• Endocrinology · Jan 2014

    Insulin-like growth factor-1 receptor-mediated inhibition of A-type K(+) current induces sensory neuronal hyperexcitability through the phosphatidylinositol 3-kinase and extracellular signal-regulated kinase 1/2 pathways, independently of Akt.

    • Hua Wang, Jianzhong Qin, Shan Gong, Bo Feng, Yuan Zhang, and Jin Tao.
    • Department of Neurobiology (H.W., S.G., J.T.), Medical College of Soochow University, Suzhou 215123, China; Institute of Neuroscience & Department of Neurology of the Second Affiliated Hospital (J.Q., S.G., Y.Z., J.T.), Soochow University, Suzhou 215004, China; and Department of Endocrinology (H.W., B.F.), East Hospital, Tongji University School of Medicine, Shanghai 200120, China.
    • Endocrinology. 2014 Jan 1; 155 (1): 168-79.

    AbstractAlthough IGF-1 has been implicated in mediating hypersensitivity to pain, the underlying mechanisms remain unclear. We identified a novel functional of the IGF-1 receptor (IGF-1R) in regulating A-type K(+) currents (IA) as well as membrane excitability in small trigeminal ganglion neurons. Our results showed that IGF-1 reversibly decreased IA, whereas the sustained delayed rectifier K(+) current was unaffected. This IGF-1-induced IA decrease was associated with a hyperpolarizing shift in the voltage dependence of inactivation and was blocked by the IGF-1R antagonist PQ-401; an insulin receptor tyrosine kinase inhibitor had no such effect. An small interfering RNA targeting the IGF-1R, or pretreatment of neurons with specific phosphatidylinositol 3-kinase (PI3K) inhibitors abolished the IGF-1-induced IA decrease. Surprisingly, IGF-1-induced effects on IA were not regulated by Akt, a common downstream target of PI3K. The MAPK/ERK kinase inhibitor U0126, but not its inactive analog U0124, as well as the c-Raf-specific inhibitor GW5074, blocked the IGF-1-induced IA response. Analysis of phospho-ERK (p-ERK) showed that IGF-1 significantly activated ERK1/2 whereas p-JNK and p-p38 were unaffected. Moreover, the IGF-1-induced p-ERK1/2 increase was attenuated by PI3K and c-Raf inhibition, but not by Akt blockade. Functionally, we observed a significantly increased action potential firing rate induced by IGF-1; pretreatment with 4-aminopyridine abolished this effect. Taken together, our results indicate that IGF-1 attenuates IA through sequential activation of the PI3K- and c-Raf-dependent ERK1/2 signaling cascade. This occurred via the activation of IGF-1R and might contribute to neuronal hyperexcitability in small trigeminal ganglion neurons.

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