Kinetic Mechanism of Activation of the Cdk2/Cyclin A Complex

Eukaryotic cell cycle progression is controlled by the ordered action of cyclin-dependent kinases, activation of which occurs through the binding of the cyclin to the Cdk followed by phosphorylation of a conserved threonine in the T-loop of the Cdk by Cdk-activating kinase (CAK). Despite our understanding of the structural changes, which occur upon Cdk/cyclin formation and activation, little is known about the dynamics of the molecular events involved. We have characterized the mechanism of Cdk2/cyclin A complex formation and activation at the molecular and dynamic level by rapid kinetics and demonstrate here that it is a two-step process. The first step involves the rapid association between the PSTAIRE helix of Cdk2 and helices 3 and 5 of the cyclin to yield an intermediate complex in which the threonine in the T-loop is not accessible for phosphorylation. Additional contacts between the C-lobe of the Cdk and the N-terminal helix of the cyclin then induce the isomerization of the Cdk into a fully mature form by promoting the exposure of the T-loop for phosphorylation by CAK and the formation of the substrate binding site. This conformational change is selective for the cyclin partner.

[1]  John A Tainer,et al.  Crystal Structure and Mutational Analysis of the Human CDK2 Kinase Complex with Cell Cycle–Regulatory Protein CksHs1 , 1996, Cell.

[2]  D O Morgan,et al.  Cyclin-dependent kinases: engines, clocks, and microprocessors. , 1997, Annual review of cell and developmental biology.

[3]  N. Pavletich Mechanisms of cyclin-dependent kinase regulation: structures of Cdks, their cyclin activators, and Cip and INK4 inhibitors. , 1999, Journal of molecular biology.

[4]  D. Fesquet,et al.  Interactions of cyclins with cyclin-dependent kinases: a common interactive mechanism. , 1997, Biochemistry.

[5]  M. Funakoshi,et al.  The N-terminal Helix of Xenopus Cyclins A and B Contributes to Binding Specificity of the Cyclin-CDK Complex* , 2001, The Journal of Biological Chemistry.

[6]  N. Pavletich,et al.  Structural basis of inhibition of CDK-cyclin complexes by INK4 inhibitors. , 2000, Genes & development.

[7]  L. Johnson,et al.  Effects of Phosphorylation of Threonine 160 on Cyclin-dependent Kinase 2 Structure and Activity* , 1999, The Journal of Biological Chemistry.

[8]  G. Faye,et al.  Civ1 (CAK In Vivo), a Novel Cdk-Activating Kinase , 1996, Cell.

[9]  S. Reed,et al.  Sequence analysis of temperature-sensitive mutations in the Saccharomyces cerevisiae gene CDC28 , 1986, Molecular and cellular biology.

[10]  M. Morris,et al.  Kinetics of dimerization and interactions of p13suc1 with cyclin-dependent kinases. , 1998, Biochemistry.

[11]  L. Johnson,et al.  Mutational analysis supports a structural model for the cell cycle protein kinase p34. , 1994, Protein engineering.

[12]  Philip D. Jeffrey,et al.  Crystal structure of the p27Kip1 cyclin-dependent-kinase inibitor bound to the cyclin A–Cdk2 complex , 1996, Nature.

[13]  D. Donoghue,et al.  Mutants at Ser277 of Xenopus cdc2 protein kinase induce oocyte maturation in the absence of the positive regulatory phosphorylation site Thr161. , 1994, Molecular biology of the cell.

[14]  Kornelia Polyak,et al.  Mechanism of CDK activation revealed by the structure of a cyclinA-CDK2 complex , 1995, Nature.

[15]  David O. Morgan,et al.  Principles of CDK regulation , 1995, Nature.

[16]  Philip D. Jeffrey,et al.  Structural basis for inhibition of the cyclin-dependent kinase Cdk6 by the tumour suppressor p16INK4a , 1998, Nature.

[17]  L. Johnson,et al.  Phosphoprotein-protein interactions revealed by the crystal structure of kinase-associated phosphatase in complex with phosphoCDK2. , 2001, Molecular cell.

[18]  David O. Morgan,et al.  A novel cyclin associates with M015/CDK7 to form the CDK-activating kinase , 1994, Cell.

[19]  Neil Q. McDonald,et al.  Crystal structure of a γ‐herpesvirus cyclin–cdk complex , 2000 .

[20]  L. Johnson,et al.  The structural basis for specificity of substrate and recruitment peptides for cyclin-dependent kinases , 1999, Nature Cell Biology.

[21]  Manuel Serrano,et al.  Crystal structure of the complex of the cyclin D-dependent kinase Cdk6 bound to the cell-cycle inhibitor p19INK4d , 1998, Nature.