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Mesenchymal stem cell-derived exosomes regulate microglia phenotypes:a promising treatment for acute central nervous system injury 被引量:8
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作者 Yu-Yan Liu Yun Li +8 位作者 Lu Wang Yan Zhao Rui Yuan Meng-Meng Yang Ying Chen Hao Zhang Fei-Hu Zhou Zhi-Rong Qian Hong-Jun Kang 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第8期1657-1665,共9页
There is growing evidence that long-term central nervous system(CNS)inflammation exacerbates secondary deterioration of brain structures and functions and is one of the major determinants of disease outcome and progre... There is growing evidence that long-term central nervous system(CNS)inflammation exacerbates secondary deterioration of brain structures and functions and is one of the major determinants of disease outcome and progression.In acute CNS injury,brain microglia are among the first cells to respond and play a critical role in neural repair and regeneration.However,microglial activation can also impede CNS repair and amplify tissue damage,and phenotypic transformation may be responsible for this dual role.Mesenchymal stem cell(MSC)-derived exosomes(Exos)are promising therapeutic agents for the treatment of acute CNS injuries due to their immunomodulatory and regenerative properties.MSC-Exos are nanoscale membrane vesicles that are actively released by cells and are used clinically as circulating biomarkers for disease diagnosis and prognosis.MSC-Exos can be neuroprotective in several acute CNS models,including for stroke and traumatic brain injury,showing great clinical potential.This review summarized the classification of acute CNS injury disorders and discussed the prominent role of microglial activation in acute CNS inflammation and the specific role of MSC-Exos in regulating pro-inflammatory microglia in neuroinflammatory repair following acute CNS injury.Finally,this review explored the potential mechanisms and factors associated with MSCExos in modulating the phenotypic balance of microglia,focusing on the interplay between CNS inflammation,the brain,and injury aspects,with an emphasis on potential strategies and therapeutic interventions for improving functional recovery from early CNS inflammation caused by acute CNS injury. 展开更多
关键词 acute CNS injury central nervous system inflammation exosome immune regulation mesenchymal stem cell mesenchymal stem cell-derived exosomes(MSC-Exos) microglia activation microglia phenotypic transformation molecular mechanism neuroinflammation
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Integrated network pharmacology and experimental verification to explore the mechanism of Sangqi Qingxuan formula against hypertensive vascular remodeling
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作者 Lingling Li Jiayun Wu +4 位作者 Ruiqi Yao Deshuang Yang Ying Chen Jin Zhang Li Huang 《Journal of Traditional Chinese Medical Sciences》 CAS 2022年第3期277-288,共12页
Objective: To investigate the bioactive components of Sangqi Qingxuan formula(SQQX), predict the pharmacological targets, and explore the mechanism of hypertensive vascular remodeling(HVR).Methods: Network pharmacolog... Objective: To investigate the bioactive components of Sangqi Qingxuan formula(SQQX), predict the pharmacological targets, and explore the mechanism of hypertensive vascular remodeling(HVR).Methods: Network pharmacology was adopted to predict how SQQX acts in HVR. The effectiveness was assessed by blood pressure measurements and pathological morphology observation based on a spontaneously hypertensive rat model, while the mechanism of SQQX on HVR was validated by immunohistochemistry(IHC) and western blot(WB) according to the results of network pharmacology.Results: There were 130 bioactive components of SQQX and 231 drug targets predicted by the Traditional Chinese Medicine Systems Pharmacology Database. Subsequently, 181 common targets were identified for SQQX against HVR, with TP53, MAPK1, and AKT1 as the core targets. Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analyses was employed to identify the top 20 enriched functions and the top 20 pathways(P <.01). Finally, the key role of the ERK/MAPK signaling pathway in HVR was determined. The in vivo results suggested that SQQX reduced systolic blood pressure and increased the ratio of thoracic aortic wall thickness to lumen diameter. Additionally, compared with the model group, SQQX increased the expression of smooth muscle 22 alpha(IHC: P <.001;WB:P <.05) and decreased the expression of osteopontin(IHC: P <.001;WB: P <.05), ERK1/2(IHC: P <.001;WB: ERK1 & ERK2, all P <.05), p-ERK1/2(IHC: P <.001;WB: ERK1 & ERK2, all P <.05), and the ratio of pERK1/2 to ERK1/2 protein(IHC: P <.001).Conclusions: SQQX, which has multiple bioactive ingredients and potential targets, is an effective treatment for HVR. The mechanism of antihypertensive and vascular protection may be related to the inhibition of phenotypic transformation of vascular smooth muscle cells and the ERK/MAPK signaling pathway. 展开更多
关键词 Sangqi Qingxuan formula Network pharmacology Hypertensive vascular remodeling Action mechanism Experimental verification Spontaneously hypertensive rats phenotypic transformation ERK/MAPK pathway
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Two mutations in the transforming growth factor beta-induced gene associated with familial Lattice corneal dystrophy 被引量:2
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作者 Wen-Ping Cao Hai-Gang Yuan +2 位作者 Ping Liu Xue Li Qi Hu 《International Journal of Ophthalmology(English edition)》 SCIE CAS 2017年第3期343-347,共5页
AIM:To report a phenotypic variant pedigree of lattice corneal dystrophy(LCD)associated with two mutations,R124C and A546 D,in the transforming growth factor betainduced gene(TGFBI).METHODS:A detailed ocular exa... AIM:To report a phenotypic variant pedigree of lattice corneal dystrophy(LCD)associated with two mutations,R124C and A546 D,in the transforming growth factor betainduced gene(TGFBI).METHODS:A detailed ocular examination was taken for all participants of a LCD family. Peripheral blood leukocytes from each participant were extracted to obtain the DNA. Polymerase chain reaction(PCR)of all seventeen exons of TGFBI gene was performed. The products were sequenced and analyzed. Histological examination was carried out after a penetrating keratoplasty from the right eye of proband. RESULTS:Genetic analysis showed that the proband and all 6 affected individuals harbored both a heterozygous CGC to TGC mutation at codon 124 and a heterozygous GCC to GAC mutation at codon 546 of TGFBI. None of the 100 control subjects and unaffected family members was positive for these two mutations. Ocular examination displayed multiple refractile lattice-like opacities in anterior stroma of the central cornea and small granular deposits in the peripheral cornea. The deposits were stained positively with Congo red indicating be amyloid in nature and situated mainly in the anterior and middle stroma. CONCLUSION:We observed a novel LCD family which carried two pathogenic mutations(R124C and A546D)in the TGFBI gene. The phenotypic features were apparently different from those associated with corresponding single mutations. The result reveals that although the definite mutation is the most important genetic cause of the disease,some different modifier alleles may influence the phenotype. 展开更多
关键词 corneal dystrophy mutation phenotype transforming growth factor beta-induced gene
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