Non-BRAF targeted therapies for melanoma: protein kinase inhibitors in Phase II clinical trials

Absence of germline CDKN2A mutation in Sicilian patients with familial malignant melanoma: Could it be a population-specific genetic signature?

Germline CDKN2A mutations have been described in 25% to 40% of melanoma families from several countries. Sicilian population is genetically different from the people of Europe and Northern Italy because of its historical background, therefore familial melanoma could be due to genes different from high-penetrance CDKN2A gene. Four hundred patients with cutaneous melanoma were observed in a 6-years period at the Plastic Surgery Unit of the University of Palermo. Forty-eight patients have met the criteria of the Italian Society of Human Genetics (SIGU) for the diagnosis of familial melanoma and were screened for CDKN2A and CDK4 mutations. Mutation testing revealed that none of the families carried mutations in CDK4 and only one patient harboured the rare CDKN2A p.R87W mutation. Unlike other studies, we have not found high mutation rate of CDKN2A in patients affected by familial melanoma or multiple melanoma. This difference could be attributed to different factors, including the genetic heterogeneity of the Sicilian population. It is likely that, as in the Australian people, the inheritance of familial melanoma in this island of the Mediterranean Sea is due to intermediate/low-penetrance susceptibility genes, which, together with environmental factors (as latitude and sun exposure), could determine the occurrence of melanoma.

Cell cycle control as a promising target in melanoma

PURPOSE OF REVIEW

This review highlights recent clinical developments in the therapeutic targeting of cell cycle control in melanoma with cyclin-dependent kinase inhibitors, checkpoint kinases, MDM2, MDM4 and p53 inhibitors.

RECENT FINDINGS

The high prevalence of activating genetic aberrations along the p16 INK4A:cyclinD-CDK4/6:RB pathway in melanoma and increasing evidence that alterations in this pathway are linked to melanomagenesis, make targeting the p16 INK4A:cyclinD-CDK4/6:RB pathway in melanoma logical and highly attractive. The presence of elevated CDK4 activity appears to correlate with greater CDK4/6 inhibitor therapeutic activity, whereas the loss of RB1 has been linked to CDK inhibitor resistance. Other novel compounds targeting cell cycle control via reactivating wild-type p53 and checkpoint kinases are also currently under investigation in melanoma.

SUMMARY

Cell cycle control is a promising target in the management of melanoma with early data reporting therapeutic benefit with cyclin-dependent kinase inhibitors, MDM2, and p53 reactivation compounds. Many of these drugs have entered phase I and II clinical trial development. Preliminary data from these studies are discussed in this review along with future treatment strategies for maximizing treatment outcomes in advanced melanoma.

VIDEO ABSTRACT

http://links.lww.com/COON/A12.