The Comprehensive Genetic Test for Hereditary Melanoma and Skin Cancer utilizes next-generation sequencing (NGS) to examine 19 genes associated with hereditary forms of melanoma and skin cancer. It is a targeted gene panel specifically designed to support accurate diagnosis, risk assessment, and prevention.
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The Hereditary Melanoma and Skin Cancer Panel is a comprehensive genetic test designed to detect germline mutations associated with increased risk for familial melanoma and other genetically predisposed skin cancers. This panel is used in functional medicine to uncover inherited genomic variants that compromise cellular responses to DNA damage, oxidative stress, and ultraviolet radiation. It enables a deeper understanding of the molecular mechanisms that disrupt melanocyte homeostasis, tumor suppression, and genomic surveillance, which are central to skin cancer susceptibility and early-onset melanoma syndromes.
Hereditary melanoma is typically caused by mutations in high-penetrance tumor suppressor genes and DNA repair regulators that predispose individuals to multiple primary melanomas, dysplastic nevi, and, in some syndromic cases, non-cutaneous malignancies. The most commonly implicated gene is CDKN2A, which encodes proteins p16INK4a and p14ARF—key regulators of the cell cycle and p53 pathway. Mutations in CDK4, BAP1, MITF, TERT, and genes related to DNA mismatch repair such as MSH2, MLH1, and PMS2 are also associated with melanoma risk and familial cancer syndromes. Loss of function in these genes leads to uncontrolled cellular proliferation, impaired apoptosis, and defective DNA repair, increasing vulnerability to oncogenic transformation following UV exposure or spontaneous mutation.
Lower expression or altered structure of tumor suppressor proteins weakens the cellular checkpoint system, allowing accumulation of genetic damage in melanocytes and keratinocytes. These molecular defects are often inherited in an autosomal dominant manner with variable penetrance, meaning that clinical disease expression may depend on additional environmental and epigenetic factors. Individuals with germline mutations may develop melanoma at an earlier age, exhibit multiple primary tumors, or present with melanoma in combination with pancreatic, renal, or uveal cancers, depending on the affected gene and associated syndrome. The cumulative risk is higher when family history includes multiple cases of melanoma, especially in first-degree relatives.
The genes analyzed in the Hereditary Melanoma and Skin Cancer Panel are involved in key biological processes, including cell cycle arrest, telomere maintenance, apoptosis, chromatin remodeling, and base excision repair. Mutations affecting these pathways disrupt genomic integrity and impair the skin’s ability to repair UV-induced lesions. This panel offers a molecular-level evaluation of inherited cancer susceptibility and supports prevention strategies aimed at reducing oxidative burden, optimizing immune surveillance, and improving skin resilience. It is particularly useful in individuals with atypical mole phenotypes, early-onset skin tumors, or a strong family history of melanoma and related malignancies.
The test is performed in a clinical laboratory accredited to ISO 15189 and certified by CLIA and CAP, ensuring the validity, accuracy and international recognition of the results
