Ginsenoside Rb1 attenuates lipopolysaccharide-induced chronic neuroinflammation in mice by tuning glial cell polarization

Objective:To evaluate whether ginsenoside Rb1(Rb1) can attenuate lipopolysaccharide(LPS)-induced chronic neuroinflammation in mice and to explore its relationship with glial cell polarization.Methods:Intraperitoneal injection with an escalating dose of LPS was used to establish a chronic neuroinflammation model in mice.Once LPS was initiated,10 or 20 mg/kg Rbl,or sterile saline,was administered for 14 consecutive days.Open field test and beam walking test were used to monitor the changes in behavior.The concentration of cytokines in the serum and brain were used to monitor the systemic inflammation and neuroinflammation,respectively.Molecules specific to each glial cell phenotype were used to investigate glial cell polarization.Results:Mice in the LPS group had reduced spontaneous activities and impaired beam walking performance.Rbl obviously eased LPS-induced behavior distu rbances.Regarding the levels of serum cytokines,both tumor necrosis factor-α(TNF-α) and interleukin-1β(IL-1β) were significantly increased,while interleukin-10(IL-10) and transforming growth factor β(TGF-β) remarkably decreased after LPS treatment(all P <.001).Rb1 treatment significantly attenuated LPS-induced serum cytokine changes(all P <.05).The results of quantitative polymerase chain reaction and western blotting showed that the mRNA and protein expression levels of TNF-α and complement component 3(C3) in the brain were significantly increased after LPS treatment(all P<.01).Rbl treatment significantly inhibited LPS-induced inflammation in the brain(all P <.05).Glial cell polarization analysis showed that M1 and M2 microglia,and A1 astrocytes increased following LPS treatment,while A2 astrocytes decreased.Rb1 treatment reduced M1 and M2 microglia,and A1 astrocytes,and significantly increased A2 astrocytes.Conclusion:Rb1 can attenuate chronic neuroinflammation induced by LPS in mice,which may be partially attributable to its fine tuning of microglia and astrocyte polarization.Rb1 has potential value for treating neurodegenerative diseases.

Glymphatic system:a gateway for neuroinflammation

The glymphatic system is a relatively recently identified fluid exchange and transpo rt system in the brain.Accumulating evidence indicates thatglymphatic function is impaired not only in central nervous system disorders but also in systemic diseases.Systemic diseases can trigger the inflammatory responses in the central nervous system,occasionally leading to sustained inflammation and functional disturbance of the central nervous system.This review summarizes the current knowledge on the association between glymphatic dysfunction and central nervous system inflammation.In addition,we discuss the hypothesis that disease conditions initially associated with peripheral inflammation ove rwhelm the performance of the glymphatic system,thereby triggering central nervous system dysfun ction,chronic neuroinflammation,and neurodegeneration.Future research investigating the role of the glymphatic system in neuroinflammation may offer innovative therapeutic approaches for central nervous system disorders.