Effects and mechanisms of iron overload on the proliferation and differentiation of preosteoblastic cells via a 3D microsphere culture system
Yu Pan, Xiaojing Luo, Renfeng Zhao, Chengdong Zhang, Xuwei Luo, Gang Feng, Dongqin Xiao

TL;DR
A 3D cell culture system reveals how iron overload affects bone cell growth and function, offering new insights into osteoporosis.
Contribution
A novel 3D microsphere culture system was developed to better model the effects of iron overload on preosteoblastic cells.
Findings
Iron overload reduced cell viability and inhibited osteogenesis in both 2D and 3D cultures.
3D-cultured cells showed enhanced resilience with lower ROS levels and preserved cytoskeletal integrity.
Transcriptomics revealed activation of NF-κB and DNA replication pathways in 3D cultures.
Abstract
Iron overload-related osteoporosis has garnered significant attention, yet its pathological mechanisms remain unclear. Traditional two-dimensional (2D) culture systems often fail to recapitulate the extracellular matrix (ECM) microenvironment, leading to discrepancies between in vitro and in vivo findings. We developed a three-dimensional (3D) culture system using methacrylated gelatin (GelMA) microspheres to culture preosteoblastic cells, simulate the bone microenvironment under iron overload conditions, and systematically examine changes in cellular morphology, viability, function, and gene expression. Iron overload impaired cell viability, induced oxidative stress, and inhibited osteogenesis in both 2D and 3D cultures. However, cells in 3D exhibited enhanced resilience, including reduced ROS levels, higher viability, preserved cytoskeletal integrity, and less apoptosis and G1-phase…
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Taxonomy
TopicsBone Metabolism and Diseases · Bone Tissue Engineering Materials · TGF-β signaling in diseases
