Detecting Allosteric Sites of HIV-1 Reverse Transcriptase by X-ray Crystallographic Fragment Screening

Bauman, J.D.; Patel, Dil V.; Dharia, Chhaya; Fromer, M.W.; Ahmed, Salman; Frenkel, Yulia Volovik; Vijayan, Ramachandran; Eck, Joachim; Ho, William C.; Das, Kalyan; Shatkin, Aaron J.; Arnold, Edward

doi:10.1021/jm301271j

Cited by 79 publications

(132 citation statements)

References 47 publications

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“…Q500 has been reported as one of the key residues responsible for RNA:DNA hybrid binding, [35] and it was recently proposed as a possible druggable binding site for allosteric RNase H inhibitors. [36][37][38] Theoretically, compounds interacting with residue Q500 (Figure 3), or residues in its vicinity that are important for RNA:DNA substrate positioning, could potentially interfere with duplex accommodation in the active site of RNase H. [36] On the basis of these results, we hypothesized that the binding of cHTC derivatives to the allosteric site of RNase H could be affected by competition with the RNA:DNA duplex, especially for compounds that were weaker inhibitors. To test this hypothesis, the RNase H activity of compounds 31 and 33 was re-assayed by modifying the order of addition of the RNA:DNA duplex substrate.…”

Section: Mode Of Action Studiesmentioning

confidence: 99%

Studies on Cycloheptathiophene‐3‐carboxamide Derivatives as Allosteric HIV‐1 Ribonuclease H Inhibitors

et al. 2016

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Despite the significant progress achieved with combination antiretroviral therapy in the fight against human immunodeficiency virus (HIV) infection, the difficulty to eradicate the virus together with the rapid emergence of multidrug-resistant strains clearly underline a pressing need for innovative agents, possibly endowed with novel mechanisms of action. In this context, owing to its essential role in HIV genome replication, the reverse transcriptase associated ribonuclease H (RNase H) has proven to be an appealing target. To identify new RNase H inhibitors, an in-house cycloheptathiophene-3-carboxamide library was screened; this led to compounds endowed with inhibitory activity, the structural optimization of which led to the catechol derivative 2-(3,4-dihydroxybenzamido)-N-(pyridin-2-yl)-5,6,7,8-tetrahydro-4H-cyclohepta[b]thiophene-3-carboxamide (compound 33) with an IC50 value on the RNase H activity in the nanomolar range. Mechanistic studies suggested selective inhibition of the RNase H through binding to an innovative allosteric site, which could be further exploited to enrich this class of inhibitors.

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Section: Mode Of Action Studiesmentioning

confidence: 99%

Studies on Cycloheptathiophene‐3‐carboxamide Derivatives as Allosteric HIV‐1 Ribonuclease H Inhibitors

et al. 2016

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“…Prior to conducting a fragment screening campaign against the influenza A endonuclease (PA N ), it was necessary to identify a new crystal form because the two published crystal forms were not useful for structure-based drug design. One crystal form was very difficult to reproduce while other published structure of PA N had an active site occluded by a crystallographically symmetric copy of the protein (Dias et al, 2009; Yuan et al, 2009; Bauman et al, 2013b). Additionally, binding sites should not be occupied by chemical components from the crystallization condition.…”

Section: Experimental Considerationsmentioning

confidence: 99%

Advantages of crystallographic fragment screening: Functional and mechanistic insights from a powerful platform for efficient drug discovery

Patel

Bauman

Arnold

2014

Progress in Biophysics and Molecular Biology

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X-ray crystallography has been an under-appreciated screening tool for fragment-based drug discovery due to the perception of low throughput and technical difficulty. Investigators in industry and academia have overcome these challenges by taking advantage of key factors that contribute to a successful crystallographic screening campaign. Efficient cocktail design and soaking methodologies have evolved to maximize throughput while minimizing false positives/negatives. In addition, technical improvements at synchrotron beamlines have dramatically increased data collection rates thus enabling screening on a timescale comparable to other techniques. The combination of available resources and efficient experimental design has resulted in many successful crystallographic screening campaigns. The three-dimensional crystal structure of the bound fragment complexed to its target, a direct result of the screening effort, enables structure-based drug design while revealing insights regarding protein dynamics and function not readily obtained through other experimental approaches. Furthermore, this “chemical interrogation” of the target protein crystals can lead to the identification of useful reagents for improving diffraction resolution or compound solubility.

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“…Subsequent optimization using a combination of pre-seeding and reducing the well volume from 500 l to 50 l improved crystal production to approximately 3 suitable crystals per drop. High throughput fragment screening of a chemically diverse library of 971 fragments, consisting of cocktails containing 4 -8 compounds each, was conducted using a previously described protocol (37).…”

Section: Resultsmentioning

confidence: 99%

A New Class of Allosteric HIV-1 Integrase Inhibitors Identified by Crystallographic Fragment Screening of the Catalytic Core Domain

Patel

Antwi

Koneru

et al. 2016

Journal of Biological Chemistry

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Detecting Allosteric Sites of HIV-1 Reverse Transcriptase by X-ray Crystallographic Fragment Screening

Cited by 79 publications

References 47 publications

Studies on Cycloheptathiophene‐3‐carboxamide Derivatives as Allosteric HIV‐1 Ribonuclease H Inhibitors

Studies on Cycloheptathiophene‐3‐carboxamide Derivatives as Allosteric HIV‐1 Ribonuclease H Inhibitors

Advantages of crystallographic fragment screening: Functional and mechanistic insights from a powerful platform for efficient drug discovery

A New Class of Allosteric HIV-1 Integrase Inhibitors Identified by Crystallographic Fragment Screening of the Catalytic Core Domain

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