Conclusion
Our data demonstrate that Optn overexpression protects MNs, inhibites cellular apoptosis, improves mitochondrial quality and regulates neuroinflamation in SOD1 G93A mice at the pre-symptomatic stage.
Methods
The murine Optn lentivirus and empty vector lentivirus were injected into SOD1 G93A mice after discovering variations in Optn expression over time. The phenotype onset date, life span, locomotor activity, and pathological changes in the spinal cord were determined and recorded subsequently. In addition, the influences on cellular apoptosis, mitochondrial dynamics, mitophagy, and neuroinflammation were further investigated.
Results
Optn expression was increased in the spinal cord of SOD1 G93A mice at the pre-symptomatic phase, but decreased after disease onset. Optn overexpression led to a 9.7% delay in the onset of disease and improved motor performance in SOD1 G93A mice. Optn overexpression also ameliorated the MNs loss by 46.8%. Moreover, all these ameliorating effects induced by Optn overexpression might be due to the inhibition of cellular apoptosis, improvement of mitochondrial quality, regulation of mitochondrial dynamics, promotion of mitophagy, and anti-inflammatory properties.