An alkaloid initiates phosphodiesterase 3A–schlafen 12 dependent apoptosis without affecting the phosphodiesterase activity

Youwei Ai; Haibing He; Peihao Chen; Bo Yan; Wenbin Zhang; Zhangcheng Ding; Dianrong Li; Jie Chen; Yan Ma; Yang Cao; Jie Zhu; Jiaojiao Li; Jinjie Ou; Shan Du; Xiaodong Wang; Jianzhang Ma; Shuanhu Gao; Xiangbing Qi

doi:10.1038/s41467-020-17052-4

An alkaloid initiates phosphodiesterase 3A–schlafen 12 dependent apoptosis without affecting the phosphodiesterase activity

Youwei Ai^*
, Haibing He
, Peihao Chen
, Bo Yan
, Wenbin Zhang
, Zhangcheng Ding
, Dianrong Li
, Jie Chen
, Yan Ma
, Yang Cao
, Jie Zhu
, Jiaojiao Li
, Jinjie Ou
, Shan Du
, Xiaodong Wang
, Jianzhang Ma^*
, Shuanhu Gao^*
, Xiangbing Qi^*

^*Corresponding author for this work

School of Chemistry and Molecular Engineering

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

33 Scopus citations

Abstract

The promotion of apoptosis in tumor cells is a popular strategy for developing anti-cancer drugs. Here, we demonstrate that the plant indole alkaloid natural product nauclefine induces apoptosis of diverse cancer cells via a PDE3A-SLFN12 dependent death pathway. Nauclefine binds PDE3A but does not inhibit the PDE3A’s phosphodiesterase activity, thus representing a previously unknown type of PDE3A modulator that can initiate apoptosis without affecting PDE3A’s canonical function. We demonstrate that PDE3A’s H840, Q975, Q1001, and F1004 residues—as well as I105 in SLFN12—are essential for nauclefine-induced PDE3A-SLFN12 interaction and cell death. Extending these molecular insights, we show in vivo that nauclefine inhibits tumor xenograft growth, doing so in a PDE3A- and SLFN12-dependent manner. Thus, beyond demonstrating potent cytotoxic effects of an alkaloid natural product, our study illustrates a potentially side-effect-reducing strategy for targeting PDE3A for anti-cancer therapeutics without affecting its phosphodiesterase activity.

Original language	English
Article number	3236
Journal	Nature Communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-17052-4
State	Published - 1 Dec 2020

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Ai, Y., He, H., Chen, P., Yan, B., Zhang, W., Ding, Z., Li, D., Chen, J., Ma, Y., Cao, Y., Zhu, J., Li, J., Ou, J., Du, S., Wang, X., Ma, J., Gao, S., & Qi, X. (2020). An alkaloid initiates phosphodiesterase 3A–schlafen 12 dependent apoptosis without affecting the phosphodiesterase activity. Nature Communications, 11(1), Article 3236. https://doi.org/10.1038/s41467-020-17052-4

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title = "An alkaloid initiates phosphodiesterase 3A–schlafen 12 dependent apoptosis without affecting the phosphodiesterase activity",

abstract = "The promotion of apoptosis in tumor cells is a popular strategy for developing anti-cancer drugs. Here, we demonstrate that the plant indole alkaloid natural product nauclefine induces apoptosis of diverse cancer cells via a PDE3A-SLFN12 dependent death pathway. Nauclefine binds PDE3A but does not inhibit the PDE3A{\textquoteright}s phosphodiesterase activity, thus representing a previously unknown type of PDE3A modulator that can initiate apoptosis without affecting PDE3A{\textquoteright}s canonical function. We demonstrate that PDE3A{\textquoteright}s H840, Q975, Q1001, and F1004 residues—as well as I105 in SLFN12—are essential for nauclefine-induced PDE3A-SLFN12 interaction and cell death. Extending these molecular insights, we show in vivo that nauclefine inhibits tumor xenograft growth, doing so in a PDE3A- and SLFN12-dependent manner. Thus, beyond demonstrating potent cytotoxic effects of an alkaloid natural product, our study illustrates a potentially side-effect-reducing strategy for targeting PDE3A for anti-cancer therapeutics without affecting its phosphodiesterase activity.",

author = "Youwei Ai and Haibing He and Peihao Chen and Bo Yan and Wenbin Zhang and Zhangcheng Ding and Dianrong Li and Jie Chen and Yan Ma and Yang Cao and Jie Zhu and Jiaojiao Li and Jinjie Ou and Shan Du and Xiaodong Wang and Jianzhang Ma and Shuanhu Gao and Xiangbing Qi",

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T1 - An alkaloid initiates phosphodiesterase 3A–schlafen 12 dependent apoptosis without affecting the phosphodiesterase activity

AU - Ai, Youwei

AU - He, Haibing

AU - Chen, Peihao

AU - Yan, Bo

AU - Zhang, Wenbin

AU - Ding, Zhangcheng

AU - Li, Dianrong

AU - Chen, Jie

AU - Ma, Yan

AU - Cao, Yang

AU - Zhu, Jie

AU - Li, Jiaojiao

AU - Ou, Jinjie

AU - Du, Shan

AU - Wang, Xiaodong

AU - Ma, Jianzhang

AU - Gao, Shuanhu

AU - Qi, Xiangbing

PY - 2020/12/1

Y1 - 2020/12/1

N2 - The promotion of apoptosis in tumor cells is a popular strategy for developing anti-cancer drugs. Here, we demonstrate that the plant indole alkaloid natural product nauclefine induces apoptosis of diverse cancer cells via a PDE3A-SLFN12 dependent death pathway. Nauclefine binds PDE3A but does not inhibit the PDE3A’s phosphodiesterase activity, thus representing a previously unknown type of PDE3A modulator that can initiate apoptosis without affecting PDE3A’s canonical function. We demonstrate that PDE3A’s H840, Q975, Q1001, and F1004 residues—as well as I105 in SLFN12—are essential for nauclefine-induced PDE3A-SLFN12 interaction and cell death. Extending these molecular insights, we show in vivo that nauclefine inhibits tumor xenograft growth, doing so in a PDE3A- and SLFN12-dependent manner. Thus, beyond demonstrating potent cytotoxic effects of an alkaloid natural product, our study illustrates a potentially side-effect-reducing strategy for targeting PDE3A for anti-cancer therapeutics without affecting its phosphodiesterase activity.

AB - The promotion of apoptosis in tumor cells is a popular strategy for developing anti-cancer drugs. Here, we demonstrate that the plant indole alkaloid natural product nauclefine induces apoptosis of diverse cancer cells via a PDE3A-SLFN12 dependent death pathway. Nauclefine binds PDE3A but does not inhibit the PDE3A’s phosphodiesterase activity, thus representing a previously unknown type of PDE3A modulator that can initiate apoptosis without affecting PDE3A’s canonical function. We demonstrate that PDE3A’s H840, Q975, Q1001, and F1004 residues—as well as I105 in SLFN12—are essential for nauclefine-induced PDE3A-SLFN12 interaction and cell death. Extending these molecular insights, we show in vivo that nauclefine inhibits tumor xenograft growth, doing so in a PDE3A- and SLFN12-dependent manner. Thus, beyond demonstrating potent cytotoxic effects of an alkaloid natural product, our study illustrates a potentially side-effect-reducing strategy for targeting PDE3A for anti-cancer therapeutics without affecting its phosphodiesterase activity.

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DO - 10.1038/s41467-020-17052-4

M3 - 文章

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AN - SCOPUS:85086852602

SN - 2041-1723

VL - 11

JO - Nature Communications

JF - Nature Communications

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An alkaloid initiates phosphodiesterase 3A–schlafen 12 dependent apoptosis without affecting the phosphodiesterase activity

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