In the current study, we demonstrated a phenotypic and functional transformation of adult ALS mice microglia that overexpress mutant superoxide dismutase (mSOD1). mSOD1 microglia isolated from ALS mice at disease onset expressed higher levels of Ym1, CD163 and BDNF (markers of M2) mRNA and lower levels of Nox2 (a marker of M1) mRNA compared with mSOD1 microglia isolated from ALS mice at end-stage disease.
Recent studies have implicated enhanced Nox2-mediated reactive oxygen species (ROS) by microglia in the pathogenesis of motor neuron death observed in familial amyotrophic lateral sclerosis (ALS).
A decrease in NF-κB and NADPH oxidase 2 with an increase in arginase 1 and P2Y12 receptor was induced by histamine only in the ALS inflammatory environment, but not in the healthy microglia, together with an increase in IL-6, IL-10, CD163, and CD206 phenotypic markers in SOD1-G93A cells.
Nox activity in spinal cords from Nox2 heterozygous female ALS mice was approximately 50% that of WT female ALS mice, suggesting that random X-inactivation was not influenced by Nox2 gene deletion.
A substantial (10-60 times) increase of NOX2 expression was detected in three etiologically different ALS mouse models while up-regulation of some other NOX isoforms was model-specific.
In ALS/FTD patient-derived neurons or tissues, a reduction in C9orf72 function is associated with dysregulation in the levels of CARM1, fatty acids, and NADPH oxidase NOX2.