P11.58.A Case of a complex neurocutaneous syndrome characterized by extensive peripheral nerve sheath tumors and somatic ERBB2 mutation

Abstract

Abstract Schwannomatosis is a rare genetic tumor predisposition syndrome characterized by the presence of multiple non-intradermal schwannomas and the definitive absence of vestibular nerve involvement. Though considered benign, the burden of tumors can cause significant morbidity in the form of motor dysfunction and refractory neuropathic pain. Treatment is focused on mitigating these symptoms, which includes resection of offending tumors when feasible and anti-angiogenesis therapy with bevacizumab. Options for targeted medical therapies are lacking. Schwannomatosis is molecularly distinct from the other neurofibromatoses and by definition lacks constitutional mutations in NF1 and NF2. Instead, constitutional mutations in SMARCB1 or LZTR1 are often the “first hit” in tumorigenesis. Activating mutations in ERBB2 (also designated HER2) have been identified as oncogenic drivers in peripheral nerve sheath tumors in patients who lack these typical constitutional tumor suppressor gene mutations. Here we report a case of extensive peripheral nerve sheath tumors in the setting of apparent somatic mosaicism of an ERBB2 mutation. A 48-year-old man with history of chronic back pain presented with diffuse enlarging soft tissues masses primarily involving the left neck and occiput. Examination revealed areas of cutaneous heterogeneous hyperpigmentation, decreased muscle bulk and dorsiflexor weakness in the bilateral lower extremities, and steppage gait. Neuroimaging showed extensive T2 hyperintense, mildly enhancing masses within the bilateral thoracic and lumbar spine neuroforamina, intercostal nerves, paraspinal musculature, and lumbosacral plexus. Tissue from two separate tumor sites was morphologically consistent with schwannoma with some features of neurofibroma. Immunohistochemistry revealed partial loss of staining for SMARCB1. Whole exome sequencing (WES) on blood and tumor tissue did not show pathogenic germline or somatic variants for NF1, NF2, SMARCB1, LZTR1, or an array of tumor predisposition syndromes. WES on tumor tissue from both sites however did reveal a somatic ERBB2 variant (p.D769Y), suggesting mosaicism. ERBB2 D769Y has previously been classified as an activating mutation that confers sensitivity to some small molecule receptor tyrosine kinase inhibitors. Patients with ERRB2-mutated peripheral nerve sheath tumors may have broader therapeutic options in the variety of available tyrosine kinase inhibitors studied in other cancers.