Untying the Gordian knot of composite hemangioendothelioma: Discovery of novel fusions

Author:

Linos Konstantinos1ORCID,Dermawan Josephine K.12ORCID,Pulitzer Melissa1,Hameed Meera1,Agaram Narasimhan P.1ORCID,Agaimy Abbas3ORCID,Antonescu Cristina R.1ORCID

Affiliation:

1. Department of Pathology and Laboratory Medicine Memorial Sloan Kettering Cancer Center New York New York USA

2. Department of Pathology Cleveland Clinic Cleveland Ohio USA

3. Institute of Pathology, Friedrich‐Alexander‐University Erlangen‐Nurnberg University Hospital Erlangen Germany

Abstract

AbstractComposite hemangioendothelioma is a rare, locally aggressive, and rarely metastasizing vascular neoplasm which affects both children and adults. Recently, a number of gene fusions including YAP1::MAML2, PTBP1::MAML2, and EPC1::PHC2 have been detected in a small subset of cases with or without neuroendocrine expression. Herein, we present four additional cases with novel in‐frame fusions. The cohort comprises two females and two males with a wide age range at diagnosis (24–80 years). Two tumors were deep involving the right brachial plexus and mediastinum, while the remaining were superficial (right plantar foot and abdominal wall). The size ranged from 1.5 to 4.8 cm in greatest dimension. Morphologically, all tumors had an admixture of at least two architectural patterns including retiform hemangioendothelioma, hemangioma, epithelioid hemangioendothelioma, or angiosarcoma. The tumors were positive for endothelial markers CD31 (3/3), ERG (4/4), and D2‐40 (1/4, focal), while SMA was expressed in 2/3 highlighting the surrounding pericytes. Synaptophysin showed immunoreactivity in 2/3 cases. One patient had a local recurrence after 40 months, while two patients had no evidence of disease 4 months post‐resection. Targeted RNA sequencing detected novel in‐frame fusions in each of the cases: HSPG2::FGFR1, YAP1::FOXR1, ACTB::MAML2, and ARID1B::MAML2. The two cases with neuroendocrine expression occurred as superficial lesions and harbored YAP1::FOXR1 and ARID1B::MAML2 fusions. Our study expands on the molecular spectrum of this enigmatic tumor, further enhancing our current understanding of the disease.

Publisher

Wiley

Subject

Cancer Research,Genetics

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