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Nevus of Ota Associated With a Primary Uveal Melanoma and Intracranial Melanoma Metastasis

Cutis. 2018 September;102(3):E2-E4
September 17, 2018|Dermatology
Nikifor K. Konstantinov, MD;Tamara M. Berry, MD;Hillary R. Elwood, MD;Barrett J. Zlotoff, MD
Author and Disclosure Information

Dr. Konstantinov is from the Departments of Internal Medicine and Dermatology, University of Minnesota, Minneapolis. Dr. Berry is from Sansum Clinic, Santa Barbara, California. Dr. Elwood is from the Department of Pathology, University of New Mexico, Albuquerque. Dr. Zlotoff is from the Department of Dermatology, University of Virginia, Charlottesville.

The authors report no conflict of interest.

Correspondence: Nikifor K. Konstantinov, MD, University of Minnesota, Departments of Internal Medicine and Dermatology, Minneapolis, MN 55455 (nikifork@umn.edu).

Nevus of Ota is a blue, hyperpigmented, benign dermatosis of the skin and mucosae that most often occurs unilaterally in the distribution of the ophthalmic (V1) and maxillary (V2) branches of the trigeminal nerve. Although uncommon, association with malignant melanoma is a complication that must be considered in the evaluation of patients with nevus of Ota. Mutations in the GNAQ and BAP1 genes in patients with nevus of Ota place them at higher risk for malignant melanoma and metastasis. We report the case of a 29-year-old woman with a long-standing history of nevus of Ota who presented acutely with an intracranial melanoma as an extension of a primary uveal melanoma.

Practice Points

  • Nevus of Ota is a hyperpigmented dermatosis that typically is distributed along the ophthalmic (V1) and maxillary (V2) branches of the trigeminal nerve.
  • GNAQ and BAP1 mutations in patients with nevus of Ota confer a greater risk for malignant melanoma and metastatic progression.
  • Ongoing ophthalmologic screening is paramount in patients with nevus of Ota and may prevent devastating sequelae.

Comment

It has been demonstrated that homozygous loss of BAP1, located on the chromosome 3p21.1 locus, allows for progression to metastatic disease in uveal melanoma. The BAP1 gene codes for ubiquitin carboxyl-terminal hydrolase 7, which is involved in the removal of ubiquitin from proteins. This enzyme binds to BRCA1 (BRCA1, DNA repair associated) via the RING (Really Interesting New Gene) finger domain and acts as a tumor suppressor.5 Biallelic BAP1 mutations allow the transition to malignancy in concert with other mutations, such as GNAQ. Identification of a BAP1 mutation may serve as a valuable diagnostic and future therapeutic target in uveal melanoma.

Currently, there are no drugs that directly target mutated GNA11 and GNAQ proteins. Because aberrant GNA11 and GNAQ proteins activate MEK1, several MEK1 inhibitors are being tested with the hope of achieving indirect suppression of GNA11/GNAQ.6

We present a rare case of BAP1 and GNAQ mutations in intracranial melanoma associated with nevus of Ota. Although the uveal melanoma was not confirmed on histopathology, the clear mention of foci within the eye by ophthalmology, positron emission tomography–CT scan showing a fluorodeoxyglucose-avid left retro-orbital mass, and genetic studies of the intracranial biopsies were highly suggestive of a primary uveal melanoma.

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Our case highlights the importance of ongoing ocular screening in patients with nevus of Ota, noting the possibility of malignant transformation. Furthermore, patients with nevus of Ota with ocular involvement may benefit from testing of BAP1 protein expression by immunohistochemistry.7 Identification of BAP1 and GNAQ mutations in patients with nevus of Ota place them at markedly higher risk for malignant melanoma. Therefore, dermatologic evaluation of patients with nevus of Ota should include a thorough review of the patient’s history and skin examination as well as referral for ophthalmologic evaluation.

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