Substrate-Dependent Targeting of Eukaryotic Translation Initiation Factor 4A by Pateamine A: Negation of Domain-Linker Regulation of Activity

Woon Kai Low; Yongjun Dang; Shridhar Bhat; Daniel Romo; Jun O. Liu

doi:10.1016/j.chembiol.2007.05.012

Substrate-Dependent Targeting of Eukaryotic Translation Initiation Factor 4A by Pateamine A: Negation of Domain-Linker Regulation of Activity

Woon Kai Low, Yongjun Dang, Shridhar Bhat, Daniel Romo, Jun O. Liu

School of Medicine

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

43 Scopus citations

Abstract

Central to cap-dependent eukaryotic translation initiation is the eIF4F complex, which is composed of the three eukaryotic initiation factors eIF4E, eIF4G, and eIF4A. eIF4A is an RNA-dependent ATPase and an ATP-dependent helicase that unwinds local secondary structure in mRNA to allow binding of the 43S ribosomal complex. The marine natural product pateamine A (PatA) has been demonstrated to inhibit cap-dependent initiation by targeting eIF4A and disrupting its protein-protein interactions while increasing its enzymatic activities. Here we demonstrate that the increased activity is caused by the induction of global conformational changes within eIF4A. Furthermore, binding of PatA is dependent on substrate (RNA and ATP) binding, and the increased activity upon PatA binding is caused by relief of a negative regulatory function of the eIF4A unique domain linker.

Original language	English (US)
Pages (from-to)	715-727
Number of pages	13
Journal	Chemistry and Biology
Volume	14
Issue number	6
DOIs	https://doi.org/10.1016/j.chembiol.2007.05.012
State	Published - Jun 25 2007

Keywords

CHEMBIO
RNA

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmacology
Drug Discovery
Clinical Biochemistry

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10.1016/j.chembiol.2007.05.012

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title = "Substrate-Dependent Targeting of Eukaryotic Translation Initiation Factor 4A by Pateamine A: Negation of Domain-Linker Regulation of Activity",

abstract = "Central to cap-dependent eukaryotic translation initiation is the eIF4F complex, which is composed of the three eukaryotic initiation factors eIF4E, eIF4G, and eIF4A. eIF4A is an RNA-dependent ATPase and an ATP-dependent helicase that unwinds local secondary structure in mRNA to allow binding of the 43S ribosomal complex. The marine natural product pateamine A (PatA) has been demonstrated to inhibit cap-dependent initiation by targeting eIF4A and disrupting its protein-protein interactions while increasing its enzymatic activities. Here we demonstrate that the increased activity is caused by the induction of global conformational changes within eIF4A. Furthermore, binding of PatA is dependent on substrate (RNA and ATP) binding, and the increased activity upon PatA binding is caused by relief of a negative regulatory function of the eIF4A unique domain linker.",

keywords = "CHEMBIO, RNA",

author = "Low, {Woon Kai} and Yongjun Dang and Shridhar Bhat and Daniel Romo and Liu, {Jun O.}",

note = "Funding Information: This work was funded by the National Cancer Institute, the Keck Center, the Flight Attendant Medical Research Institute Fund (J.O.L.), the National Institutes of General Medical Sciences (D.R.), and a Canadian Institutes of Health Research Fellowship (W.-K.L.). The authors would also like to thank Dr. Jon Lorsch for provision of materials and helpful discussions, Dr. Sandra Gabelli for critical reading of the manuscript, and Dr. Jing Xu for assistance with preparation of the manuscript. ",

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T2 - Negation of Domain-Linker Regulation of Activity

AU - Low, Woon Kai

AU - Dang, Yongjun

AU - Bhat, Shridhar

AU - Romo, Daniel

AU - Liu, Jun O.

N1 - Funding Information: This work was funded by the National Cancer Institute, the Keck Center, the Flight Attendant Medical Research Institute Fund (J.O.L.), the National Institutes of General Medical Sciences (D.R.), and a Canadian Institutes of Health Research Fellowship (W.-K.L.). The authors would also like to thank Dr. Jon Lorsch for provision of materials and helpful discussions, Dr. Sandra Gabelli for critical reading of the manuscript, and Dr. Jing Xu for assistance with preparation of the manuscript.

PY - 2007/6/25

Y1 - 2007/6/25

N2 - Central to cap-dependent eukaryotic translation initiation is the eIF4F complex, which is composed of the three eukaryotic initiation factors eIF4E, eIF4G, and eIF4A. eIF4A is an RNA-dependent ATPase and an ATP-dependent helicase that unwinds local secondary structure in mRNA to allow binding of the 43S ribosomal complex. The marine natural product pateamine A (PatA) has been demonstrated to inhibit cap-dependent initiation by targeting eIF4A and disrupting its protein-protein interactions while increasing its enzymatic activities. Here we demonstrate that the increased activity is caused by the induction of global conformational changes within eIF4A. Furthermore, binding of PatA is dependent on substrate (RNA and ATP) binding, and the increased activity upon PatA binding is caused by relief of a negative regulatory function of the eIF4A unique domain linker.

AB - Central to cap-dependent eukaryotic translation initiation is the eIF4F complex, which is composed of the three eukaryotic initiation factors eIF4E, eIF4G, and eIF4A. eIF4A is an RNA-dependent ATPase and an ATP-dependent helicase that unwinds local secondary structure in mRNA to allow binding of the 43S ribosomal complex. The marine natural product pateamine A (PatA) has been demonstrated to inhibit cap-dependent initiation by targeting eIF4A and disrupting its protein-protein interactions while increasing its enzymatic activities. Here we demonstrate that the increased activity is caused by the induction of global conformational changes within eIF4A. Furthermore, binding of PatA is dependent on substrate (RNA and ATP) binding, and the increased activity upon PatA binding is caused by relief of a negative regulatory function of the eIF4A unique domain linker.

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KW - RNA

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Substrate-Dependent Targeting of Eukaryotic Translation Initiation Factor 4A by Pateamine A: Negation of Domain-Linker Regulation of Activity

Abstract

Keywords

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