ISDA: 9ED2

Deposition Date 2024-11-15

Release Date 2025-09-24

Last Version Date 2025-09-24

Entry Detail

PDB ID:

9ED2

Keywords:

VIRAL PROTEIN/INHIBITOR

Title:

CryoEM map of Respiratory Syncytial Virus Polymerase with Non-Nucleoside Inhibitor compound 21

Biological Source:

Source Organism(s):

human respiratory syncytial virus (Taxon ID: 11250)
synthetic construct (Taxon ID: 32630)

Expression System(s):

Spodoptera frugiperda

Method Details:

Experimental Method:

ELECTRON MICROSCOPY

Resolution:

2.72 Å

Aggregation State:

PARTICLE

Reconstruction Method:

SINGLE PARTICLE

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Macromolecular Entities

Structures with similar UniProt ID

Protein Blast

Polymer Type:polypeptide(L)
Molecule:RNA-directed RNA polymerase L
Gene (Uniprot):L
Chain IDs:A
Chain Length:2201
Number of Molecules:1
Biological Source:human respiratory syncytial virus

UniProt ID:P28887 Pfam ID:PF00946, PF14318, PF14314 EC:2.7.7.48

Structures with similar UniProt ID

Protein Blast

Polymer Type:polypeptide(L)
Molecule:Phosphoprotein
Gene (Uniprot):P
Mutagens:I171V variant
Chain IDs:B, C, D, E
Chain Length:256
Number of Molecules:4
Biological Source:human respiratory syncytial virus

UniProt ID:P03421 Pfam ID:PF02478

Polymer Type:polypeptide(L)
Molecule:Compound 21
Chain IDs:F (auth: G)
Chain Length:3
Number of Molecules:1
Biological Source:synthetic construct

Primary Citation

DNA-Encoded Library Screen Identifies Novel Series of Respiratory Syncytial Virus Polymerase Inhibitors.

Carney, S.M, Grosse, S, Yin, Y, Tran, M.T, Kalin, J.H, Jacoby, E, Fung, A, Simmons, N, Xie, X, Bhaumik, A, Carbajo, R.J, Piassek, M, Miller, R, Hu, L, Lemmens, C, Lutter, F.H, Pieters, S, Rombouts, G, Vetrano, I, Oehlrich, D, Tomaso, S, Lozada, K, Garcia, M.O, Anson, B, De Bruyn, S, Smith-Monroy, C, Neefs, J.M, Conceicao-Neto, N, Kesteleyn, B, Fino, R, Stoops, B, van Vlijmen, H, Patrick, A.N, Yu, X, Wong, V, Krosky, D.J, Abeywickrema, P, Ortiz-Meoz, R.F, Mason, S.W, Jin, Z, Sharma, S, Jonckers, T.H.M.Show

J.Med.Chem. 68 6407 6430 (2025)

PMID: 40042938 DOI: 10.1021/acs.jmedchem.4c02906

Abstact

Respiratory syncytial virus (RSV) remains a public health burden due to unmet therapeutic needs. We recently reported the discovery of a non-nucleoside inhibitor of the RSV polymerase and characterized its binding to a novel pocket within the capping domain of the polymerase. Here, we describe our strategy to diversify the chemical matter targeting this site by screening our DNA-encoded chemical libraries, leading to the discovery of a novel and potent series of molecules that inhibits RSV polymerase's biochemical activity, as well as its viral replication in cells. Structural analysis via cryo-EM revealed novel contacts made within the capping domain binding pocket. By leveraging these structural insights for preliminary SAR exploration, we generated analogues for which potency and metabolic stability were improved more than 60- and 40-fold, respectively, over the initial hit. This work provides a path forward for further advanced SAR exploration and development of therapeutics against RSV.

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