Shinya Matsuda scite author profile

Membrane-bound cGMP-dependent protein kinase (PKG) II is a key regulator of bone growth, renin secretion, and memory formation. Despite its crucial physiological roles, little is known about its cyclic nucleotide selectivity mechanism due to a lack of structural information. Here, we find that the C-terminal cyclic nucleotide binding (CNB-B) domain of PKG II binds cGMP with higher affinity and selectivity when compared with its N-terminal CNB (CNB-A) domain. To understand the structural basis of cGMP selectivity, we solved co-crystal structures of the CNB domains with cyclic nucleotides. Our structures combined with mutagenesis demonstrate that the guanine-specific contacts at Asp-412 and Arg-415 of the ␣C-helix of CNB-B are crucial for cGMP selectivity and activation of PKG II. Structural comparison with the cGMP selective CNB domains of human PKG I and Plasmodium falciparum PKG (PfPKG) shows different contacts with the guanine moiety, revealing a unique cGMP selectivity mechanism for PKG II.

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PCTAIRE Kinase 3/Cyclin-dependent Kinase 18 Is Activated through Association with Cyclin A and/or Phosphorylation by Protein Kinase A

Matsuda

Kominato

Koide-Yoshida

et al. 2014

Journal of Biological Chemistry

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Background: PCTK3 is an uncharacterized serine/threonine kinase that belongs to the cyclin-dependent kinase family. Results: The activity of PCTK3 is increased via interaction with cyclin A2 and phosphorylation by PKA. PCTK3 knockdown induces actin polymerization. Conclusion: PCTK3 is activated by cyclin A2 and PKA and is involved in actin dynamics. Significance: This study provides clues to the physiological function of PCTK3.

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Suppression of death-associated protein kinase 2 by interaction with 14-3-3 proteins

Yuasa

Ota

Matsuda

et al. 2015

Biochemical and Biophysical Research Communications

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cGMP-dependent protein kinase I promotes cell apoptosis through hyperactivation of death-associated protein kinase 2

Isshiki

Matsuda

Tsuji

et al. 2012

Biochemical and Biophysical Research Communications

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PCTK3/CDK18 regulates cell migration and adhesion by negatively modulating FAK activity

Matsuda

Kawamoto

Miyamoto

et al. 2017

Sci Rep

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PCTAIRE kinase 3 (PCTK3) is a member of the cyclin dependent kinase family, but its physiological function remains unknown. We previously reported that PCTK3-knockdown HEK293T cells showed actin accumulation at the leading edge, suggesting that PCTK3 is involved in the regulation of actin reorganization. In this study, we investigated the physiological function and downstream signal transduction molecules of PCTK3. PCTK3 knockdown in HEK293T cells increased cell motility and RhoA/Rho-associated kinase activity as compared with control cells. We also found that phosphorylation at residue Tyr-397 in focal adhesion kinase (FAK) was increased in PCTK3-knockdown cells. FAK phosphorylation at Tyr-397 was increased in response to fibronectin stimulation, whereas its phosphorylation was suppressed by PCTK3. In addition, excessive expression of PCTK3 led to the formation of filopodia during the early stages of cell adhesion in HeLa cells. These results indicate that PCTK3 controls actin cytoskeleton dynamics by negatively regulating the FAK/Rho signaling pathway.

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Shinya Matsuda

Structural Basis of Cyclic Nucleotide Selectivity in cGMP-dependent Protein Kinase II

PCTAIRE Kinase 3/Cyclin-dependent Kinase 18 Is Activated through Association with Cyclin A and/or Phosphorylation by Protein Kinase A

Suppression of death-associated protein kinase 2 by interaction with 14-3-3 proteins

cGMP-dependent protein kinase I promotes cell apoptosis through hyperactivation of death-associated protein kinase 2

PCTK3/CDK18 regulates cell migration and adhesion by negatively modulating FAK activity

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