Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors

Javier Yu Peng Koh; Yoko Itahana; Alexander Krah; Habib Mostafa; Mingmin Ong; Sahana Iwamura; Dona Mariya Vincent; Sabhashina Radha Krishnan; Weiying Ye; Pierre Wing Chi Yim; Tushar M. Khopade; Kunihiko Chen; Pui San Kong; Lin Fa Wang; Roderick W. Bates; Yasuhisa Kimura; Rajesh Viswanathan; Peter J. Bond; Koji Itahana

doi:10.1038/s42004-024-01225-z

Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors

Javier Yu Peng Koh, Yoko Itahana, Alexander Krah, Habib Mostafa, Mingmin Ong, Sahana Iwamura, Dona Mariya Vincent, Sabhashina Radha Krishnan, Weiying Ye, Pierre Wing Chi Yim, Tushar M. Khopade, Kunihiko Chen, Pui San Kong, Lin Fa Wang, Roderick W. Bates, Yasuhisa Kimura, Rajesh Viswanathan^*, Peter J. Bond^*, Koji Itahana^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Chemotherapy-induced drug resistance remains a major cause of cancer recurrence and patient mortality. ATP binding cassette subfamily B member 1 (ABCB1) transporter overexpression in tumors contributes to resistance, yet current ABCB1 inhibitors have been unsuccessful in clinical trials. To address this challenge, we propose a new strategy using tryptophan as a lead molecule for developing ABCB1 inhibitors. Our idea stems from our studies on bat cells, as bats have low cancer incidences and high ABCB1 expression. We hypothesized that potential ABCB1 substrates in bats could act as competitive inhibitors in humans. By molecular simulations of ABCB1-substrate interactions, we generated a benzylated Cyclo-tryptophan (C3N-Dbn-Trp2) that inhibits ABCB1 activity with efficacy comparable to or better than the classical inhibitor, verapamil. C3N-Dbn-Trp2 restored chemotherapy sensitivity in drug-resistant human cancer cells with no adverse effect on cell proliferation. Our unique approach presents a promising lead toward developing effective ABCB1 inhibitors to treat drug-resistant cancers.

Original language	English
Article number	158
Journal	Communications Chemistry
Volume	7
Issue number	1
DOIs	https://doi.org/10.1038/s42004-024-01225-z
Publication status	Published - Dec 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

ASJC Scopus Subject Areas

General Chemistry
Environmental Chemistry
Biochemistry
Materials Chemistry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s42004-024-01225-z

Cite this

Koh, J. Y. P., Itahana, Y., Krah, A., Mostafa, H., Ong, M., Iwamura, S., Vincent, D. M., Radha Krishnan, S., Ye, W., Yim, P. W. C., Khopade, T. M., Chen, K., Kong, P. S., Wang, L. F., Bates, R. W., Kimura, Y., Viswanathan, R., Bond, P. J., & Itahana, K. (2024). Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors. Communications Chemistry, 7(1), Article 158. https://doi.org/10.1038/s42004-024-01225-z

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title = "Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors",

abstract = "Chemotherapy-induced drug resistance remains a major cause of cancer recurrence and patient mortality. ATP binding cassette subfamily B member 1 (ABCB1) transporter overexpression in tumors contributes to resistance, yet current ABCB1 inhibitors have been unsuccessful in clinical trials. To address this challenge, we propose a new strategy using tryptophan as a lead molecule for developing ABCB1 inhibitors. Our idea stems from our studies on bat cells, as bats have low cancer incidences and high ABCB1 expression. We hypothesized that potential ABCB1 substrates in bats could act as competitive inhibitors in humans. By molecular simulations of ABCB1-substrate interactions, we generated a benzylated Cyclo-tryptophan (C3N-Dbn-Trp2) that inhibits ABCB1 activity with efficacy comparable to or better than the classical inhibitor, verapamil. C3N-Dbn-Trp2 restored chemotherapy sensitivity in drug-resistant human cancer cells with no adverse effect on cell proliferation. Our unique approach presents a promising lead toward developing effective ABCB1 inhibitors to treat drug-resistant cancers.",

author = "Koh, {Javier Yu Peng} and Yoko Itahana and Alexander Krah and Habib Mostafa and Mingmin Ong and Sahana Iwamura and Vincent, {Dona Mariya} and {Radha Krishnan}, Sabhashina and Weiying Ye and Yim, {Pierre Wing Chi} and Khopade, {Tushar M.} and Kunihiko Chen and Kong, {Pui San} and Wang, {Lin Fa} and Bates, {Roderick W.} and Yasuhisa Kimura and Rajesh Viswanathan and Bond, {Peter J.} and Koji Itahana",

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year = "2024",

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doi = "10.1038/s42004-024-01225-z",

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Koh, JYP, Itahana, Y, Krah, A, Mostafa, H, Ong, M, Iwamura, S, Vincent, DM, Radha Krishnan, S, Ye, W, Yim, PWC, Khopade, TM, Chen, K, Kong, PS, Wang, LF, Bates, RW, Kimura, Y, Viswanathan, R, Bond, PJ & Itahana, K 2024, 'Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors', Communications Chemistry, vol. 7, no. 1, 158. https://doi.org/10.1038/s42004-024-01225-z

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T1 - Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors

AU - Koh, Javier Yu Peng

AU - Itahana, Yoko

AU - Krah, Alexander

AU - Mostafa, Habib

AU - Ong, Mingmin

AU - Iwamura, Sahana

AU - Vincent, Dona Mariya

AU - Radha Krishnan, Sabhashina

AU - Ye, Weiying

AU - Yim, Pierre Wing Chi

AU - Khopade, Tushar M.

AU - Chen, Kunihiko

AU - Kong, Pui San

AU - Wang, Lin Fa

AU - Bates, Roderick W.

AU - Kimura, Yasuhisa

AU - Viswanathan, Rajesh

AU - Bond, Peter J.

AU - Itahana, Koji

PY - 2024/12

Y1 - 2024/12

N2 - Chemotherapy-induced drug resistance remains a major cause of cancer recurrence and patient mortality. ATP binding cassette subfamily B member 1 (ABCB1) transporter overexpression in tumors contributes to resistance, yet current ABCB1 inhibitors have been unsuccessful in clinical trials. To address this challenge, we propose a new strategy using tryptophan as a lead molecule for developing ABCB1 inhibitors. Our idea stems from our studies on bat cells, as bats have low cancer incidences and high ABCB1 expression. We hypothesized that potential ABCB1 substrates in bats could act as competitive inhibitors in humans. By molecular simulations of ABCB1-substrate interactions, we generated a benzylated Cyclo-tryptophan (C3N-Dbn-Trp2) that inhibits ABCB1 activity with efficacy comparable to or better than the classical inhibitor, verapamil. C3N-Dbn-Trp2 restored chemotherapy sensitivity in drug-resistant human cancer cells with no adverse effect on cell proliferation. Our unique approach presents a promising lead toward developing effective ABCB1 inhibitors to treat drug-resistant cancers.

AB - Chemotherapy-induced drug resistance remains a major cause of cancer recurrence and patient mortality. ATP binding cassette subfamily B member 1 (ABCB1) transporter overexpression in tumors contributes to resistance, yet current ABCB1 inhibitors have been unsuccessful in clinical trials. To address this challenge, we propose a new strategy using tryptophan as a lead molecule for developing ABCB1 inhibitors. Our idea stems from our studies on bat cells, as bats have low cancer incidences and high ABCB1 expression. We hypothesized that potential ABCB1 substrates in bats could act as competitive inhibitors in humans. By molecular simulations of ABCB1-substrate interactions, we generated a benzylated Cyclo-tryptophan (C3N-Dbn-Trp2) that inhibits ABCB1 activity with efficacy comparable to or better than the classical inhibitor, verapamil. C3N-Dbn-Trp2 restored chemotherapy sensitivity in drug-resistant human cancer cells with no adverse effect on cell proliferation. Our unique approach presents a promising lead toward developing effective ABCB1 inhibitors to treat drug-resistant cancers.

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Exploring bat-inspired cyclic tryptophan diketopiperazines as ABCB1 Inhibitors

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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