IMP1 KH1 and KH2 domains create a structural platform with unique RNA recognition and re-modelling properties

Robert Dagil; Neil J. Ball; Roksana W. Ogrodowicz; Fruzsina Hobor; Andrew G. Purkiss; Geoff Kelly; Stephen R. Martin; Ian A. Taylor; Andres Ramos

doi:10.1093/nar/gkz136

IMP1 KH1 and KH2 domains create a structural platform with unique RNA recognition and re-modelling properties

Robert Dagil, Neil J. Ball, Roksana W. Ogrodowicz, Fruzsina Hobor, Andrew G. Purkiss, Geoff Kelly, Stephen R. Martin, Ian A. Taylor, Andres Ramos^*

^*Corresponding author af dette arbejde

VAR2CSA team

3 Citationer (Scopus)

6 Downloads (Pure)

Abstract

IGF2 mRNA-binding protein 1 (IMP1) is a key regulator of messenger RNA (mRNA) metabolism and transport in organismal development and, in cancer, its mis-regulation is an important component of tumour metastasis. IMP1 function relies on the recognition of a diverse set of mRNA targets that is mediated by the combinatorial action of multiple RNAbinding domains. Here, we dissect the structure and RNA-binding properties of two key RNA-binding domains of IMP1, KH1 and KH2, and we build a kinetic model for the recognition of RNA targets. Our data and model explain how the two domains are organized as an intermolecular pseudo-dimer and that the important role they play in mRNA target recognition is underpinned by the high RNA-binding affinity and fast kinetics of this KH1KH2-RNA recognition unit. Importantly, the high-affinity RNA-binding by KH1KH2 is achieved by an inter-domain coupling 50- fold stronger than that existing in a second pseudodimer in the protein, KH3KH4. The presence of this strong coupling supports a role of RNA re-modelling in IMP1 recognition of known cancer targets.

Originalsprog	Engelsk
Tidsskrift	Nucleic Acids Research
Vol/bind	47
Udgave nummer	8
Sider (fra-til)	4334-4348
Antal sider	15
ISSN	0305-1048
DOI	https://doi.org/10.1093/nar/gkz136
Status	Udgivet - 7 maj 2019

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10.1093/nar/gkz136Licens: CC BY

IMP1 KH1 and KH2 domains create a structural platform with unique RNA recognition and re-modelling propertiesForlagets udgivne version, 5,01 MBLicens: CC BY

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title = "IMP1 KH1 and KH2 domains create a structural platform with unique RNA recognition and re-modelling properties",

abstract = "IGF2 mRNA-binding protein 1 (IMP1) is a key regulator of messenger RNA (mRNA) metabolism and transport in organismal development and, in cancer, its mis-regulation is an important component of tumour metastasis. IMP1 function relies on the recognition of a diverse set of mRNA targets that is mediated by the combinatorial action of multiple RNAbinding domains. Here, we dissect the structure and RNA-binding properties of two key RNA-binding domains of IMP1, KH1 and KH2, and we build a kinetic model for the recognition of RNA targets. Our data and model explain how the two domains are organized as an intermolecular pseudo-dimer and that the important role they play in mRNA target recognition is underpinned by the high RNA-binding affinity and fast kinetics of this KH1KH2-RNA recognition unit. Importantly, the high-affinity RNA-binding by KH1KH2 is achieved by an inter-domain coupling 50- fold stronger than that existing in a second pseudodimer in the protein, KH3KH4. The presence of this strong coupling supports a role of RNA re-modelling in IMP1 recognition of known cancer targets.",

author = "Robert Dagil and Ball, {Neil J.} and Ogrodowicz, {Roksana W.} and Fruzsina Hobor and Purkiss, {Andrew G.} and Geoff Kelly and Martin, {Stephen R.} and Taylor, {Ian A.} and Andres Ramos",

year = "2019",

month = may,

day = "7",

doi = "10.1093/nar/gkz136",

language = "English",

volume = "47",

pages = "4334--4348",

journal = "Nucleic Acids Research",

issn = "0305-1048",

publisher = "Oxford University Press",

number = "8",

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TY - JOUR

T1 - IMP1 KH1 and KH2 domains create a structural platform with unique RNA recognition and re-modelling properties

AU - Dagil, Robert

AU - Ball, Neil J.

AU - Ogrodowicz, Roksana W.

AU - Hobor, Fruzsina

AU - Purkiss, Andrew G.

AU - Kelly, Geoff

AU - Martin, Stephen R.

AU - Taylor, Ian A.

AU - Ramos, Andres

PY - 2019/5/7

Y1 - 2019/5/7

N2 - IGF2 mRNA-binding protein 1 (IMP1) is a key regulator of messenger RNA (mRNA) metabolism and transport in organismal development and, in cancer, its mis-regulation is an important component of tumour metastasis. IMP1 function relies on the recognition of a diverse set of mRNA targets that is mediated by the combinatorial action of multiple RNAbinding domains. Here, we dissect the structure and RNA-binding properties of two key RNA-binding domains of IMP1, KH1 and KH2, and we build a kinetic model for the recognition of RNA targets. Our data and model explain how the two domains are organized as an intermolecular pseudo-dimer and that the important role they play in mRNA target recognition is underpinned by the high RNA-binding affinity and fast kinetics of this KH1KH2-RNA recognition unit. Importantly, the high-affinity RNA-binding by KH1KH2 is achieved by an inter-domain coupling 50- fold stronger than that existing in a second pseudodimer in the protein, KH3KH4. The presence of this strong coupling supports a role of RNA re-modelling in IMP1 recognition of known cancer targets.

AB - IGF2 mRNA-binding protein 1 (IMP1) is a key regulator of messenger RNA (mRNA) metabolism and transport in organismal development and, in cancer, its mis-regulation is an important component of tumour metastasis. IMP1 function relies on the recognition of a diverse set of mRNA targets that is mediated by the combinatorial action of multiple RNAbinding domains. Here, we dissect the structure and RNA-binding properties of two key RNA-binding domains of IMP1, KH1 and KH2, and we build a kinetic model for the recognition of RNA targets. Our data and model explain how the two domains are organized as an intermolecular pseudo-dimer and that the important role they play in mRNA target recognition is underpinned by the high RNA-binding affinity and fast kinetics of this KH1KH2-RNA recognition unit. Importantly, the high-affinity RNA-binding by KH1KH2 is achieved by an inter-domain coupling 50- fold stronger than that existing in a second pseudodimer in the protein, KH3KH4. The presence of this strong coupling supports a role of RNA re-modelling in IMP1 recognition of known cancer targets.

U2 - 10.1093/nar/gkz136

DO - 10.1093/nar/gkz136

M3 - Journal article

C2 - 30864660

AN - SCOPUS:85068537450

SN - 0305-1048

VL - 47

SP - 4334

EP - 4348

JO - Nucleic Acids Research

JF - Nucleic Acids Research

IS - 8

ER -

IMP1 KH1 and KH2 domains create a structural platform with unique RNA recognition and re-modelling properties

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