Structures of down syndrome kinases, DYRKs, reveal mechanisms of kinase activation and substrate recognition

M. Soundararajan; A.K. Roos; P. Savitsky; P. Filippakopoulos; A.N. Kettenbach; J.V. Olsen; Sophie Gerber; J. Eswaran; S. Knapp; J.M. Elkins

doi:10.1016/j.str.2013.03.012

Structures of down syndrome kinases, DYRKs, reveal mechanisms of kinase activation and substrate recognition

M. Soundararajan, A.K. Roos, P. Savitsky, P. Filippakopoulos, A.N. Kettenbach, J.V. Olsen, Sophie Gerber, J. Eswaran, S. Knapp, J.M. Elkins

The NNF Center for Protein Research

77 Citationer (Scopus)

Abstract

Dual-specificity tyrosine-(Y)-phosphorylation-regulated kinases (DYRKs) play key roles in brain development, regulation of splicing, and apoptosis, and are potential drug targets for neurodegenerative diseases and cancer. We present crystal structures of one representative member of each DYRK subfamily: DYRK1A with an ATP-mimetic inhibitor and consensus peptide, and DYRK2 including NAPA and DH (DYRK homology) box regions. The current activation model suggests that DYRKs are Ser/Thr kinases that only autophosphorylate the second tyrosine of the activation loop YxY motif during protein translation. The structures explain the roles of this tyrosine and of the DH box in DYRK activation and provide a structural model for DYRK substrate recognition. Phosphorylation of a library of naturally occurring peptides identified substrate motifs that lack proline in the P+1 position, suggesting that DYRK1A is not a strictly proline-directed kinase. Our data also show that DYRK1A wild-type and Y321F mutant retain tyrosine autophosphorylation activity.

Originalsprog	Engelsk
Tidsskrift	Structure
Vol/bind	21
Udgave nummer	6
Sider (fra-til)	986-996
Antal sider	11
ISSN	0969-2126
DOI	https://doi.org/10.1016/j.str.2013.03.012
Status	Udgivet - 4 jun. 2013

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title = "Structures of down syndrome kinases, DYRKs, reveal mechanisms of kinase activation and substrate recognition",

abstract = "Dual-specificity tyrosine-(Y)-phosphorylation-regulated kinases (DYRKs) play key roles in brain development, regulation of splicing, and apoptosis, and are potential drug targets for neurodegenerative diseases and cancer. We present crystal structures of one representative member of each DYRK subfamily: DYRK1A with an ATP-mimetic inhibitor and consensus peptide, and DYRK2 including NAPA and DH (DYRK homology) box regions. The current activation model suggests that DYRKs are Ser/Thr kinases that only autophosphorylate the second tyrosine of the activation loop YxY motif during protein translation. The structures explain the roles of this tyrosine and of the DH box in DYRK activation and provide a structural model for DYRK substrate recognition. Phosphorylation of a library of naturally occurring peptides identified substrate motifs that lack proline in the P+1 position, suggesting that DYRK1A is not a strictly proline-directed kinase. Our data also show that DYRK1A wild-type and Y321F mutant retain tyrosine autophosphorylation activity.",

author = "M. Soundararajan and A.K. Roos and P. Savitsky and P. Filippakopoulos and A.N. Kettenbach and J.V. Olsen and Sophie Gerber and J. Eswaran and S. Knapp and J.M. Elkins",

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T1 - Structures of down syndrome kinases, DYRKs, reveal mechanisms of kinase activation and substrate recognition

AU - Soundararajan, M.

AU - Roos, A.K.

AU - Savitsky, P.

AU - Filippakopoulos, P.

AU - Kettenbach, A.N.

AU - Olsen, J.V.

AU - Gerber, Sophie

AU - Eswaran, J.

AU - Knapp, S.

AU - Elkins, J.M.

PY - 2013/6/4

Y1 - 2013/6/4

N2 - Dual-specificity tyrosine-(Y)-phosphorylation-regulated kinases (DYRKs) play key roles in brain development, regulation of splicing, and apoptosis, and are potential drug targets for neurodegenerative diseases and cancer. We present crystal structures of one representative member of each DYRK subfamily: DYRK1A with an ATP-mimetic inhibitor and consensus peptide, and DYRK2 including NAPA and DH (DYRK homology) box regions. The current activation model suggests that DYRKs are Ser/Thr kinases that only autophosphorylate the second tyrosine of the activation loop YxY motif during protein translation. The structures explain the roles of this tyrosine and of the DH box in DYRK activation and provide a structural model for DYRK substrate recognition. Phosphorylation of a library of naturally occurring peptides identified substrate motifs that lack proline in the P+1 position, suggesting that DYRK1A is not a strictly proline-directed kinase. Our data also show that DYRK1A wild-type and Y321F mutant retain tyrosine autophosphorylation activity.

AB - Dual-specificity tyrosine-(Y)-phosphorylation-regulated kinases (DYRKs) play key roles in brain development, regulation of splicing, and apoptosis, and are potential drug targets for neurodegenerative diseases and cancer. We present crystal structures of one representative member of each DYRK subfamily: DYRK1A with an ATP-mimetic inhibitor and consensus peptide, and DYRK2 including NAPA and DH (DYRK homology) box regions. The current activation model suggests that DYRKs are Ser/Thr kinases that only autophosphorylate the second tyrosine of the activation loop YxY motif during protein translation. The structures explain the roles of this tyrosine and of the DH box in DYRK activation and provide a structural model for DYRK substrate recognition. Phosphorylation of a library of naturally occurring peptides identified substrate motifs that lack proline in the P+1 position, suggesting that DYRK1A is not a strictly proline-directed kinase. Our data also show that DYRK1A wild-type and Y321F mutant retain tyrosine autophosphorylation activity.

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U2 - 10.1016/j.str.2013.03.012

DO - 10.1016/j.str.2013.03.012

M3 - Journal article

C2 - 23665168

AN - SCOPUS:84878851513

SN - 0969-2126

VL - 21

SP - 986

EP - 996

JO - Structure

JF - Structure

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ER -

Structures of down syndrome kinases, DYRKs, reveal mechanisms of kinase activation and substrate recognition

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