Cell Stress (Nov 2024)
Neuroglobin-enriched secretome provides neuroprotection against hydrogen peroxide and mitochondrial toxin-induced cellular stress
Abstract
Aberrant response to physiological cell stress is part of the mechanisms underlying the development of diverse human diseases, including neuropathologies. Neuroglobin (NGB), an intracellular monomeric globin, has gained attention for its role in endogenous stress response pathways in neuroprotection. To date, evidence supports the concept of NGB as an inducible protein, triggered by physiological and pathological stimuli via transcriptional and/or post-transcriptional mechanisms, offering cell-autonomous neuroprotective functions under various cellular stresses. Notably, recent evidence suggests the extracellular occurrence of NGB. We aimed to explore whether NGB redistribution in the cell microenvironment may serve in transmitting resilience capability in a model with neuronal characteristics. Results obtained in SH-SY5Y demonstrated that intracellular NGB upregulation is associated with the promotion of the extracellular release of the globin. Additionally, cell secretome from NGB-overexpressing cells, characterized by globin accumulation, exhibits protective effects against oxidative stress and mitochondrial toxicity, as evidenced by reduced apoptosis and preserved mitochondrial structure. These findings shed light on the potential significance of extracellular NGB as part of a common cell response to physiological and stress conditions and as a factor promoting cell resilience. Furthermore, the potential for neuroprotection of extracellular NGB paves the way for future therapeutic opportunities.
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