Mechanism of dual specificity kinase activity of <scp>DYRK</scp>1<scp>A</scp>

Walte, Agnes; Rüben, Katharina; Birner‐Gruenberger, Ruth; Preisinger, Christian; Bamberg-Lemper, Simone; Hilz, Nikolaus; Bracher, Franz; Becker, Walter

doi:10.1111/febs.12411

Cited by 56 publications

(67 citation statements)

References 49 publications

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“…DYRK1A belongs to dual specificity tyrosine (Y) phosphorylation regulated kinase (DYRK) family which is known to be activated through autophosphorylation of tyrosine residues in the activation loop and phosphorylates their substrates on serine and threonine residues9. Other members of this family include DYRK1B, DYRK2, DYRK3, DYRK4A and DYRK4B.…”

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confidence: 99%

A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma

Radhakrishnan

Nanjappa

Raja

et al. 2016

Sci Rep

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Despite advances in clinical management, 5-year survival rate in patients with late-stage head and neck squamous cell carcinoma (HNSCC) has not improved significantly over the past decade. Targeted therapies have emerged as one of the most promising approaches to treat several malignancies. Though tyrosine phosphorylation accounts for a minority of total phosphorylation, it is critical for activation of signaling pathways and plays a significant role in driving cancers. To identify activated tyrosine kinase signaling pathways in HNSCC, we compared the phosphotyrosine profiles of a panel of HNSCC cell lines to a normal oral keratinocyte cell line. Dual-specificity tyrosine-(Y)-phosphorylation regulated kinase 1A (DYRK1A) was one of the kinases hyperphosphorylated at Tyr-321 in all HNSCC cell lines. Inhibition of DYRK1A resulted in an increased apoptosis and decrease in invasion and colony formation ability of HNSCC cell lines. Further, administration of the small molecular inhibitor against DYRK1A in mice bearing HNSCC xenograft tumors induced regression of tumor growth. Immunohistochemical labeling of DYRK1A in primary tumor tissues using tissue microarrays revealed strong to moderate staining of DYRK1A in 97.5% (39/40) of HNSCC tissues analyzed. Taken together our results suggest that DYRK1A could be a novel therapeutic target in HNSCC.

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confidence: 99%

A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma

Radhakrishnan

Nanjappa

Raja

et al. 2016

Sci Rep

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“…Kinases of the DYRK family attain their active conformation by one-time, irreversible tyrosine autophosphorylation immediately after translation 2, 3, 26 . Thus, the reduced phosphorylation of DYRK1B-H90P and R102C reflects the impaired maturation of the mutant proteins.…”

Section: Discussionmentioning

confidence: 99%

DYRK1B mutations associated with metabolic syndrome impair the chaperone-dependent maturation of the kinase domain

Jhaisha

Widowati

Kii³

et al. 2017

Sci Rep

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Two missense mutations of the DYRK1B gene have recently been found to co-segregate with a rare autosomal-dominant form of metabolic syndrome. This gene encodes a member of the DYRK family of protein kinases, which depend on tyrosine autophosphorylation to acquire the catalytically active conformation. The mutations (H90P and R102C) affect a structural element named DYRK homology (DH) box and did not directly interfere with the conformation of the catalytic domain in a structural model of DYRK1B. Cellular assays showed that the mutations did not alter the specific activity of mature kinase molecules. However, a significant part of the mutant DYRK1B protein accumulated in detergent-insoluble cytoplasmic aggregates and was underphosphorylated on tyrosine. The mutant DYRK1B variants were more vulnerable to the HSP90 inhibitor ganetespib and showed enhanced binding to the co-chaperone CDC37 as compared to wild type DYRK1B. These results support the hypothesis that the mutations in the DH box interfere with the maturation of DYRK1B by tyrosine autophosphorylation and compromise the conformational stability of the catalytic domain, which renders the kinase susceptible to misfolding.

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“…In the case of the DYRK1 family of kinases, the Drosophila enzyme is activated by an extension of the kinase domain, and it has been proposed that this reaction occurs cotranslationally (18). While this reaction appears to require a transitional intermediate form of the enzyme that exists during translation, this has been reported not to be the case for DYRK1A from mammals (34). In the case of GSK3␤, phosphorylation of the activation loop Y occurs shortly after translation and requires the Hsp90 chaperone (19).…”

Section: Discussionmentioning

confidence: 99%

Ssp2 Binding Activates the Smk1 Mitogen-Activated Protein Kinase

Tio

Omerza

Phillips

et al. 2017

Molecular and Cellular Biology

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Smk1 is a meiosis-specific mitogen-activated protein kinase (MAPK) in Saccharomyces cerevisiae that couples spore morphogenesis to the completion of chromosome segregation. Similar to other MAPKs, Smk1 is controlled by phosphorylation of a threonine (T) and a tyrosine (Y) in its activation loop. However, it is not activated by a dual-specificity MAPK kinase. Instead, T207 in Smk1's activation loop is phosphorylated by the cyclin-dependent kinase (CDK)-activating kinase (Cak1), and Y209 is autophosphorylated in an intramolecular reaction that requires the meiosis-specific protein Ssp2. In this study, we show that Smk1 is catalytically inert unless it is bound by Ssp2. While Ssp2 binding activates Smk1 by a mechanism that is independent of activation loop phosphorylation, binding also triggers autophosphorylation of Y209 in Smk1, which, along with Cak1-mediated phosphorylation of T207, further activates the kinase. Autophosphorylation of Smk1 on Y209 also appears to modify the specificity of the MAPK by suppressing Y kinase and enhancing S/T kinase activity. We also found that the phosphoconsensus motif preference of Ssp2/Smk1 is more extensive than that of other characterized MAPKs. This study therefore defines a novel mechanism of MAPK activation requiring binding of an activator and also shows that MAPKs can be diversified to recognize unique phosphorylation motifs.

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Mechanism of dual specificity kinase activity of DYRK1A

Cited by 56 publications

References 49 publications

A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma

A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma

DYRK1B mutations associated with metabolic syndrome impair the chaperone-dependent maturation of the kinase domain

Ssp2 Binding Activates the Smk1 Mitogen-Activated Protein Kinase

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