Abstract
Microglia, the main immune cells in the brain, participate in the innate immune response in the central nervous system (CNS). Studies have shown that microglia can be polarized into pro-inflammatory M1 and anti-inflammatory M2 phenotypes. Accumulated evidence suggests that over-activated M1 microglia release pro-inflammatory mediators that damage neurons and lead to Parkinson’s disease (PD). In contrast, M2 microglia release neuroprotective factors and exert the effects of neuroprotection. Camptothecin (CPT), an extract of the plant Camptotheca acuminate, has been reported to have anti-inflammation and antitumor effects. However, the effect of CPT on microglia polarization and microglia-mediated inflammation responses has not been reported. In our study we found that CPT improved motor performance of mice and reduced the loss of neurons in the substantia nigra (SN) of the midbrain in LPS-injected mice. In the mechanism study, we found that CPT inhibited M1 polarization of microglia and promotes M2 polarization via the AKT/Nrf2/HO-1 and NF-κB signals. Furthermore, CPT protected the neuroblastoma cell line SH-SY5Y and dopaminergic neuron cell line MN9D from damage mediated by microglia activation. In conclusion, our results demonstrate that CPT regulates the microglia polarization phenotype via activating AKT/Nrf2/HO-1 and inhibiting NF-κB pathways, inhibits neuro-inflammatory responses, and exerts neuroprotective effects in vivo and in vitro.
Highlights
Parkinson’s disease (PD), the most common neurodegenerative disease, seriously affects human health
In order to prove the protective effect of CPT, we studied the effect of CPT treatment on weight loss and motor behavior disorders in the LPS-injected PD mouse model
The results showed that LPS injection caused weight loss in mice, and CPT treatment could significantly improve LPS-induced weight loss in the LPS
Summary
Parkinson’s disease (PD), the most common neurodegenerative disease, seriously affects human health. Accumulated evidence has shown that neuroinflammation participated in the occurrence and development of PD [3, 4]. On the one hand, when the central nervous system is damaged by various pathogenic factors, immune cells are activated, and the resulting inflammatory response can kill harmful pathogens, remove abnormally accumulated proteins and cell fragments, and maintain damaged neurons, playing a role in protecting neurons. On the other hand, when the inflammatory reaction continues, various harmful factors will be released and accumulate in the brain, such as inflammatory chemokines, reactive oxygen species, excitatory amino acid ions, etc., which cause damage to peripheral neurons and lead to PD being further exacerbated [5,6,7]. Proper regulation of neuroinflammation is of great significance for alleviating PD
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