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28 results on '"Kutchukian, Peter S."'

2. Molecular Profiling Reveals a Common Metabolic Signature of Tissue Fibrosis

Author

Zhang, Ji, Muise, Eric S., Han, Seongah, Kutchukian, Peter S., Costet, Philippe, Zhu, Yonghua, Kan, Yanqing, Zhou, Haihong, Shah, Vinit, Huang, Yongcheng, Saigal, Ashmita, Akiyama, Taro E., Shen, Xiao-Lan, Cai, Tian-Quan, Shah, Kashmira, Carballo-Jane, Ester, Zycband, Emanuel, Yi, Lan, Tian, Ye, Chen, Ying, Imbriglio, Jason, Smith, Elizabeth, Devito, Kristine, Conway, James, Ma, Li-Jun, Hoek, Maarten, Sebhat, Iyassu K., Peier, Andrea M., Talukdar, Saswata, McLaren, David G., Previs, Stephen F., Jensen, Kristian K., and Pinto, Shirly

Published
2020
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4. Prospective Assessment of Virtual Screening Heuristics Derived Using a Novel Fusion Score

Author

Pertusi, Dante A., O’Donnell, Gregory, Homsher, Michelle F., Solly, Kelli, Patel, Amita, Stahler, Shannon L., Riley, Daniel, Finley, Michael F., Finger, Eleftheria N., Adam, Gregory C., Meng, Juncai, Bell, David J., Zuck, Paul D., Hudak, Edward M., Weber, Michael J., Nothstein, Jennifer E., Locco, Louis, Quinn, Carissa, Amoss, Adam, Squadroni, Brian, Hartnett, Michelle, Heo, Mee Ra, White, Tara, May, S. Alex, Boots, Evelyn, Roberts, Kenneth, Cocchiarella, Patrick, Wolicki, Alex, Kreamer, Anthony, Kutchukian, Peter S., Wassermann, Anne Mai, Uebele, Victor N., Glick, Meir, Rusinko, III, Andrew, and Culberson, J. Christopher

Published
2017
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8. Chemistry informer libraries: a chemoinformatics enabled approach to evaluate and advance synthetic methods† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c5sc04751j Click here for additional data file

Author

Kutchukian, Peter S., Dropinski, James F., Dykstra, Kevin D., Li, Bing, DiRocco, Daniel A., Streckfuss, Eric C., Campeau, Louis-Charles, Cernak, Tim, Vachal, Petr, Davies, Ian W., Krska, Shane W., and Dreher, Spencer D.

Subjects
Chemistry
Abstract

We report a standardized complex molecule diagnostic approach using collections of relevant drug-like molecules which we call chemistry informer libraries., Major new advances in synthetic chemistry methods are typically reported using simple, non-standardized reaction substrates, and reaction failures are rarely documented. This makes the evaluation and choice of a synthetic method difficult. We report a standardized complex molecule diagnostic approach using collections of relevant drug-like molecules which we call chemistry informer libraries. With this approach, all chemistry results, successes and failures, can be documented to compare and evolve synthetic methods. To aid in the visualization of chemistry results in drug-like physicochemical space we have used an informatics methodology termed principal component analysis. We have validated this method using palladium- and copper-catalyzed reactions, including Suzuki–Miyaura, cyanation and Buchwald–Hartwig amination.

Published
2016

10. Discovery of an Anion-Dependent Farnesyltransferase Inhibitor from a Phenotypic Screen.

Author

Bukhtiyarova, Marina, Cook, Erica M., Hancock, Paula J., Hruza, Alan W., Shaw, Anthony W., Adam, Gregory C., Barnard, Richard J. O., McKenna, Philip M., Holloway, M. Katharine, Bell, Ian M., Carroll, Steve, Cornella-Taracido, Ivan, Cox, Christopher D., Kutchukian, Peter S., Powell, David A., Strickland, Corey, Trotter, B. Wesley, Tudor, Matthew, Wolkenberg, Scott, and Li, Jing

Published
2021
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11. All-atom model for stabilization of [alpha]-helical structure in peptides by hydrocarbon staples

Author

Kutchukian, Peter S., Jae Shick Yang, Verdine, Gregory L., and Shakhnovich, Eugene I.

Subjects
Hydrocarbons -- Structure, Hydrocarbons -- Chemical properties, Monte Carlo method -- Usage, Peptides -- Chemical properties, Peptides -- Structure, Chemistry
Abstract

All-atom Monte Carlo folding simulations are presented comparing unmodified peptides derived from RNase A and BID BH3 with various i,i+4 and i,i+7 stapled hydrocarbons. The results have shown that staples have stabilized quasi-stable decoy conformations and that the removal of these states has played a major role in determining the helix stability of stapled peptides.

Published
2009

12. Representing high throughput expression profiles via perturbation barcodes reveals compound targets.

Author

Filzen, Tracey M., Kutchukian, Peter S., Hermes, Jeffrey D., Li, Jing, and Tudor, Matthew

Subjects
*CELL culture, *MESSENGER RNA, *GENE expression, *PERTURBATION theory, *GENES
Abstract

High throughput mRNA expression profiling can be used to characterize the response of cell culture models to perturbations such as pharmacologic modulators and genetic perturbations. As profiling campaigns expand in scope, it is important to homogenize, summarize, and analyze the resulting data in a manner that captures significant biological signals in spite of various noise sources such as batch effects and stochastic variation. We used the L1000 platform for large-scale profiling of 978 representative genes across thousands of compound treatments. Here, a method is described that uses deep learning techniques to convert the expression changes of the landmark genes into a perturbation barcode that reveals important features of the underlying data, performing better than the raw data in revealing important biological insights. The barcode captures compound structure and target information, and predicts a compound’s high throughput screening promiscuity, to a higher degree than the original data measurements, indicating that the approach uncovers underlying factors of the expression data that are otherwise entangled or masked by noise. Furthermore, we demonstrate that visualizations derived from the perturbation barcode can be used to more sensitively assign functions to unknown compounds through a guilt-by-association approach, which we use to predict and experimentally validate the activity of compounds on the MAPK pathway. The demonstrated application of deep metric learning to large-scale chemical genetics projects highlights the utility of this and related approaches to the extraction of insights and testable hypotheses from big, sometimes noisy data. [ABSTRACT FROM AUTHOR]

Published
2017
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13. Synthesis of Complex Druglike Molecules by the Use of Highly Functionalized Bench-Stable Organozinc Reagents.

Author

Greshock, Thomas J., Moore, Keith P., McClain, Ray T., Bellomo, Ana, Chung, Cheol K., Dreher, Spencer D., Kutchukian, Peter S., Peng, Zhengwei, Davies, Ian W., Vachal, Petr, Ellwart, Mario, Manolikakes, Sophia M., Knochel, Paul, and Nantermet, Philippe G.

Subjects
ORGANOZINC compounds, BENZYLIC group, HETEROCHAIN polymers, ELECTROPHILES, COUPLING reactions (Chemistry)
Abstract

The reactivity of a representative set of 17 organozinc pivalates with 18 polyfunctional druglike electrophiles (informers) in Negishi cross-coupling reactions was evaluated by high-throughput experimentation protocols. The high-fidelity scaleup of successful reactions in parallel enabled the isolation of sufficient material for biological testing, thus demonstrating the high value of these new solid zinc reagents in a drug-discovery setting and potentially for many other applications in chemistry. Principal component analysis (PCA) clearly defined the independent roles of the zincates and the informers toward druggable-space coverage. [ABSTRACT FROM AUTHOR]

Published
2016
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16. Efficient Search of ChemicalSpace: Navigating fromFragments to Structurally Diverse Chemotypes.

Author

Wassermann, Anne Mai, Kutchukian, Peter S., Lounkine, Eugen, Luethi, Tiffany, Hamon, Jacques, Bocker, Michael T., Malik, Hasnain A., Cowan-Jacob, Sandra W., and Glick, Meir

Subjects
*BIOACTIVE compounds, *CRYSTAL structure, *BIOMOLECULES, *FOLLOW-up studies (Medicine), *HISTONE deacetylase, *ANTHROPOMETRY
Abstract

Weintroduce a novel strategy to sample bioactive chemical space,which follows-up on hits from fragment campaigns without the needfor a crystal structure. Our results strongly suggest that screeninga few hundred or thousand fragments can substantially improve theselection of small-molecule screening subsets. By combining fragment-basedscreening with virtual fragment linking and HTS fingerprints, we havedeveloped an effective strategy not only to expand from low-affinityhits to potent compounds but also to hop in chemical space to substantiallynovel chemotypes. In benchmark calculations, our approach accessedsubsets of compounds that were substantially enriched in chemicallydiverse hit compounds for various activity classes. Overall, halfof the hits in the screening collection were found by screening only10% of the library. Furthermore, a prospective application led tothe discovery of two structurally novel histone deacetylase 4 inhibitors. [ABSTRACT FROM AUTHOR]

Published
2013
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17. Inside the Mind of a Medicinal Chemist: The Role of Human Bias in Compound Prioritization during Drug Discovery.

Author

Kutchukian, Peter S., Vasilyeva, Nadya Y., Xu, Jordan, Lindvall, Mika K., Dillon, Michael P., Glick, Meir, Coley, John D., and Brooijmans, Natasja

Subjects
*HYPOTHESIS, *GENOMES, *DISEASES, *GENETICS, *REGRESSION analysis, *SINGLE nucleotide polymorphisms
Abstract

Medicinal chemists' "intuition" is critical for success in modern drug discovery. Early in the discovery process, chemists select a subset of compounds for further research, often from many viable candidates. These decisions determine the success of a discovery campaign, and ultimately what kind of drugs are developed and marketed to the public. Surprisingly little is known about the cognitive aspects of chemists' decision-making when they prioritize compounds. We investigate 1) how and to what extent chemists simplify the problem of identifying promising compounds, 2) whether chemists agree with each other about the criteria used for such decisions, and 3) how accurately chemists report the criteria they use for these decisions. Chemists were surveyed and asked to select chemical fragments that they would be willing to develop into a lead compound from a set of ∼4,000 available fragments. Based on each chemist's selections, computational classifiers were built to model each chemist's selection strategy. Results suggest that chemists greatly simplified the problem, typically using only 1-2 of many possible parameters when making their selections. Although chemists tended to use the same parameters to select compounds, differing value preferences for these parameters led to an overall lack of consensus in compound selections. Moreover, what little agreement there was among the chemists was largely in what fragments were undesirable. Furthermore, chemists were often unaware of the parameters (such as compound size) which were statistically significant in their selections, and overestimated the number of parameters they employed. A critical evaluation of the problem space faced by medicinal chemists and cognitive models of categorization were especially useful in understanding the low consensus between chemists. [ABSTRACT FROM AUTHOR]

Published
2012
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18. Structure of the Stapled p53 Peptide Bound to Mdm2.

Author

Baek, Sohee, Kutchukian, Peter S., Verdine, Gregory L., Huber, Robert, Holak, Tad A., Ki Won Lee, and Popowicz, Grzegorz M.

Subjects
*MOLECULAR structure, *UBIQUITIN ligases, *CHEMICAL biology, *IMMUNOMODULATORS, *TUMOR suppressor proteins, *P53 protein, *GENE silencing
Abstract

Mdm2 is a major negative regulator of the tumor suppressor p53 protein, a protein that plays a crucial role in maintaining genome integrity. Inactivation of p53 is the most prevalent defect in human cancers. Inhibitors of the Mdm2-p53 interaction that restore the functional p53 constitute potential nongenotoxic anticancer agents with a novel mode of action. We present here a 2.0 A resolution structure of the Mdm2 protein with a bound stapled p53 peptide. Such peptides, which are conformationally and proteolytically stabilized with all-hydrocarbon staples, are an emerging class of biologics that are capable of disrupting protein-protein interactions and thus have broad therapeutic potential. The structure represents the first crystal structure of an i, i + 7 stapled peptide bound to its target and reveals that rather than acting solely as a passive conformational brace, a staple can intimately interact with the surface of a protein and augment the binding interface. [ABSTRACT FROM AUTHOR]

Published
2012
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19. Introduction of All-Hydrocarbon i,i+3 Staples into α-Helices via Ring-Closing Olefin Metathesis.

Author

Kim, Young-Woo, Kutchukian, Peter S., and Verdine, Gregory L.

Subjects
*HYDROCARBONS, *METATHESIS reactions, *ALKENES, *PEPTIDES, *GLYCINE, *STEREOCHEMISTRY, *AMINO acids
Abstract

The introduction of all-hydrocarbon i,i+3 staples into α-helical peptide scaffolds via ring-closing olefin metathesis (RCM) between two α-methyl,α-pentenylglycine residues incorporated at iand i+3 positions, which lie on the same face of the helix, has been investigated. The reactions were found to be highly dependent upon the side-chain stereochemistry of the amino acids undergoing RCM. The i,i+3 stapling system established here provides a potentially useful alternative to the well-established i,i+4 stapling system now in widespread use. [ABSTRACT FROM AUTHOR]

Published
2010
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20. All-Atom Model for Stabilization of α-Helical Structure in Peptides by Hydrocarbon Staples.

Author

Kutchukian, Peter S., Jae Shick Yang, Verdine, Gregory L., and Shakhnovich, Eugene I.

Subjects
*PEPTIDES, *HYDROCARBONS, *PROTEIN-protein interactions, *ATOMIC models, *POLYMERS, *MONTE Carlo method, *CHEMICAL research
Abstract

Recent work has shown that the incorporation of an all-hydrocarbon "staple" into peptides can greatly increase.their α-helix propensity, leading to an improvement in pharmaceutical properties such as proteolytic stability, receptor affinity, and cell permeability. Stapled peptides thus show promise as a new class of drugs capable of accessing intractable targets such as those that engage in intracellular protein-protein interactions. The extent of α-helix stabilization provided by stapling has proven to be substantially context dependent, requiring cumbersome screening to identify the optimal site for staple incorporation. In certain cases, a staple encompassing one turn of the helix (attached at residues i and i+4) furnishes greater helix stabilization than one encompassing two turns (i,i+7 staple), which runs counter to expectation based on polymer theory. These findings highlight the need for a more thorough understanding of the forces that underlie helix stabilization by hydrocarbon staples. Here we report all-atom Monte Carlo folding simulations comparing unmodified peptides derived from RNase A and BID BH3 with various i,i+4 and i,i+7 stapled versions thereof. The results of these simulations were found to be in quantitative agreement with experimentally determined helix propensities. We also discovered that staples can stabilize quasi-stable decoy conformations, and that the removal of these states plays a major role in determining the helix stability of stapled peptides. Finally, we critically investigate why our method works, exposing the underlying physical forces that stabilize stapled peptides. [ABSTRACT FROM AUTHOR]

Published
2009
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22. Enhancing the Small-Scale Screenable Biological Space beyond Known Chemogenomics Libraries with Gray Chemical Matter─Compounds with Novel Mechanisms from High-Throughput Screening Profiles.

Author

Thomas JR, Shelton C 4th, Murphy J, Brittain S, Bray MA, Aspesi P, Concannon J, King FJ, Ihry RJ, Ho DJ, Henault M, Hadjikyriacou A, Neri M, Sigoillot FD, Pham HT, Shum M, Barys L, Jones MD, Martin EJ, Blechschmidt A, Rieffel S, Troxler TJ, Mapa FA, Jenkins JL, Jain RK, Kutchukian PS, Schirle M, and Renner S

Subjects
Cheminformatics methods, Structure-Activity Relationship, Drug Discovery methods, High-Throughput Screening Assays methods, Small Molecule Libraries chemistry
Abstract

Phenotypic assays have become an established approach to drug discovery. Greater disease relevance is often achieved through cellular models with increased complexity and more detailed readouts, such as gene expression or advanced imaging. However, the intricate nature and cost of these assays impose limitations on their screening capacity, often restricting screens to well-characterized small compound sets such as chemogenomics libraries. Here, we outline a cheminformatics approach to identify a small set of compounds with likely novel mechanisms of action (MoAs), expanding the MoA search space for throughput limited phenotypic assays. Our approach is based on mining existing large-scale, phenotypic high-throughput screening (HTS) data. It enables the identification of chemotypes that exhibit selectivity across multiple cell-based assays, which are characterized by persistent and broad structure activity relationships (SAR). We validate the effectiveness of our approach in broad cellular profiling assays (Cell Painting, DRUG-seq, and Promotor Signature Profiling) and chemical proteomics experiments. These experiments revealed that the compounds behave similarly to known chemogenetic libraries, but with a notable bias toward novel protein targets. To foster collaboration and advance research in this area, we have curated a public set of such compounds based on the PubChem BioAssay dataset and made it available for use by the scientific community.

Published
2024
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23. Discovery of an Anion-Dependent Farnesyltransferase Inhibitor from a Phenotypic Screen.

Author

Bukhtiyarova M, Cook EM, Hancock PJ, Hruza AW, Shaw AW, Adam GC, Barnard RJO, McKenna PM, Holloway MK, Bell IM, Carroll S, Cornella-Taracido I, Cox CD, Kutchukian PS, Powell DA, Strickland C, Trotter BW, Tudor M, Wolkenberg S, Li J, and Tellers DM

Abstract

By employing a phenotypic screen, a set of compounds, exemplified by 1 , were identified which potentiate the ability of histone deacetylase inhibitor vorinostat to reverse HIV latency. Proteome enrichment followed by quantitative mass spectrometric analysis employing a modified analogue of 1 as affinity bait identified farnesyl transferase (FTase) as the primary interacting protein in cell lysates. This ligand-FTase binding interaction was confirmed via X-ray crystallography and temperature dependent fluorescence studies, despite 1 lacking structural and binding similarity to known FTase inhibitors. Although multiple lines of evidence established the binding interaction, these ligands exhibited minimal inhibitory activity in a cell-free biochemical FTase inhibition assay. Subsequent modification of the biochemical assay by increasing anion concentration demonstrated FTase inhibitory activity in this novel class. We propose 1 binds together with the anion in the active site to inhibit farnesyl transferase. Implications for phenotypic screening deconvolution and HIV reactivation are discussed., Competing Interests: The authors declare no competing financial interest., (© 2020 American Chemical Society.)

Published
2020
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24. Linking High-Throughput Screens to Identify MoAs and Novel Inhibitors of Mycobacterium tuberculosis Dihydrofolate Reductase.

Author

Santa Maria JP Jr, Park Y, Yang L, Murgolo N, Altman MD, Zuck P, Adam G, Chamberlin C, Saradjian P, Dandliker P, Boshoff HIM, Barry CE 3rd, Garlisi C, Olsen DB, Young K, Glick M, Nickbarg E, and Kutchukian PS

Subjects
Drug Evaluation, Preclinical, HeLa Cells, High-Throughput Screening Assays, Humans, Ligands, Molecular Docking Simulation, Mycobacterium tuberculosis growth & development, Tuberculosis drug therapy, Tuberculosis microbiology, Antitubercular Agents chemistry, Antitubercular Agents pharmacology, Folic Acid Antagonists chemistry, Folic Acid Antagonists pharmacology, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis enzymology, Tetrahydrofolate Dehydrogenase metabolism
Abstract

Though phenotypic and target-based high-throughput screening approaches have been employed to discover new antibiotics, the identification of promising therapeutic candidates remains challenging. Each approach provides different information, and understanding their results can provide hypotheses for a mechanism of action (MoA) and reveal actionable chemical matter. Here, we describe a framework for identifying efficacy targets of bioactive compounds. High throughput biophysical profiling against a broad range of targets coupled with machine learning was employed to identify chemical features with predicted efficacy targets for a given phenotypic screen. We validate the approach on data from a set of 55 000 compounds in 24 historical internal antibacterial phenotypic screens and 636 bacterial targets screened in high-throughput biophysical binding assays. Models were built to reveal the relationships between phenotype, target, and chemotype, which recapitulated mechanisms for known antibacterials. We also prospectively identified novel inhibitors of dihydrofolate reductase with nanomolar antibacterial efficacy against Mycobacterium tuberculosis. Molecular modeling provided structural insight into target-ligand interactions underlying selective killing activity toward mycobacteria over human cells.

Published
2017
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25. Iterative Focused Screening with Biological Fingerprints Identifies Selective Asc-1 Inhibitors Distinct from Traditional High Throughput Screening.

Author

Kutchukian PS, Warren L, Magliaro BC, Amoss A, Cassaday JA, O'Donnell G, Squadroni B, Zuck P, Pascarella D, Culberson JC, Cooke AJ, Hurzy D, Schlegel KS, Thomson F, Johnson EN, Uebele VN, Hermes JD, Parmentier-Batteur S, and Finley M

Subjects
Animals, Bayes Theorem, CHO Cells, Cricetinae, Cricetulus, Humans, Machine Learning, Amino Acid Transport System y+ antagonists & inhibitors, High-Throughput Screening Assays
Abstract

N-methyl-d-aspartate receptors (NMDARs) mediate glutamatergic signaling that is critical to cognitive processes in the central nervous system, and NMDAR hypofunction is thought to contribute to cognitive impairment observed in both schizophrenia and Alzheimer's disease. One approach to enhance the function of NMDAR is to increase the concentration of an NMDAR coagonist, such as glycine or d-serine, in the synaptic cleft. Inhibition of alanine-serine-cysteine transporter-1 (Asc-1), the primary transporter of d-serine, is attractive because the transporter is localized to neurons in brain regions critical to cognitive function, including the hippocampus and cortical layers III and IV, and is colocalized with d-serine and NMDARs. To identify novel Asc-1 inhibitors, two different screening approaches were performed with whole-cell amino acid uptake in heterologous cells stably expressing human Asc-1: (1) a high-throughput screen (HTS) of 3 M compounds measuring 35 S l-cysteine uptake into cells attached to scintillation proximity assay beads in a 1536 well format and (2) an iterative focused screen (IFS) of a 45 000 compound diversity set using a 3 H d-serine uptake assay with a liquid scintillation plate reader in a 384 well format. Critically important for both screening approaches was the implementation of counter screens to remove nonspecific inhibitors of radioactive amino acid uptake. Furthermore, a 15 000 compound expansion step incorporating both on- and off-target data into chemical and biological fingerprint-based models for selection of additional hits enabled the identification of novel Asc-1-selective chemical matter from the IFS that was not identified in the full-collection HTS.

Published
2017
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26. Fragment library design: using cheminformatics and expert chemists to fill gaps in existing fragment libraries.

Author

Kutchukian PS, So SS, Fischer C, and Waller CL

Subjects
Molecular Structure, Chemistry, Pharmaceutical methods, Computational Biology methods, Drug Design, High-Throughput Screening Assays methods, Small Molecule Libraries chemistry
Abstract

Fragment based screening (FBS) has emerged as a mainstream lead discovery strategy in academia, biotechnology start-ups, and large pharma. As a prerequisite of FBS, a structurally diverse library of fragments is desirable in order to identify chemical matter that will interact with the range of diverse target classes that are prosecuted in contemporary screening campaigns. In addition, it is also desirable to offer synthetically amenable starting points to increase the probability of a successful fragment evolution through medicinal chemistry. Herein we describe a method to identify biologically relevant chemical substructures that are missing from an existing fragment library (chemical gaps), and organize these chemical gaps hierarchically so that medicinal chemists can efficiently navigate the prioritized chemical space and subsequently select purchasable fragments for inclusion in an enhanced fragment library.

Published
2015
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27. De novo design: balancing novelty and confined chemical space.

Author

Kutchukian PS and Shakhnovich EI

Subjects
Ligands, Models, Chemical, Software, Structure-Activity Relationship, Combinatorial Chemistry Techniques, Drug Design
Abstract

Importance of the Field: De novo drug design serves as a tool for the discovery of new ligands for macromolecular targets as well as optimization of known ligands. Recently developed tools aim to address the multi-objective nature of drug design in an unprecedented manner., Areas Covered in This Review: This article discusses recent advances in de novo drug design programs and accessory programs used to evaluate compounds post-generation., What the Reader Will Gain: The reader is introduced to the challenges inherent in de novo drug design and will become familiar with current trends in de novo design. Furthermore, the reader will be better prepared to assess the value of a tool, and be equipped to design more elegant tools in the future., Take Home Message: De novo drug design can assist in the efficient discovery of new compounds with a high affinity for a given target. The inclusion of existing chemoinformatic methods with current structure-based de novo design tools provides a means of enhancing the therapeutic value of these generated compounds.

Published
2010
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28. FOG: Fragment Optimized Growth algorithm for the de novo generation of molecules occupying druglike chemical space.

Author

Kutchukian PS, Lou D, and Shakhnovich EI

Subjects
Biological Products chemistry, Drug Design, Markov Chains, Molecular Structure, Pharmaceutical Preparations chemistry, Algorithms, Small Molecule Libraries chemistry
Abstract

An essential feature of all practical de novo molecule generating programs is the ability to focus the potential combinatorial explosion of grown molecules on a desired chemical space. It is a daunting task to balance the generation of new molecules with limitations on growth that produce desired features such as stability in water, synthetic accessibility, or drug-likeness. We have developed an algorithm, Fragment Optimized Growth (FOG), which statistically biases the growth of molecules with desired features. At the heart of the algorithm is a Markov Chain which adds fragments to the nascent molecule in a biased manner, depending on the frequency of specific fragment-fragment connections in the database of chemicals it was trained on. We show that in addition to generating synthetically feasible molecules, it can be trained to grow new molecules that resemble desired classes of molecules such as drugs, natural products, and diversity-oriented synthetic products. In order to classify our grown molecules, we developed the Topology Classifier (TopClass) algorithm that is capable of classifying compounds, for example as drugs or nondrugs. The classification accuracies obtained with TopClass compare favorably with the literature. Furthermore, in contrast to "black-box" approaches such as Neural Networks, TopClass brings to light characteristics of drugs that distinguish them from nondrugs.

Published
2009
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