Establishment and Characterization of a Panel of Patient-Derived Soft Tissue Sarcoma (Sts) Xenograft Models for in Vivo Testing of Novel Therapeutic Approaches

Abstract

Background: STS constitutes a rare and very heterogeneous family of tumors of mesenchymal origin. The limited treatment options available for advanced STS underline the need for reliable preclinical models to test novel therapeutic strategies. Methods: A panel of patient-derived xenografts was established and is currently expanded in nu/nu NMRI mice by subcutaneous implantation of fresh, surgically resected tumor specimens from consenting patients with STS, treated at the University Hospitals Leuven, Belgium. We mainly focused on STS subtypes which harbor specific genetic alterations (e.g. translocations, gene amplifications). Once tumor growth was observed, pieces of tissue were re-transplanted to the next generation of mice. At each passage tumor fragments were collected for histological and molecular characterization. Fluorescence in situ hybridization (FISH) was performed to confirm specific genomic alterations in selected xenografts. A STS xenograft model was considered established after observing maintained histological and molecular features for at least two passages. Results: Until now a total of 78 STS patient samples have been transplanted. Fifteen well-characterized, stable STS models have already been established, maintaining the features of the original tumor: myxofibrosarcoma (4 models), dedifferentiated liposarcoma (2), synovial sarcoma (2), epithelioid haemangioendothelioma (1), malignant peripheral nerve sheath tumor (2), mesenchymal chondrosarcoma (1), leiomyosarcoma (2) and sarcoma not otherwise specified (1). Some of these models have already been successfully used for in vivo testing of novel agents, including tyrosine kinase inhibitors or cytotoxic (pro-)drugs. Twelve other xenografts are still in early stages of engraftment, not yet fulfilling our criteria of “established model”. Conclusion: This newly established, representative panel of STS xenografts is characterized by stable histological and molecular features reflecting the pheno- and genotype of the original patient samples. This panel is thus well suited for in vivo drug testing of innovative agents. The unique availability of models of some ultra-rare entities will also allow us to study the biology of these diseases. The platform is available for collaboration with academic and commercial partners.