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Since long, great efforts have been devoted to understand how extracellular stimuli affect and modify the activity and properties of cells. The main signaling pathway involved in sensing the extracellular environment is the so called "Extracellular signaling-Regulated Kinase (ERK) pathway" (also known as "Mitogen-Activated Protein Kinase pathway"). This cascade is activated by a variety of different extracellular stimuli. In particular, in the Nervous System, the ERK pathway is involved in development, regeneration after injury and synaptic plasticity. Recently, we have demonstrated that in…mehr

Produktbeschreibung
Since long, great efforts have been devoted to understand how extracellular stimuli affect and modify the activity and properties of cells. The main signaling pathway involved in sensing the extracellular environment is the so called "Extracellular signaling-Regulated Kinase (ERK) pathway" (also known as "Mitogen-Activated Protein Kinase pathway"). This cascade is activated by a variety of different extracellular stimuli. In particular, in the Nervous System, the ERK pathway is involved in development, regeneration after injury and synaptic plasticity. Recently, we have demonstrated that in fibroblast the nuclear-cytoplasmatic trafficking of ERK1 and ERK2 are very different. Here, I have extended this study in neurons, demonstrating that the differences between ERK1 and ERK2 trafficking are much larger than in fibroblasts. I have hypothesized that the shuttling differences between ERK1 and 2 translate in differences in their capacity to signal to the neuron nucleus, ERK1 being far less capable of activating activity dependent transcription. Finally, I found that ERK1 overexpression decreased spine density, while ERK2 overexpression or ERK1 reduction caused increased spine density.
Autorenporträt
I worked on Xotx2 and Xotx5b proteins in Xenopus gastrulation at University of Pisa under the supervision of Prof. R. Vignali. After my graduation I started exploring the Neuroscience field by investigating the role of ERK trafficking in the periphery-to-nucleus signaling under the supervision of Prof. L. Maffei and Dr. G.M. Ratto at Scuola Normale