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GSK583

(CAS No:1346547-00-9)

GSK583 is a highly potent and selective inhibitor of RIP2 kinase with an IC50 of 5 nM.

CAS No:1346547-00-9

Molecular Weight(MW):398.45

Purity:99.00%

Specification:500MG;1G;5G;10G;50G;100G

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QC Documents

COA	MSDS	HPLC	NMR

ChemicalInfomation

CAS No:	1346547-00-9
Molecular formula(MF)	C₂₀H₁₉FN₄O₂S
Molecular Weight(MW):	398.45
Alias

Solubility

In vitro	DMSO	79 mg/mL (198.26 mM)
	Ethanol	28 mg/mL (70.27 mM)
	Water	<1 mg/mL
In vivo

Biological Activity

Description

GSK583 is a highly potent and selective inhibitor of RIP2 kinase with an IC50 of 5 nM.

Targets

RIP2 ^[1]	RIP3 ^[1]
5 nM	16 nM

In vitro

GSK583 possesses comparable binding affinity for RIP3 kinase as demonstrated by an in-house FP binding assay configured similarly to the RIP2 FP assay (RIP2 FP IC50 = 5 nM; RIP3 FP IC50 = 16 nM). Despite this potent biochemical activity against RIP3 kinase, GSK583 shows little or no inhibition of RIP3-dependent necroptotic cell death in a cellular assay up to 10 μM concentration. GSK583 potently and dose dependently inhibits MDP-stimulated tumor necrosis factor-alpha (TNFα) production with an IC50 = 8 nM in primary human monocytes. Following treatment with GSK583 at 1 μM, little inhibition of pro-inflammatory signaling is observed upon activation of Toll-like receptors (TLR2, TLR4, TLR7) or cytokine receptors (IL-1R, TNFR) but complete inhibition is observed upon activation of both NOD1 and NOD2 receptors, which signal in a RIP2-dependent manner. Although GSK583 has excellent kinase selectivity, it does inhibit both the hERG channel and Cyp3A4, which precludes it from further progression as a drug candidate^[1].

In vivo

GSK583 has low clearance, moderate volumes of distribution, and moderate oral bioavailability in both rat and mouse. Eventhough GSK583 would not produce a human phamacodynamic response within an acceptable dose range which precludes this molecule from further development as a drug candidate, the oral PK in rat and mouse provides sufficient systemic exposure for use as a preclinical in vivo tool molecule in an acute inflammation challenge model^[1].