 |
PDBsum entry 6gl9
|
|
|
|
References listed in PDB file
|
 |
|
Key reference
|
|
|
Title
|
|
Development, Optimization, And structure-Activity relationships of covalent-Reversible jak3 inhibitors based on a tricyclic imidazo[5,4- D]pyrrolo[2,3- B]pyridine scaffold.
|
|
|
Authors
|
|
M.Forster,
A.Chaikuad,
T.Dimitrov,
E.Döring,
J.Holstein,
B.T.Berger,
M.Gehringer,
K.Ghoreschi,
S.Müller,
S.Knapp,
S.A.Laufer.
|
|
|
Ref.
|
|
J Med Chem, 2018,
61,
5350-5366.
[DOI no: ]
|
|
|
PubMed id
|
|
|
|
|
|
Abstract
|
|
|
Janus kinases are major drivers of immune signaling and have been the focus of
anti-inflammatory drug discovery for more than a decade. Because of the
invariable colocalization of JAK1 and JAK3 at cytokine receptors, the question
if selective JAK3 inhibition is sufficient to effectively block downstream
signaling has been highly controversial. Recently, we discovered the
covalent-reversible JAK3 inhibitor FM-381 (23) featuring high isoform and kinome
selectivity. Crystallography revealed that this inhibitor induces an
unprecedented binding pocket by interactions of a nitrile substituent with
arginine residues in JAK3. Herein, we describe detailed structure-activity
relationships necessary for induction of the arginine pocket and the impact of
this structural change on potency, isoform selectivity, and efficacy in cellular
models. Furthermore, we evaluated the stability of this novel inhibitor class in
in vitro metabolic assays and were able to demonstrate an adequate stability of
key compound 23 for in vivo use.
|
|
|
|
|
|
|
