H.L. De Bondt scite author profile

Inhibition of the cell cycle is widely considered as a new approach toward treatment for diseases caused by unregulated cell proliferation, including cancer. Since cyclin-dependent kinases (CDKs) are key enzymes of cell cycle control, they are promissing targets for the design and discovery of drugs with antiproliferative activity. The detailed structural analysis of CDK2 can provide valuable information for the design of new ligands that can bind in the ATP binding pocket and inhibit CDK2 activity. For this objective, the crystal structures of human CDK2 apoenzyme and its ATP complex were refined to 1.8 and 1.9 A, respectively. The high-resolution refinement reveals 12 ordered water molecules in the ATP binding pocket of the apoenzyme and five ordered waters in that of the ATP complex. Despite a large number of hydrogen bonds between ATP-phosphates and CDK2, binding studies of cyclic AMP-dependent protein kinase with ATP analogues show that the triphosphate moiety contributes little and the adenine ring is most important for binding affinity. Our analysis of CDK2 structural data, hydration of residues in the binding pocket of the apoenzyme, flexibility of the ligand, and structural differences between the apoenzyme and CDK2-ATP complex provide an explanation for the results of earlier binding studies with ATP analogues and a basis for future inhibitor design.

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Mechanisms contributing to the conformational and functional flexibility of plasminogen activator inhibitor-1

Aertgeerts

Bondt

Ranter

et al. 1995

Nat Struct Mol Biol

116

135

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Plasminogen activator inhibitor-1 (PAI-1) is unique among the serine proteinase inhibitors (serpins) in that it can adopt at least three different conformations (active, substrate and latent). We report the X-ray structure of a cleaved substrate variant of human PAI-1, which has a new beta-strand s4A formed by insertion of the amino-terminal portion of the reactive-site loop into beta-sheet A subsequent to cleavage. This is in contrast to the previous suggestion that the non-inhibitory function of substrate-type serpins is mainly due to an inability of the reactive-site loop to adopt this conformation. Comparison with the structure of latent PAI-1 provides insights into the molecular determinants responsible for the transition of the stressed active conformation to the thermostable latent conformation.

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Structure of an RNA double helix including uracil-uracil base pairs in an internal loop

Baeyens

Bondt

Holbrook

1995

Nat Struct Mol Biol

133

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The crystal structure of the RNA dodecamer 5'-GGACUUUGGUCC-3' has been determined from X-ray diffraction data to 2.6 A resolution. This oligomer forms an asymmetric double helix in the crystal. Four consecutive non-Watson-Crick base-pairs are formed in the middle of the duplex including the first intrahelical U-U (or T-T) pairs observed in an oligonucleotide crystal structure. Two different conformations of U-U pairs are observed in the context of the surrounding sequence. One of these pairs is highly twisted, allowing a bound water to bridge across strands in the major groove. The crystal packing illustrates a new form of RNA helix-helix interaction.

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H.L. De Bondt

High-Resolution Crystal Structures of Human Cyclin-Dependent Kinase 2 with and without ATP: Bound Waters and Natural Ligand as Guides for Inhibitor Design

Mechanisms contributing to the conformational and functional flexibility of plasminogen activator inhibitor-1

Structure of an RNA double helix including uracil-uracil base pairs in an internal loop

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