3D bioprinting of an in vitro hepatoma microenvironment model: Establishment, evaluation, and anticancer drug testing

Abstract

Tumor behavior, including its response to treatments, is influenced by interactions between mesenchymal and malignant cells, as well as their spatial arrangement. To study tumor biology and evaluate anticancer drugs, accurate 3D tumor models are essential. Here, we developed an in vitro biomimetic hepatoma microenvironment model by combining an extracellular matrix (3DM-7721). Initially, the internal grid structure, composed of 10/6 % GelMA/gelatin loaded with SMMC-7721 cells, was printed using 3D bioprinting. The external component consisted of fibroblasts and human umbilical vein endothelial cells loaded with 10/3 % GelMA/gelatin. A control model (3DP-7721) lacked external cell loading. GelMA/gelatin hydrogels provided robust structural support and biocompatibility. The SMMC-7721 cells in the 3DM-7721 model exhibit superior tumor-associated gene expression and proliferation characteristics when compared to the 3DP-7721 model. Furthermore, the 3DM-7721 type exhibited increased resistance to anticancer agents. SMMC-7721 cells in the 3DM-7721 model exhibit significant tumorigenicity in nude mice. The 3DM-7721 model group showed pathological characteristics of malignant tumors, with a high degree of deterioration, and a significant positive correlation between malignant tumor-related gene pathways. This high-fidelity 3DM-7721 tumor microenvironment model is invaluable for studying tumor progression, devising effective treatment strategies, and discovering drugs. Statement of significance1.A hepatoma microenvironment model (3DM-7721) incorporating an extracellular matrix that is designed to establish solid tumor models in vitro.2.This model contains a 3D-printed internal tumor component of liver cancer cells loaded with 10/6 % gelatin methacrylate (GelMA)/gelatin (the 3DP-7721 model) and an external extracellular-matrix component of fibroblasts and human umbilical vein endothelial cells loaded with 10/3 % GelMA/gelatin.3.The 3DM-7721 model outperforms the 3DP-7721 model in terms of the SMMC-7721 cell proliferation characteristics and tumorigenicity, tumor-related gene expression, anticancer drug resistance, and malignant tumor characteristics.