Characterization of Promiscuous Binding of Phosphor Ligands to Breast-Cancer-Gene 1 (BRCA1) C-Terminal (BRCT): Molecular Dynamics, Free Energy, Entropy and Inhibitor Design

You, Wanli; Huang, Yu ming M.; Kizhake, Smitha; Natarajan, Amarnath; Chang, Chia En A.

doi:10.1371/journal.pcbi.1005057

Cited by 20 publications

(17 citation statements)

References 94 publications

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“…63,64 Revealing the full receptor-ligand conformational ensemble can help drug design by exploiting the balance between entropy and enthalpy in compound design 65,66 and by characterizing the effect of pre-rigidifying ligands on affinity. 67 Equally important, it can help rational design of ligand selectivity by exposing accessible molecular surfaces unique to their intended targets. 68 In the future, full integration of qFit-ligand with qFit could reveal the structural reorganization of binding pockets and allosteric signal propagation in the receptor upon ligand binding.…”

Section: Discussionmentioning

confidence: 99%

qFit-ligand reveals widespread conformational heterogeneity of drug-like molecules in X-ray electron density maps

Zundert

Hudson

Keedy

et al. 2018

Preprint

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Proteins and ligands sample a conformational ensemble that governs molecular recognition, activity, and dissociation. In structure-based drug design, access to this conformational ensemble is critical to understand the balance between entropy and enthalpy in lead optimization. However, ligand conformational heterogeneity is currently severely underreported in crystal structures in the Protein Data Bank, owing in part to a lack of automated and unbiased procedures to model an ensemble of protein-ligand states into X-ray data. Here, we designed a computational method, qFit-ligand, to automatically resolve conformationally averaged ligand heterogeneity in crystal structures, and applied it to a large set of protein receptor-ligand complexes. We found that up to 29% of a dataset of protein crystal structures bound with drug-like molecules present evidence of unmodeled, averaged, relatively isoenergetic conformations in ligand-receptor interactions. In many retrospective cases, these alternate conformations were adventitiously exploited to guide compound design, resulting in improved potency or selectivity. Combining qFit-ligand with highthroughput screening or multi-temperature crystallography could therefore augment the structurebased drug design toolbox.

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Section: Discussionmentioning

confidence: 99%

qFit-ligand reveals widespread conformational heterogeneity of drug-like molecules in X-ray electron density maps

Zundert

Hudson

Keedy

et al. 2018

Preprint

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“…Binding of receptors with ligands usually results in entropic penalty due to decrease of the molecule flexibility. As discussed in a recent study, keeping molecules flexible may reduce the entropy penalty and create stronger binding [65]. The HPMA copolymer backbone retains its flexibility when first MORF2 binds to MORF1 that is attached to CD20.…”

Section: Discussionmentioning

confidence: 99%

Drug-free macromolecular therapeutics: Impact of structure on induction of apoptosis in Raji B cells

Zhang

Fang

Yang

et al. 2017

Journal of Controlled Release

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Recently, we developed a new paradigm in macromolecular therapeutics that avoids the use of low molecular weight drugs. The activity of the “drug-free macromolecular therapeutics” is based on the biorecognition of complementary motifs at cell surface resulting in receptor crosslinking and apoptosis induction. The system is composed of two nanoconjugates: (1) a single-stranded morpholino oligonucleotide (MORF1) attached to an anti-CD20 Fab′ fragment (Fab′-MORF1); (2) multiple copies of complementary oligonucleotide MORF2 grafted to a linear polymer of N-(2-hydroxypropyl)methacrylamide (HPMA) – P-(MORF2)x. The two conjugates crosslink CD20 antigens via MORF1-MORF2 hybridization at the surface of CD20+ malignant B-cells and induce apoptosis. Preclinical studies in a murine model of human non-Hodgkin’s lymphoma showed cancer cells eradication and long-term survivors. The aim of this study was to determine the relationship between the detailed structure of the nanoconjugates and apoptosis induction in Raji cells to allow system optimization. The factors studied include the length of the MORF sequence, the valence of P-(MORF2)x (varying x), molecular weight of P-(MORF2)x, incorporation of a miniPEG spacer between Fab′ and MORF1 and between polymer backbone and pendant MORF2, and comparison of two Fab′ fragments, one from 1F5 antibody (Fab′1F5), the other from Rituximab (Fab′RTX). The results of apoptosis induction in human Burkitt’s B-cell non-Hodgkin’s lymphoma (NHL) Raji cells as determined using three apoptotic assays (Annexin V, Caspase 3, and TUNEL) indicated that: a) An improvement of apoptotic activity was observed for a 28 base pair MORF sequence when compared to MORFs composed of 20 and 25 base pairs. The differences depended on type of assay, concentration and exposure schedule (consecutive vs. premixed). b) The higher the valence of P-(MORF2)x the higher the levels of apoptosis. c) Higher molecular weight of P-(MORF2)x induced higher levels of apoptosis. d) A miniPEG8 spacer was effective in enhancing apoptotic levels in contrast to a miniPEG2 spacer. e) There was not a statistically significant difference when comparing Fab′1F5-MORF1 with Fab′RTX-MORF1.

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“…These and other examples demonstrate the need and utility of precise macromolecular flexibility, also demonstrated by the functional modes of disordered protein domains. 30-33 …”

Section: Introductionmentioning

confidence: 99%

Synthesis and Solution-Phase Characterization of Sulfonated Oligothioetheramides

Brown

Acevedo

et al. 2017

Macromolecules

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Nature has long demonstrated the importance of chemical sequence to induce structure and tune physical interactions. Investigating macromolecular structure and dynamics is paramount to understand macromolecular binding and target recognition. To that end, we have synthesized and characterized flexible sulfonated oligothioetheramides (oligo-TEAs) by variable temperature pulse field gradient (PFG) NMR, double electron–electron resonance (DEER), and molecular dynamics (MD) simulations to capture their room temperature structure and dynamics in water. We have examined the contributions of synthetic length (2–12mer), pendant group charge, and backbone hydrophobicity. We observe significant entropic collapse, driven in part by backbone hydrophobicity. Analysis of individual monomer contributions revealed larger changes due to the backbone compared to pendant groups. We also observe screening of intramolecular electrostatic repulsions. Finally, we comment on the combination of DEER and PFG NMR measurements via Stokes–Einstein–Sutherland diffusion theory. Overall, this sensitive characterization holds promise to enable de novo development of macromolecular structure and sequence–structure–function relationships with flexible, but biologically functional macromolecules

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Characterization of Promiscuous Binding of Phosphor Ligands to Breast-Cancer-Gene 1 (BRCA1) C-Terminal (BRCT): Molecular Dynamics, Free Energy, Entropy and Inhibitor Design

Cited by 20 publications

References 94 publications

qFit-ligand reveals widespread conformational heterogeneity of drug-like molecules in X-ray electron density maps

qFit-ligand reveals widespread conformational heterogeneity of drug-like molecules in X-ray electron density maps

Drug-free macromolecular therapeutics: Impact of structure on induction of apoptosis in Raji B cells

Synthesis and Solution-Phase Characterization of Sulfonated Oligothioetheramides

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