Abstract 4226: Human-derived hydrogels for 3D models of bone and osteosarcoma organoids and adipose tissue interactions

Abstract

Abstract The goal of the study was to determine the metabolic and morphological changes, via high Content Imaging, in 3D models of osteosarcoma cancer cells using human derived hydrogels with different protein composition, Obagel and Obagel ECM. Furthermore, we evaluated the relevance of the adipose tissue microenvironment in Adipose Derived Stem Cells (ADSC) linage and Tumoroids development. Methods: Adipose derived Stem cells were cultured in a modified 3D human and fat and bone linage differentiation as studied via histology and Immunofluorescence. Osteosarcoma spheroids were cultured in Obatala Sciences’ human-derived hydrogels ObaGel and ObaGelECM and control media. Organoid structure and phenotypic changes were analyzed via live cell imaging on the Incucyte S3 and Nikon high content imaging device. Then, adipocyte- cancer cell crosstalk was evaluated using pooled adipocytes co-cultured with KHOS spheroids. Adipose derived Stem cells were cultured in a modified 3D human derived hydrogel dictates that promotes the differentiation potential toward fat and adipose tissue simultaneously in microenvironments within the organoid. Furthermore, the results demonstrated that ObaGel and ObaGel-ECM 3D cultures can support the growth and proliferation of KHOS tumor spheres during an extended culture period. Metabolic changes and phenotypic changes associated to ObaGel and ObaGel-ECM differentially facilitated tumoroids growth and migratory behavior. Conclusions: Human derived hydrogels are developed to support 3D culture of Bone and Osteosarcoma cells to recapitulate the phenotypic changes associated with their metastatic potential. The use of human derived 3D culture systems can accelerate the understanding of the role of the microenvironment in bone development and the pathogenesis and progression of Cancers like Osteosarcoma as well as screening for drug development. Citation Format: Cecilia G. Sanchez, Arman Raz, Haley Lassiter, Trivia Frazier. Human-derived hydrogels for 3D models of bone and osteosarcoma organoids and adipose tissue interactions [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4226.