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Methamphetamine abuse and HIV infection are extremely serious public health and social problems facing the world today. Methamphetamine and HIV-1 Tat protein can induce neurotoxicity in an individual and synergistic way, and neuroinflammation is one of the most important mechanisms for ca-using neurotoxicity. Neuroinflammation can be mediated by glial cells, cytokines, NLRP3 inflammasomes, etc. This paper reviews the research progress of neuroinflammation induced by methamphetamine and HIV-1 Tat protein in recent years, with the aim of providing reference and basis for further exploration of the mechanisms of neuroinflammation caused by them and effective drug intervention targets in the future.
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Brain diseases such as stroke, Alzheimer s disease, epilepsy, have always been worldwide problems that endanger human health and are costly disease from societal perspectives. In recent years, more and more attention has been paid to the relationship between components of neurovascular unit (cerebrovascular endothelial cell, microglia, astrocyte and neuron) and brain diseases. Not only have their structures changed during the pathological process, but also coupling communication and functions have changed accordingly. On the basis of summarizing previous studies on the abnormalities in intercellular communication and its mechanism with brain disorders, this review is expected to find novel targets or therapeutic treatment for neuropsychiatric diseases.
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Objective To investigate whether toll like receptor ( TLR) signaling pathways can in-crease the expression of IL-17 R in neuralglial cells , and if they can whether the increased IL-17 R is func-tional.Methods Experimental autoimmune encephalomyelitis (EAE) was induced in B6 mice by immuni-zation with an emulsion of myelin oligodendrocyte glycoprotein 35-55 ( MOG35-55 ) in complete Freund's adju-vant (CFA).The expression of Il17ra and Il17rc in the brains and spinal cords of mice with EAE were de-tected by real-time PCR.Luxol fast blue ( LFB) staining was performed to the spinal cord sections to detect tissue demyelination.Immunohistological staining against IL-17RA and CD3 were undertook to visualize IL-17RA+and CD3 + cells.Same approaches were also applied to immunized Rag1 -/- mice to figure out whether T cells infiltration is necessary for increasing IL-17RA expression in the central nervous system ( CNS) .Then B6 mice were immunized with incomplete Freund′s adjuvant ( IFA) plus different TLRs ago-nists to measure the expression of Il17ra in the brains and spinal cords by qPCR .The purified astrocytes , microglia and oligodendrocytes isolated from neonatal mice brains were cultured in vitro for two weeks , and then treated with different TLRs agonists .The expression of Il17ra at mRNA and protein levels in the cells were determined by qPCR and Western blot respectively .The astrocytes were treated with IL-17A and LPS individually or in the combination to detect the level of CCL 2, CXCL8 and IP-10 in the supernatant by ELISA.Results B6 mice with induced EAE showed significantly increased Il17ra expressions in the brain and spinal cord , which was also detected in immunized Rag1 -/-mice.Although no spinal cord demyeliza-tion and CD3 cells infiltration were detected in Rag1 -/-mice, significantly increased number of IL-17RA positive cells could still be visualized .In vivo TLRs agonist participated immunization and in vitro treatment of purified neuroglial cells demonstrated that TLRs agonists could directly evoke IL -17RA expression in the CNS or cultured astrocytes , microglia and oligodendrocytes with high efficiency .Both IL-17 A and LPS could stimulate astrocytes to secrete CCL2, CXCL8 and IP-10, however, a combined use of IL-17A and LPS fur-ther augmented the production of these chemokines to a large extend .Conclusion Taken together , we con-cluded that TLRs agonists could directly stimulate neuroglial cells to express IL -17RA which functionally re-spond to IL-17A by secreting chemokines .
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Objective To investigate the effects of nerve growth factor(NGF) on metabolism and function of neuroglial cells in the normal mice and the nonobese diabetic(NOD) mice.Methods The mice were divided into normol group and NOD group(n=10).The neuroglial cells abstracted from the normal mice and the NOD mice were randomly divided into control (with RPMI-1640) and 4 experimental groups(n=10);5,10 and 20 ?g? L1NGF and 20 ?g?L1LPS +10 ?g?L-1NGF were used in experimental groups.The activity of superoxide dismutase(SOD) and malonic dialdehyde(MDA) content in the culture solution were detected with xanthine oxidase and TBA methods.Results Compared with control group of normal mice,the activity of SOD and MDA content in neuroglial cells of the NOD mice were significantly decreased(P
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AIM: To establish recombination plasmid pEGFP-NGB and to investigate the expression of pEGFP-NGB in culture neuroglia cells. METHODS: The NGB cds was isolated by using RT-PCR method with total RNA extracted from fetal Kunming mouse brain, then the NGB cds was cloned into the eukaryotic expression vector pEGFP-C1 of EGFP reported green fluorescence protein. The expression vector of recombinant plasmid pEGFP-NGB was successfully constructed. GeneJamer transfection reagent was used to transfer recombinant plasmid pEGFP-NGB into culture neuroglial cells. The mRNA and protein expression of pEGFP-NGB in culture neuroglial cells were investigated. RESULTS: The positive clone sequencing was consistent with the sequence of Genbank. The NGB mRNA and protein expression of pEGFP-NGB in culture neuroglial cells were detected at high levels. The high expression of green fluorescence protein was observed by fluorescence microscope in culture neuroglial cells. CONCLUSION: The expression vector of recombinant plasmid pEGFP-NGB was successfully constructed and green fluorescence protein was expressed in cultured neuroglial cells.
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Objective To investigate the dedifferentiation of neuroglial cells and its induction after optic nerve injury. Methods Adult male SD rats were randomly divided into 4 groups the normal control group,the injury group,the transplantation group and the microcrush and transplantation group.Optic nerves were harvested at days 3,7,14 and 28 after the operation.HE staining was used to count the number of neuroglial cells.Immunohistochemistry,Western blotting and in situ hybridization histochemistry were employed together with computerized image analysis to evaluate the expressions of Nestin,GFAP,MBP,NF,BDNF,Nogo-A and Nogo-A mRNA.Immunofluorescence double staining was used to detect the co-expression of Nestin and GFAP or Nestin and MBP. Results The number of cells only increased at day 7 after the nerve injury, the expressions of Nestin,MBP,Nogo-A and Nogo-A mRNA were up-regulated,the expressions of GFAP,NF and BDNF were down-regulated,and some Nestin-GFAP positive cells and a few of Nestin-MBP positive cells were detected in the injury group.Compared with the injury group,the number of cells was increased sometime after the nerve injury;the expressions of Nestin,GFAP,BDNF and NF were up-regulated,the expressions of MBP,Nogo-A and Nogo-A mRNA were down-regulated,and the number of Nestin-GFAP positive cells increased in the transplantation group and the microcrush and transplantation group.Conclusion After optic nerve injury,some astrocytes undergo dedifferentiation while the macroglial cells display a gene expression pattern that is unfavorable for nerve regeneration.Pre-degenerated peripheral nerves could enhance the dedifferentiation of astrocytes and induce the gene expression pattern of macroglial cells that is favorable for nerve regeneration.