ISDA

Entry Detail

PDB ID:

7N4R

Keywords:

TRANSFERASE/TRANSFERASE INHIBITOR

Title:

Bruton's tyrosine kinase in complex with compound 21

Biological Source:

Source Organism:

Homo sapiens

Host Organism:

Spodoptera frugiperda

PDB Version:

Deposition Date:

2021-06-04

Release Date:

2022-05-18

Method Details:

Experimental Method:

X-RAY DIFFRACTION

Resolution:

1.62 Å

R-Value Free:

0.22

R-Value Work:

0.19

R-Value Observed:

0.19

Space Group:

P 21 21 2

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Macromolecular Entities

Protein Blast

Polymer Type:polypeptide(L)
Description:Tyrosine-protein kinase BTK
Chain IDs:A
Chain Length:269
Number of Molecules:1
Biological Source:Homo sapiens

UniProt ID:Q06187 Pfam ID:PF07714 EC:2.7.10.2

Ligand Molecules

0BG

DMS

Primary Citation

Utilizing structure based drug design and metabolic soft spot identification to optimize the in vitro potency and in vivo pharmacokinetic properties leading to the discovery of novel reversible Bruton's tyrosine kinase inhibitors.

Hopkins, B.T, Bame, E, Bell, N, Bohnert, T, Bowden-Verhoek, J.K, Bui, M, Cancilla, M.T, Conlon, P, Cullen, P, Erlanson, D.A, Fan, J, Fuchs-Knotts, T, Hansen, S, Heumann, S, Jenkins, T.J, Gua, C, Liu, Y, Liu, Y, Lulla, M, Marcotte, D, Marx, I, McDowell, B, Mertsching, E, Negrou, E, Romanowski, M.J, Scott, D, Silvian, L, Yang, W, Zhong, M.Show

Bioorg.Med.Chem. 44 116275 116275 (2021)

PMID: 34314938 DOI: 10.1016/j.bmc.2021.116275

Abstact

Bruton's tyrosine kinase (BTK) is an essential node on the BCR signaling in B cells, which are clinically validated to play a critical role in B-cell lymphomas and various auto-immune diseases such as Multiple Sclerosis (MS), Pemphigus, and rheumatoid arthritis (RA). Although non-selective irreversible BTK inhibitors have been approved for oncology, due to the emergence of drug resistance in B-cell lymphoma associated with covalent inhibitor, there an unmet medical need to identify reversible, selective, potent BTK inhibitor as viable therapeutics for patients. Herein, we describe the identification of Hits and subsequence optimization to improve the physicochemical properties, potency and kinome selectivity leading to the discovery of a novel class of BTK inhibitors. Utilizing Met ID and structure base design inhibitors were synthesized with increased in vivo metabolic stability and oral exposure in rodents suitable for advancing to lead optimization.

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Primary Citation of related structures