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RACK1 cooperates with NRAS

Cellular signalling (2017-03-28)
C Campagne, E Reyes-Gomez, M E Picco, S Loiodice, P Salaun, J Ezagal, F Bernex, P H Commère, S Pons, D Esquerre, E Bourneuf, J Estellé, U Maskos, P Lopez-Bergami, G Aubin-Houzelstein, J J Panthier, G Egidy
RESUMEN

Melanoma is the deadliest skin cancer. RACK1 (Receptor for activated protein kinase C) protein was proposed as a biological marker of melanoma in human and domestic animal species harboring spontaneous melanomas. As a scaffold protein, RACK1 is able to coordinate the interaction of key signaling molecules implicated in both physiological cellular functions and tumorigenesis. A role for RACK1 in rewiring ERK and JNK signaling pathways in melanoma cell lines had been proposed. Here, we used a genetic approach to test this hypothesis in vivo in the mouse. We show that Rack1 knock-down in the mouse melanoma cell line B16 reduces invasiveness and induces cell differentiation. We have developed the first mouse model for RACK1 gain of function, Tyr::Rack1-HA transgenic mice, targeting RACK1 to melanocytes in vivo. RACK1 overexpression was not sufficient to initiate melanomas despite activated ERK and AKT. However, in a context of melanoma predisposition, RACK1 overexpression reduced latency and increased incidence and metastatic rate. In primary melanoma cells from Tyr::Rack1-HA, Tyr::NRas

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Influenza Hemagglutinin (HA) Peptide, ≥97% (HPLC)