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Thermomagnetic Resonance Effect of the Extremely Low Frequency Electromagnetic Field on Three-Dimensional Cancer Models

Loredana Bergandi, Umberto Lucia, Giulia Grisolia, Iris C. Salaroglio, Iacopo Gesmundo, Riccarda Granata, Romano Borchiellini, Antonio Ponzetto, Francesca Silvagno

2022International Journal of Molecular Sciences20 citationsDOIOpen Access PDF

Abstract

In our recent studies, we have developed a thermodynamic biochemical model able to select the resonant frequency of an extremely low frequency electromagnetic field (ELF-EMF) specifically affecting different types of cancer, and we have demonstrated its effects in vitro. In this work, we investigate the cellular response to the ELF electromagnetic wave in three-dimensional (3D) culture models, which mimic the features of tumors in vivo. Cell membrane was modelled as a resistor-capacitor circuit and the specific thermal resonant frequency was calculated and tested on two-dimensional (2D) and three-dimensional (3D) cell cultures of human pancreatic cancer, glioblastoma and breast cancer. Cell proliferation and the transcription of respiratory chain and adenosine triphosphate synthase subunits, as well as uncoupling proteins, were assessed. For the first time, we demonstrate that an ELF-EMF hampers growth and potentiates both the coupled and uncoupled respiration of all analyzed models. Interestingly, the metabolic shift was evident even in the 3D aggregates, making this approach particularly valuable and promising for future application in vivo, in aggressive cancer tissues characterized by resistance to treatments.

Topics & Concepts

Cancer cellIn vivoElectromagnetic fieldExtremely low frequencyCell cultureCancerIn vitroChemistryBiologyBiophysicsCell biologyNuclear magnetic resonanceCancer researchPhysicsBiochemistryQuantum mechanicsBiotechnologyGeneticsthermodynamics and calorimetric analysesAdvanced Thermodynamics and Statistical MechanicsGene Regulatory Network Analysis
Thermomagnetic Resonance Effect of the Extremely Low Frequency Electromagnetic Field on Three-Dimensional Cancer Models | Litcius