Molecular Iodine/PPARγ Interaction in the Invasion and Angiogenesis of Neuroblastoma Xenografts
Edgar R. Juvera-Avalos, Gustavo Orizaga-Osti, Evangelina Delgado-Gonzalez, Hilda Lomeli, Brenda Anguiano, Carmen AcevesThe study investigates the impact of molecular iodine (I2) supplementation on the viability, invasiveness, and angiogenic potential of high-risk neuroblastoma (NB). In vitro assays were performed using NB cell lines SK-N-AS (non-MYCN-amplified) and SK-N-BE(2) (MYCN-amplified). The role of peroxisome proliferator-activated receptor gamma (PPARγ) was evaluated using the antagonist GW9662, gene expression (RT-qPCR), and protein levels (Western blot). In vivo, zebrafish xenografts were used to evaluate tumor size, angiogenesis, and caudal cell dissemination. I2 supplementation significantly decreased cell viability in both cell lines, independent of PPARγ activation. In SK-N-BE(2), I2 impaired cell migration, as measured by a wound-healing assay, in apparent independence of PPARγ activation. However, gene expression indicates that I2 acts in complex ways, including direct antioxidant effects and PPARγ-mediated effects. The significant decrease in reactive oxygen species levels (DCFDA staining) and the silencing of the long noncoding RNA myocardial infarction-associated transcript (MIAT) by I2 were directly associated with decreased MYCN and TrkB expression. In contrast, PPARγ activation was accompanied by overexpression of FasN and TrkA and a significant decrease in Aurka, a MYCN-stabilizing protein. In zebrafish, I2-pretreated SK-N-BE(2) xenografts exhibited a clear reduction in angiogenesis (vascular density) and a decrease in invasive capacity. In conclusion, I2 supplementation decreases cell viability and attenuates invasion and angiogenesis in NB cells, highlighting its potential as an adjuvant to conventional therapy for high-risk NB.