Conclusion
This study suggested LPS(i.p.) -induced peripheral inflammation might cause T cells to infiltrate the brain to regulate microglia-mediated neuroinflammation, thereby protecting DA neurons.
Methods
The effects of intraperitoneal injection of LPS (LPS[i.p.] )-induced peripheral inflammation on substantia nigra (SN) injection of LPS (LPS[SN] )-elicited DA neuronal damage in rat midbrain were investigated. Rats were intraperitoneally injected with LPS (0.5 mg/kg) daily for 4 consecutive days and then given single injection of LPS (8 μg) into SN with an interval of 0 (LPS(i.p.) 0 day ± LPS(SN) ), 30 (LPS(i.p.) 30 days ± LPS(SN) ), and 90 (LPS(i.p.) 90 days ± LPS(SN) ) days after LPS(i.p.) administration.
Results
LPS(i.p.) increased the levels of inflammatory factors in peripheral blood in (LPS(i.p.) 0 day ± LPS(SN) ). Importantly, in (LPS(i.p.) 0 day ± LPS(SN) ) and (LPS(i.p.) 30 days ± LPS(SN) ), LPS(i.p.) attenuated LPS(SN) -induced DA neuronal loss in SN. Besides, LPS(i.p.) reduced LPS(SN) -induced microglia and astrocytes activation in SN. Furtherly, LPS(i.p.) reduced pro-inflammatory M1 microglia markers mRNA levels and increased anti-inflammatory M2 microglia markers mRNA levels. In addition, the increased T-cell marker expression and the decreased M1 microglia marker expression and more DA neuronal survival were discerned at the same area of rat midbrain in LPS(SN) -induced DA neuronal damage 30 days after LPS(i.p.) application.