4 research outputs found
Heteroarylation of Azine <i>N</i>-Oxides
Azine <i>N</i>-oxides undergo highly regioselective metalation with TMPZnCl·LiCl under mild conditions. A palladium-catalyzed Negishi cross-coupling reaction of the resulting organozinc species with heteroaromatic bromides provides heterobiaryls specifically oxidized at one nitrogen position in up to 95% yield
Structure-Based Design of Tricyclic NF-κB Inducing Kinase (NIK) Inhibitors That Have High Selectivity over Phosphoinositide-3-kinase (PI3K)
We report here structure-guided optimization
of a novel series
of NF-κB inducing kinase (NIK) inhibitors. Starting from a modestly
potent, low molecular weight lead, activity was improved by designing
a type 11/2 binding mode that accessed a back pocket past the methionine-471
gatekeeper. Divergent binding modes in NIK and PI3K were exploited
to dampen PI3K inhibition while maintaining NIK inhibition within
these series. Potent compounds were discovered that selectively inhibit
the nuclear translocation of NF-κB2 (p52/REL-B) but not canonical
NF-κB1 (REL-A/p50)
Scaffold-Hopping Approach To Discover Potent, Selective, and Efficacious Inhibitors of NF-κB Inducing Kinase
NF-κB-inducing
kinase (NIK) is a protein kinase central to
the noncanonical NF-κB pathway downstream from multiple TNF
receptor family members, including BAFF, which has been associated
with B cell survival and maturation, dendritic cell activation, secondary
lymphoid organ development, and bone metabolism. We report herein
the discovery of lead chemical series of NIK inhibitors that were
identified through a scaffold-hopping strategy using structure-based
design. Electronic and steric properties of lead compounds were modified
to address glutathione conjugation and amide hydrolysis. These highly
potent compounds exhibited selective inhibition of LTβR-dependent
p52 translocation and transcription of NF-κB2 related genes.
Compound <b>4f</b> is shown to have a favorable pharmacokinetic
profile across species and to inhibit BAFF-induced B cell survival
in vitro and reduce splenic marginal zone B cells in vivo
Scaffold-Hopping Approach To Discover Potent, Selective, and Efficacious Inhibitors of NF-κB Inducing Kinase
NF-κB-inducing
kinase (NIK) is a protein kinase central to
the noncanonical NF-κB pathway downstream from multiple TNF
receptor family members, including BAFF, which has been associated
with B cell survival and maturation, dendritic cell activation, secondary
lymphoid organ development, and bone metabolism. We report herein
the discovery of lead chemical series of NIK inhibitors that were
identified through a scaffold-hopping strategy using structure-based
design. Electronic and steric properties of lead compounds were modified
to address glutathione conjugation and amide hydrolysis. These highly
potent compounds exhibited selective inhibition of LTβR-dependent
p52 translocation and transcription of NF-κB2 related genes.
Compound <b>4f</b> is shown to have a favorable pharmacokinetic
profile across species and to inhibit BAFF-induced B cell survival
in vitro and reduce splenic marginal zone B cells in vivo