Decline of cell viability and mitochondrial activity in mouse skeletal muscle cell in a hypomagnetic field

In this study, we created an HMF (<3 μT) by eliminating geomagnetic field (GMF, ∼50 μT) and exposed primary mouse skeletal muscle cells to this low magnetic field condition for a period of three days. HMF‐exposed cells showed a decline in cell viability relative to GMF control, even though cells appeared normal in terms of morphology and survival rate. After a 3‐day HMF‐exposure, glucose consumption of skeletal muscle cells was significantly lower than GMF control, accompanied by less adenosine triphosphate (ATP) and adenosine diphosphate (ADP) content and higher ADP/ATP ratio. In agreement with these findings, mitochondrial membrane potential of HMF‐exposed cells was also lower, whereas levels of cellular Reactive Oxygen Species were higher. Moreover, viability and membrane potential of isolated mitochondria were reduced after 1 h HMF‐exposure in vitro. Our results indicate that mitochondria can directly respond to HMF at functional level, and suggest that HMF‐induced decline in cell functionality results from a reduction in energy production and mitochondrial activity. Bioelectromagnetics. © 2016 Wiley Periodicals, Inc.
Source: Bioelectromagnetics - Category: Radiology Authors: Tags: Research Article Source Type: research