EMD - Calbiochem - Inhibitors: Phosphorylation/Dephosphorylation

		Technical Resources

		Technical Information

		Calbiochem Information

		Inhibitor Resource

		Phosphorylation Dephosphorylation

		AKT
		AMPK
		Aurora Kinase
		Cam Kinase
		Casein Kinase
		Checkpoint Kinase
		Cyclin-dependent Kinase
		DNA-Dependent Protein Kinase
		Glycogen Synthase Kinase
		c-Jun N-Terminal Kinase
		IP3 Kinase & TGF-b Receptor I Kinase
		MAP Kinase
		MLCK
		PI 3 Kinase
		Protein Kinase A
		Protein Kinase C
		Protein Kinase G
		Protein Phosphatase
		Protein Tyrosine Kinase
		Raf Kinase
		Rho Kinase
		Sphingosine Kinase

Phosphorylation/Dephosphorylation: Glycogen Synthase Kinase (GSK) Inhibitors

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Glycogen synthase kinase-3 (GSK-3), a multifunctional serine/threonine kinase, is a key regulator of numerous signaling pathways. Two isoforms of GSK-3 are reported in mammals: a 51 kDa GSK-3a and a 47 kDa GSK-3b. GSK-3b is constitutively active in resting cells and treatment of cells with an agent, such as insulin, is shown to cause GSK-3 inactivation through a PI 3-kinase (PI 3-K)-dependent mechanism. PI 3-K-induced activation of PKB/Akt results in phosphorylation of Ser²¹ on GSK-3a and Ser⁹ on GSK-3b, which inhibits GSK-3 activity. The phosphorylated N-terminus becomes a primed pseudosubstrate that occupies the positive binding pocket and the active site of the enzyme and acts as a competitive inhibitor for true substrates. This prevents phosphorylation of substrates. Arg⁹⁶ is shown to be a crucial component of the positive pocket that binds primed substrates. Small molecule inhibitors that fit in the positively charged pocket of the kinase domain of GSK-3b are useful for selectively inhibiting primed substrates. Several known GSK-3 substrates participate in a wide spectrum of cellular processes, including glycogen metabolism, transcription, translation, cytoskeletal regulation, intracellular vesicular transport, cell cycle progression, and apoptosis. Phosphorylation of these substrates by GSK-3b usually has an inhibitory effect.

Abnormalities in pathways that use GSK-3 as a regulator have been linked to several disease conditions. Hence, GSK-3 has emerged as a potential therapeutic target, particularly in non-insulin-dependent diabetes mellitus, Alzheimer's disease, developmental disorders, and cancer. Several new GSK-3 inhibitors have recently been developed, most of which act in an ATP competitive manner. Inhibitors belonging to aloisines, the paullones, and the maleimide families, have shown promise as therapeutic agents. Due to its involvement in multiple pathways, selectivity of GSK-3 inhibition is an important factor in the development of inhibitors for therapeutic applications.

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Inhibitors: Glycogen Synthase Kinase (GSK)

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Related Resource

GSK-3 Signaling Pathway

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