Glioblastoma progression is hindered by melatonin-primed mesenchymal stromal cells through dynamic intracellular and extracellular reorganizations
Laura Olmedo-Moreno, Concepción Panadero‐Morón, Jesús María Sierra-Párraga, Rubén Bueno-Fernández, Emily S. Norton, Yolanda Aguilera, Nuria Mellado-Damas, Patricia García-Tárraga, Raquel Morales‐Gallel, María Antequera-Martínez, Raúl V. Durán, Jaime Ferrer-Lozano, Germaine Escames, José Manuel García‐Verdugo, Alejandro Martín‐Montalvo, Hugo Guerrero‐Cazares, Vivian Capilla‐González
Abstract
Rationale: Glioblastoma (GBM) is the most fatal form of brain cancer and its treatment represents a persistent challenge.Mesenchymal stromal cells (MSCs) have been explored as therapeutic tools in cancer management owing to their tumor-homing abilities.However, their clinical application is limited due to the controversial role of MSCs in carcinogenesis.This study investigates how MSCs influence tumor behavior and explores the synergistic anticancer effects in combination with melatonin (Mel).Methods: Orthotopic and subcutaneous GBM xenograft mouse models were used to assess the antitumor effect of Mel pre-treated MSCs (MSC Mel ).Histological, immunohistochemical, and ultrastructural analyses were conducted to identify phenotypic changes in tumors.Through a set of in vitro assays, including direct and indirect co-cultures, dynamic single-cell tracking and tumorsphere assay, we explored the impact of MSC Mel on primary and non-primary GBM cells.Transcriptomic profiling was used to identify genes and pathways modulated by this synergistic therapy.Results: MSC Mel delayed tumor growth in mice and increased collagen deposition.Additionally, MSC Mel showed enhanced capacity to prevent GBM cell migration compared to untreated MSCs.Molecular analysis identified genes and proteins related to cell migration, cytoskeletal dynamics and extracellular matrix remodeling in GBM cells exposed to MSC Mel , including reduced vimentin expression.Finally, a genetic signature associated with the clinical outcomes of GBM patients was identified.Conclusions: Our study demonstrates that melatonin enhances the anticancer properties of MSCs, providing new insights into their interaction with GBM cells and tumor environment.These findings offer valuable guidance for advancing MSC-based therapies in clinical practice.