. This access pocket is separated from the deep binding pocket apparent in the T monomer by a switch-loop. The localization and conformational flexibility of this loop seems to be important for large substrates, because a G616N AcrB variant deficient in macrolide transport exhibits an altered conformation within this loop region. Transport seems to be a stepwise process of initial drug uptake in the access pocket of the L monomer and subsequent accommodation of the drug in the deep binding pocket during the L to T transition to the internal deep binding pocket of the T monomer.

Fachgebiet (DDC)

570 Biowissenschaften, Biologie

Schlagwörter

Antibiotics, multidrug resistance, drug efflux, RND transporter

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ISO 690

EICHER, Thomas, Hi-jea CHA, Markus A. SEEGER, Lorenz BRANDSTÄTTER, Jasmin EL-DELIK, Jürgen A. BOHNERT, Winfried V. KERN, François VERREY, Markus G. GRÜTTER, Kay DIEDERICHS, Klaas M. POS, 2012. Transport of drugs by the multidrug transporter AcrB involves an access and a deep binding pocket that are separated by a switch-loop. In: Proceedings of the National Academy of Sciences. 2012, 109(15), pp. 5687-5692. ISSN 0027-8424. eISSN 1091-6490. Available under: doi: 10.1073/pnas.1114944109

BibTex

@article{Eicher2012-04-10Trans-20810,
  year={2012},
  doi={10.1073/pnas.1114944109},
  title={Transport of drugs by the multidrug transporter AcrB involves an access and a deep binding pocket that are separated by a switch-loop},
  number={15},
  volume={109},
  issn={0027-8424},
  journal={Proceedings of the National Academy of Sciences},
  pages={5687--5692},
  author={Eicher, Thomas and Cha, Hi-jea and Seeger, Markus A. and Brandstätter, Lorenz and El-Delik, Jasmin and Bohnert, Jürgen A. and Kern, Winfried V. and Verrey, François and Grütter, Markus G. and Diederichs, Kay and Pos, Klaas M.}
}

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    <dcterms:abstract xml:lang="eng">AcrAB-TolC is the major efflux protein complex in Escherichia coli extruding a vast variety of antimicrobial agents from the cell. The inner membrane component AcrB is a homotrimer, and it has been postulated that the monomers cycle consecutively through three conformational stages designated loose (L), tight (T), and open (O) in a concerted fashion. Binding of drugs has been shown at a periplasmic deep binding pocket in the T conformation. The initial drug-binding step and transport toward this drug-binding site has been elusive thus far. Here we report high resolution structures (1.9–2.25 Å) of AcrB/designed ankyrin repeat protein (DARPin) complexes with bound minocycline or doxorubicin. In the AcrB/doxorubicin cocrystal structure, binding of three doxorubicin molecules is apparent, with one doxorubicin molecule bound in the deep binding pocket of the T monomer and two doxorubicin molecules in a stacked sandwich arrangement in an access pocket at the lateral periplasmic cleft of the L monomer. This access pocket is separated from the deep binding pocket apparent in the T monomer by a switch-loop. The localization and conformational flexibility of this loop seems to be important for large substrates, because a G616N AcrB variant deficient in macrolide transport exhibits an altered conformation within this loop region. Transport seems to be a stepwise process of initial drug uptake in the access pocket of the L monomer and subsequent accommodation of the drug in the deep binding pocket during the L to T transition to the internal deep binding pocket of the T monomer.</dcterms:abstract>
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Publikation: Transport of drugs by the multidrug transporter AcrB involves an access and a deep binding pocket that are separated by a switch-loop

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Publikation:
Transport of drugs by the multidrug transporter AcrB involves an access and a deep binding pocket that are separated by a switch-loop