In a pathogenetic sense, epithelioid soft tissue tumors basically fall into three main genetic categories: (1) switch/sucrose non-fermenting (SWI/SNF) complex-deficient tumors (with epithelioid sarcoma as their prototype); (2) epithelioid neoplasms driven by specific rare gene fusions (such as sclerosing epithelioid fibrosarcoma with EWSR1 fusions and GLI1-related malignant epithelioid soft tissue neoplasms); and (3) a heterogeneous group encompassing epithelioid variants of diverse other entities.
However, we encountered a group of morphologically similar soft tissue tumors lacking the canonical GLI1 gene fusions and sought to investigate their genetic abnormalities.
Herein, we present a new mechanism of GLI activation through fusion with the beta-actin gene (ACTB) in five histologically distinctive soft tissue tumors showing a t(7;12)(p21-22;q13-15) and a pericytic phenotype.