Epinephrine inhibits PI3K alpha via the Hippo kinases

Author:

Lin Ting-Yu,Ramsamooj Shakti,Liberatore Katarina,Lantier Louise,Vasan Neil,Karukurichi Kannan,Hwang Seo-Kyoung,Kesicki Edward A.,Kastenhuber Edward R.,Wiederhold Thorsten,Yaron Tomer M.,Zhu Mengmeng,Ma Yilun,Paddock Marcia N.,Zhang Guoan,Hopkins Benjamin D.,McGuinness Owen,Schwartz Robert E.,Cantley Lewis C.,Johnson Jared L.,Goncalves Marcus D.ORCID

Abstract

SUMMARYThe phosphoinositide 3-kinase, p110α, is an essential mediator of insulin signaling and glucose homeostasis. We systematically interrogated the human serine, threonine, and tyrosine kinome to search for novel regulators of p110α and found that the Hippo kinases phosphorylate and completely inhibit its activity. This inhibitory state corresponds to a conformational change of a membrane binding domain on p110α, which impairs its ability to engage membranes. In human primary hepatocytes, cancer cell lines, and rodent tissues, activation of the Hippo kinases, MST1/2, using forskolin or epinephrine is associated with phosphorylation and inhibition of p110α, impairment of downstream insulin signaling, and suppression of glycolysis and glycogen synthesis. These changes are abrogated when MST1/2 are genetically deleted or inhibited with small molecules. Our study reveals a novel inhibitory pathway of PI3K signaling and a previously unappreciated link between epinephrine and insulin signaling.

Publisher

Cold Spring Harbor Laboratory

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