Crosstalk with keratinocytes causes GNAQ oncogene specificity in melanoma

Different melanoma subtypes exhibit specific and non-overlapping sets of oncogene and tumor suppressor mutations, despite a common cell of origin in melanocytes. For example, activation of the Gα_q/11signaling pathway is a characteristic initiating event in primary melanomas that arise in the dermis, uveal tract or central nervous system. It is rare in melanomas arising in the epidermis. Here, we present evidence that in the mouse, crosstalk with the epidermal microenvironment actively impairs the survival of melanocytes expressing the GNAQ^Q209Loncogene, providing a new model for oncogene specificity in cancer. The presence of epidermal cells inhibited cell division and fragmented dendrites of melanocytes expressing GNAQ^Q209Lin culture, while they promoted the growth of normal melanocytes. Differential gene expression analysis of FACS sorted epidermal melanocytes showed that cells expressing GNAQ^Q209Lexhibit an oxidative stress and apoptosis signature previously linked to vitiligo. Furthermore, PLCB4, the direct downstream effector of Gα_q/11signaling, is frequently mutated in cutaneous melanoma alongside P53 and NF1. Our results suggest that a deficiency of PLCB4 promotes cutaneous melanomagenesis by reducing GNAQ driven signaling. Hence, our studies reveal the flip side of the GNAQ/PLCB4 signaling pathway, which was hitherto unsuspected. In the future, understanding how epidermal crosstalk restrains the GNAQ^Q209Loncogene could suggest novel melanoma therapies.