Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E

Michael J. Osborne; Laurent Volpon; Mina Memarpoor-Yazdi; Shubhadra Pillay; Aksharh Thambipillai; Sylwia Czarnota; Biljana Culjkovic-Kraljacic; Christian Trahan; Marlene Oeffinger; Victoria H. Cowling; Katherine L.B. Borden

doi:10.1016/j.jmb.2022.167451

Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E

Michael J. Osborne, Laurent Volpon, Mina Memarpoor-Yazdi, Shubhadra Pillay, Aksharh Thambipillai, Sylwia Czarnota, Biljana Culjkovic-Kraljacic, Christian Trahan, Marlene Oeffinger, Victoria H. Cowling, Katherine L.B. Borden^*

^*Corresponding author for this work

Pharmacology

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

25 Scopus citations

Abstract

The control of RNA metabolism is an important aspect of molecular biology with wide-ranging impacts on cells. Central to processing of coding RNAs is the addition of the methyl-7 guanosine (m⁷G) “cap” on their 5′ end. The eukaryotic translation initiation factor eIF4E directly binds the m⁷G cap and through this interaction plays key roles in many steps of RNA metabolism including nuclear RNA export and translation. eIF4E also stimulates capping of many transcripts through its ability to drive the production of the enzyme RNMT which methylates the G-cap to form the mature m⁷G cap. Here, we found that eIF4E also physically associated with RNMT in human cells. Moreover, eIF4E directly interacted with RNMT in vitro. eIF4E is only the second protein reported to directly bind the methyltransferase domain of RNMT, the first being its co-factor RAM. We combined high-resolution NMR methods with biochemical studies to define the binding interfaces for the RNMT-eIF4E complex. Further, we found that eIF4E competes for RAM binding to RNMT and conversely, RNMT competes for binding of well-established eIF4E-binding partners such as the 4E-BPs. RNMT uses novel structural means to engage eIF4E. Finally, we observed that m⁷G cap-eIF4E-RNMT trimeric complexes form, and thus RNMT-eIF4E complexes may be employed so that eIF4E captures newly capped RNA. In all, we show for the first time that the cap-binding protein eIF4E directly binds to the cap-maturation enzyme RNMT.

Original language	English (US)
Article number	167451
Journal	Journal of Molecular Biology
Volume	434
Issue number	5
DOIs	https://doi.org/10.1016/j.jmb.2022.167451
State	Published - Mar 15 2022

Funding

KLBB acknowledges funding from NIH RO1 80728, NIH RO1 98571, and holds a Canada Research Chair in Molecular Biology of the Cell Nucleus. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. VHC holds an MRC Senior Fellowship. The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. KLBB acknowledges funding from NIH RO1 80728, NIH RO1 98571, and holds a Canada Research Chair in Molecular Biology of the Cell Nucleus. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. VHC holds an MRC Senior Fellowship.

Keywords

RAM
RNA export
RNA maturation
mG capping
translation

ASJC Scopus subject areas

Biophysics
Structural Biology
Molecular Biology

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10.1016/j.jmb.2022.167451

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Osborne, M. J., Volpon, L., Memarpoor-Yazdi, M., Pillay, S., Thambipillai, A., Czarnota, S., Culjkovic-Kraljacic, B., Trahan, C., Oeffinger, M., Cowling, V. H., & Borden, K. L. B. (2022). Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E. Journal of Molecular Biology, 434(5), Article 167451. https://doi.org/10.1016/j.jmb.2022.167451

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title = "Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E",

abstract = "The control of RNA metabolism is an important aspect of molecular biology with wide-ranging impacts on cells. Central to processing of coding RNAs is the addition of the methyl-7 guanosine (m7G) “cap” on their 5′ end. The eukaryotic translation initiation factor eIF4E directly binds the m7G cap and through this interaction plays key roles in many steps of RNA metabolism including nuclear RNA export and translation. eIF4E also stimulates capping of many transcripts through its ability to drive the production of the enzyme RNMT which methylates the G-cap to form the mature m7G cap. Here, we found that eIF4E also physically associated with RNMT in human cells. Moreover, eIF4E directly interacted with RNMT in vitro. eIF4E is only the second protein reported to directly bind the methyltransferase domain of RNMT, the first being its co-factor RAM. We combined high-resolution NMR methods with biochemical studies to define the binding interfaces for the RNMT-eIF4E complex. Further, we found that eIF4E competes for RAM binding to RNMT and conversely, RNMT competes for binding of well-established eIF4E-binding partners such as the 4E-BPs. RNMT uses novel structural means to engage eIF4E. Finally, we observed that m7G cap-eIF4E-RNMT trimeric complexes form, and thus RNMT-eIF4E complexes may be employed so that eIF4E captures newly capped RNA. In all, we show for the first time that the cap-binding protein eIF4E directly binds to the cap-maturation enzyme RNMT.",

keywords = "RAM, RNA export, RNA maturation, mG capping, translation",

author = "Osborne, {Michael J.} and Laurent Volpon and Mina Memarpoor-Yazdi and Shubhadra Pillay and Aksharh Thambipillai and Sylwia Czarnota and Biljana Culjkovic-Kraljacic and Christian Trahan and Marlene Oeffinger and Cowling, {Victoria H.} and Borden, {Katherine L.B.}",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

year = "2022",

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doi = "10.1016/j.jmb.2022.167451",

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Osborne, MJ, Volpon, L, Memarpoor-Yazdi, M, Pillay, S, Thambipillai, A, Czarnota, S, Culjkovic-Kraljacic, B, Trahan, C, Oeffinger, M, Cowling, VH & Borden, KLB 2022, 'Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E', Journal of Molecular Biology, vol. 434, no. 5, 167451. https://doi.org/10.1016/j.jmb.2022.167451

TY - JOUR

T1 - Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E

AU - Osborne, Michael J.

AU - Volpon, Laurent

AU - Memarpoor-Yazdi, Mina

AU - Pillay, Shubhadra

AU - Thambipillai, Aksharh

AU - Czarnota, Sylwia

AU - Culjkovic-Kraljacic, Biljana

AU - Trahan, Christian

AU - Oeffinger, Marlene

AU - Cowling, Victoria H.

AU - Borden, Katherine L.B.

PY - 2022/3/15

Y1 - 2022/3/15

N2 - The control of RNA metabolism is an important aspect of molecular biology with wide-ranging impacts on cells. Central to processing of coding RNAs is the addition of the methyl-7 guanosine (m7G) “cap” on their 5′ end. The eukaryotic translation initiation factor eIF4E directly binds the m7G cap and through this interaction plays key roles in many steps of RNA metabolism including nuclear RNA export and translation. eIF4E also stimulates capping of many transcripts through its ability to drive the production of the enzyme RNMT which methylates the G-cap to form the mature m7G cap. Here, we found that eIF4E also physically associated with RNMT in human cells. Moreover, eIF4E directly interacted with RNMT in vitro. eIF4E is only the second protein reported to directly bind the methyltransferase domain of RNMT, the first being its co-factor RAM. We combined high-resolution NMR methods with biochemical studies to define the binding interfaces for the RNMT-eIF4E complex. Further, we found that eIF4E competes for RAM binding to RNMT and conversely, RNMT competes for binding of well-established eIF4E-binding partners such as the 4E-BPs. RNMT uses novel structural means to engage eIF4E. Finally, we observed that m7G cap-eIF4E-RNMT trimeric complexes form, and thus RNMT-eIF4E complexes may be employed so that eIF4E captures newly capped RNA. In all, we show for the first time that the cap-binding protein eIF4E directly binds to the cap-maturation enzyme RNMT.

AB - The control of RNA metabolism is an important aspect of molecular biology with wide-ranging impacts on cells. Central to processing of coding RNAs is the addition of the methyl-7 guanosine (m7G) “cap” on their 5′ end. The eukaryotic translation initiation factor eIF4E directly binds the m7G cap and through this interaction plays key roles in many steps of RNA metabolism including nuclear RNA export and translation. eIF4E also stimulates capping of many transcripts through its ability to drive the production of the enzyme RNMT which methylates the G-cap to form the mature m7G cap. Here, we found that eIF4E also physically associated with RNMT in human cells. Moreover, eIF4E directly interacted with RNMT in vitro. eIF4E is only the second protein reported to directly bind the methyltransferase domain of RNMT, the first being its co-factor RAM. We combined high-resolution NMR methods with biochemical studies to define the binding interfaces for the RNMT-eIF4E complex. Further, we found that eIF4E competes for RAM binding to RNMT and conversely, RNMT competes for binding of well-established eIF4E-binding partners such as the 4E-BPs. RNMT uses novel structural means to engage eIF4E. Finally, we observed that m7G cap-eIF4E-RNMT trimeric complexes form, and thus RNMT-eIF4E complexes may be employed so that eIF4E captures newly capped RNA. In all, we show for the first time that the cap-binding protein eIF4E directly binds to the cap-maturation enzyme RNMT.

KW - RAM

KW - RNA export

KW - RNA maturation

KW - mG capping

KW - translation

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AN - SCOPUS:85123368203

SN - 0022-2836

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JO - Journal of Molecular Biology

JF - Journal of Molecular Biology

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ER -

Identification and Characterization of the Interaction Between the Methyl-7-Guanosine Cap Maturation Enzyme RNMT and the Cap-Binding Protein eIF4E

Abstract

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