Bruno O. Villoutreix scite author profile

In today's research environment, a wealth of experimental/theoretical structural data is available and the number of therapeutically relevant macromolecular structures is growing rapidly. This, coupled with the huge number of small non-peptide potential drug candidates easily available (over 7 million compounds), highlight the need of using computer-aided techniques for the efficient identification and optimization of novel hit compounds. Virtual (or in silico) ligand screening based on the three-dimensional structure of macromolecular targets (SB-VLS) is firmly established as an important approach to identify chemical entities that have a high likelihood of binding to a target molecule to elicit desired biological responses. A myriad of free applications and services facilitating the drug discovery process have been posted on the Web. In this review, we cite over 350 URLs that are useful for SB-VLS projects and essentially free for academic groups. We attempt to provide links for in silico ADME/tox prediction tools, compound collections, some ligand-based methods, characterization/simulation of 3D targets and homology modeling tools, druggable pocket predictions, active site comparisons, analysis of macromolecular interfaces, protein docking tools to help identify binding pockets and protein-ligand docking/scoring methods. As such, we aim at providing both, methods pertaining to the field of Structural Bioinformatics (defined here as tools to study macromolecules) and methods pertaining to the field of Chemoinformatics (defined here as tools to make better decisions faster in the arena of drug/lead identification and optimization). We also report several recent success stories using these free computer methods. This review should help readers finding free computer tools useful for their projects. Overall, we are confident that these tools will facilitate rapid and cost-effective identification of new hit compounds. The URLs presented in this review will be updated regularly at www.vls3d.com in the coming months, "Links" section.

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MED‐SuMoLig: A New Ligand‐Based Screening Tool for Efficient Scaffold Hopping.

Spérandio

Andrieu

et al. 2007

ChemInform

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Three-dimensional model of the SHBG-like region of anticoagulant protein S: New structure–function insights

Villoutreix¹,

Dahlbäck²,

Borgel³

et al. 2001

Proteins

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Protein S (PS) is a vitamin K-dependent glycoprotein that consists of several modules including a C-terminal sex hormone-binding globulin (SHBG)-like domain that has been subdivided into two laminin LG-type domains. The SHBG-like region of PS is known to bind to a complement regulator molecule, C4b-binding protein (C4BP), coagulation factor Va (FVa) and receptor tyrosine kinases. Inherited PS deficiency has been associated with thromboembolic disease. Yet, study of the mechanisms by which the SHBG-like region of PS serves its essential functions has so far been hampered because of the lack of structural information. Recently, the three-dimensional (3D) structure of LG domains from plasma SHBG, laminin and neurexin have been reported and were found related to the pentraxin family. We used these X-ray structures to build homology models of the SHBG-like region of human PS. We then analyzed previously reported experimental/clinical data in the light of the predicted structures. A potential calcium-binding site is found in the first LG domain of PS and D292 could play a role in this process. This region is close to the interface between the two LG domains and is also surrounded by segments that have been suggested by synthetic peptide studies to be important for C4BP or FVa binding. The 39 point mutations linked to PS deficiencies or reported as neutral variants were rationalized in the 3D structure. Proteins 2001;43:203-216.

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SHBG region of the anticoagulant cofactor protein S: Secondary structure prediction, circular dichroism spectroscopy, and analysis of naturally occurring mutations

et al. 1997

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Protein S (PS) and growth arrest specific factor 6 (GAS6) are vitamin K-dependent proteins with similar structures. They are mosaic proteins possessing a carboxyl-terminal region presenting sequence similarity with plasma sex hormone binding globulin (plasma SHBG), although apparently not involved in steroid binding. The SHBG-like modules have sequence similarity with the G repeats of the chain A of laminin. Laminin G repeats have been reported to contain mainly beta-strands (about 40-50%) but no or little alpha structure by circular dichroism (CD) spectroscopy. Secondary structure predictions carried out in the present work unexpectedly showed a 20 to 27% helices content in the SHBG region of PS/GAS6 (about 100 residues), while plasma SHBG and laminin G repeats had around 10% helices. CD measurements for human PS indicated also that its SHBG region had about 100 residues in alpha-helical structure. These data suggest that the SHBG region of PS/GAS6 on the one hand, and the laminin G repeats and possibly plasma SHBG on the other hand, could present important structural differences. Previously reported polymorphisms and point mutations leading to PS deficiency and thrombophilia have been analyzed with our structural predictions. We found a good agreement between these structural predictions, CD measurements, experimental and clinical data. This information allows us to gain insights into the three-dimensional structure of PS that will be helpful for the design of new experiments and future clinical investigations.

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