The Effect of TNF‐α on Mitochondrial Morphology in Model (NSC‐34) Motor Neurons

Mitochondrial dysfunction and fragmentation precede neuronal death in many neurodegenerative disorders, including those involving motor neurons. In other cell types, pro‐inflammatory agents such as TNF‐α cause marked mitochondrial fragmentation. These inflammatory insults may underlie the vulnerability of specific neurons during age‐associated conditions, such as sarcopenia. We hypothesize that motor neuron exposure to pro‐inflammatory cytokines induces mitochondrial fragmentation. Experiments were conducted using a mouse motor neuron‐like cell line, NSC‐34. These cells were differentiated by serum depletion until neurite structures (>50 um) were observed, ~24 h. The differentiated NSC‐34 cells were then treated with mouse TNF‐α at varying concentrations; control (0 ng), 10 ng/ml, and 20 ng/ml for 24 h. The cells were then loaded with MitoTracker Green to image mitochondria using a Nikon A1R confocal microscope (60x oil immersion 1.4 NA). Images were analyzed using MatLab macro to calculate form factor, aspect ratio and mitochondrial volume density. TNF‐α exposure caused mitochondrial fragmentation as reflected by decreased form factor (27% reduction) and aspect ratio (12 % reduction). These results are consistent with inflammatory cytokine exposure leading to mitochondrial fragmentation in motor neurons which may increase their vulnerability mitochondrial dysfunction and cell death. Support or Funding Information NIH: RO1AG044615 This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal .