The Clinical And Biologic Impact Of Ppp6c Mutations In Melanoma

9067 Background: PP6C binds to regulatory units to affect a number of important pathways including cell proliferation and DNA repair. Recently two independent groups reported for the first time the presence of somatic mutations in the PPP6C gene in ~10% of short term cultures and limited number of human melanoma tissues. However, the clinical or biological relevance of PPP6C mutations in melanoma patients is unknown. Our objectives were to examine the clinical relevance of PPP6C mutations in a well characterized cohort of melanoma specimens linked to extensive, prospectively-collected clinical information and to explore the functional consequence of different categories of mutations. Methods: Sanger dideoxy sequencing was performed on PCR-amplified DNA from macro-dissected FFPE tumors. Associations between PPP6C mutations and baseline characteristics, recurrence, survival, and BRAF/ NRAS mutational status were examined. The impact of mutations on binding PP6C regulatory units was assessed as well as the effect on additional downstream pathways. Results: 308 primary melanoma patients (118 Stage I, 92 Stage II, and 98 Stage III) were examined (median follow up: 5.3 years). 50 PPP6C mutations in 33 patients (10.7%) were identified with 11 tumors harboring more than one mutation. One mutation (R301C) was identified in 6 patients. PPP6C mutations occurred with similar frequencies across stages and showed no association with BRAF or NRAS mutations. Mutations were categorized into 3 groups: Mutations resulting in premature stop codon (n=9), those occurring in the active site (n=16) and others (n=8). 8/9 (89%) patients with stop mutations recurred and developed visceral metastases. Functional studies revealed that PPP6C mutants also behaved differently; some PPP6C mutations led to decreased binding to regulatory subunits, others, including the R301C mutation did not. Conclusions: Our data suggest that PPP6C mutation is an early event in melanoma progression and independent of BRAF or NRAS mutations. Data also suggest different biologic and clinical impact of PPP6C mutations, with stop mutations showing association with development of visceral metastases that requires further clinical and functional study.