GNAQ and GNA11 are heterotrimeric G protein alpha subunits which are mutated in a mutually exclusive pattern in most cases of uveal melanoma, one of the most aggressive cancers. Here we introduce the first transgenic mouse model of uveal melanoma, which develops cancers induced by expression of oncogenic GNAQ Q209L under control of the Rosa26 promoter. Disease penetrance is 100% by 3 months of age with 94% of mice also developing lung tumors. In this model, the Yap protein of the Hippo pathway is activated in the eyes, and blood vessels near the lesions in the head and lungs exhibit melanocytic invasion. While full transcription levels are not necessary for GNAQ Q209L to transform mouse melanocytes, we obtained suggestive evidence of a selective advantage for increased GNAQ Q209L expression in human tumors. Intriguingly, enforced expression of GNAQ Q209L progressively eliminated melanocytes from the inter-follicular epidermis in adults, possibly explaining the near absence of GNAQ Q209 mutations in human epithelial melanomas. The mouse model also exhibited dermal nevi and melanocytic neoplasia of the central nervous system, accompanied by impaired hearing and balance, identifying a novel role for GNAQ in melanocyte-like cells of the inner ear. Overall, this model offers a new tool to dissect signaling by oncogenic GNAQ and test potential therapeutics, in an in vivo setting where GNAQ Q209L mutations contribute to both the initiation and metastatic progression of uveal melanoma.
