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1.
Nat Commun ; 12(1): 3040, 2021 05 24.
Article in English | MEDLINE | ID: mdl-34031403

ABSTRACT

All herpesviruses encode a conserved DNA polymerase that is required for viral genome replication and serves as an important therapeutic target. Currently available herpesvirus therapies include nucleoside and non-nucleoside inhibitors (NNI) that target the DNA-bound state of herpesvirus polymerase and block replication. Here we report the ternary complex crystal structure of Herpes Simplex Virus 1 DNA polymerase bound to DNA and a 4-oxo-dihydroquinoline NNI, PNU-183792 (PNU), at 3.5 Å resolution. PNU bound at the polymerase active site, displacing the template strand and inducing a conformational shift of the fingers domain into an open state. These results demonstrate that PNU inhibits replication by blocking association of dNTP and stalling the enzyme in a catalytically incompetent conformation, ultimately acting as a nucleotide competing inhibitor (NCI). Sequence conservation of the NCI binding pocket further explains broad-spectrum activity while a direct interaction between PNU and residue V823 rationalizes why mutations at this position result in loss of inhibition.


Subject(s)
DNA-Directed DNA Polymerase/chemistry , DNA-Directed DNA Polymerase/drug effects , DNA-Directed DNA Polymerase/genetics , Herpesviridae/drug effects , Herpesviridae/enzymology , Antiviral Agents/pharmacology , Binding Sites , DNA-Directed DNA Polymerase/metabolism , Drug Resistance, Viral/drug effects , Exodeoxyribonucleases , Nucleotides , Quinolines/pharmacology , Viral Proteins , Virus Replication
2.
ACS Med Chem Lett ; 11(4): 550-557, 2020 Apr 09.
Article in English | MEDLINE | ID: mdl-32292563

ABSTRACT

Indoleamine-2,3-dioxygenase-1 (IDO1) has emerged as a target of significant interest to the field of cancer immunotherapy, as the upregulation of IDO1 in certain cancers has been linked to host immune evasion and poor prognosis for patients. In particular, IDO1 inhibition is of interest as a combination therapy with immune checkpoint inhibition. Through an Automated Ligand Identification System (ALIS) screen, a diamide class of compounds was identified as a promising lead for the inhibition of IDO1. While hit 1 possessed attractive cell-based potency, it suffered from a significant right-shift in a whole blood assay, poor solubility, and poor pharmacokinetic properties. Through a physicochemical property-based approach, including a focus on lowering AlogP98 via the strategic introduction of polar substitution, compound 13 was identified bearing a pyridyl oxetane core. Compound 13 demonstrated improved whole blood potency and solubility, and an improved pharmacokinetic profile resulting in a low predicted human dose.

3.
ACS Chem Biol ; 12(11): 2858-2865, 2017 11 17.
Article in English | MEDLINE | ID: mdl-29024587

ABSTRACT

Allosteric integrase inhibitors (ALLINIs) bind to the lens epithelial-derived growth factor (LEDGF) pocket on HIV-1 integrase (IN) and possess potent antiviral effects. Rather than blocking proviral integration, ALLINIs trigger IN conformational changes that have catastrophic effects on viral maturation, rendering the virions assembled in the presence of ALLINIs noninfectious. A high-throughput screen for compounds that disrupt the IN·LEDGF interaction was executed, and extensive triage led to the identification of a t-butylsulfonamide series, as exemplified by 1. The chemical, biochemical, and virological characterization of this series revealed that 1 and its analogs produce an ALLINI-like phenotype through engagement of IN sites distinct from the LEDGF pocket. Key to demonstrating target engagement and differentiating this new series from the existing ALLINIs was the development of a fluorescence polarization probe of IN (FLIPPIN) based on the t-butylsulfonamide series. These findings further solidify the late antiviral mechanism of ALLINIs and point toward opportunities to develop structurally and mechanistically novel antiretroviral agents with unique resistance patterns.


Subject(s)
Allosteric Regulation/drug effects , HIV Infections/drug therapy , HIV Integrase Inhibitors/chemistry , HIV Integrase Inhibitors/pharmacology , HIV Integrase/metabolism , HIV-1/drug effects , Cell Line , Drug Discovery , HIV Infections/metabolism , HIV Infections/virology , HIV-1/metabolism , Humans , Intercellular Signaling Peptides and Proteins/metabolism , Protein Interaction Maps/drug effects , Sulfonamides/chemistry , Sulfonamides/pharmacology
4.
SLAS Discov ; 22(8): 995-1006, 2017 Sep.
Article in English | MEDLINE | ID: mdl-28426940

ABSTRACT

High-throughput screening (HTS) is a widespread method in early drug discovery for identifying promising chemical matter that modulates a target or phenotype of interest. Because HTS campaigns involve screening millions of compounds, it is often desirable to initiate screening with a subset of the full collection. Subsequently, virtual screening methods prioritize likely active compounds in the remaining collection in an iterative process. With this approach, orthogonal virtual screening methods are often applied, necessitating the prioritization of hits from different approaches. Here, we introduce a novel method of fusing these prioritizations and benchmark it prospectively on 17 screening campaigns using virtual screening methods in three descriptor spaces. We found that the fusion approach retrieves 15% to 65% more active chemical series than any single machine-learning method and that appropriately weighting contributions of similarity and machine-learning scoring techniques can increase enrichment by 1% to 19%. We also use fusion scoring to evaluate the tradeoff between screening more chemical matter initially in lieu of replicate samples to prevent false-positives and find that the former option leads to the retrieval of more active chemical series. These results represent guidelines that can increase the rate of identification of promising active compounds in future iterative screens.


Subject(s)
Drug Evaluation, Preclinical , Heuristics , User-Computer Interface , Machine Learning
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