AIM:To explore the effects of αA-crystallin in astrocyte gliosis after optic nerve crush(ONC) and the mechanism of α-crystallin in neuroprotection and axon regeneration.METHODS:ONC was established on the Sprague...AIM:To explore the effects of αA-crystallin in astrocyte gliosis after optic nerve crush(ONC) and the mechanism of α-crystallin in neuroprotection and axon regeneration.METHODS:ONC was established on the SpragueDawley rat model and αA-crystallin(10 -4 g/L,4 μL) was intravitreously injected into the rat model.Flash-visual evoked potential(F-VEP) was examined 14 d after ONC,and the glial fibrillary acidic protein(GFAP) levels in the retina and crush site were analyzed 1,3,5,7 and 14 d after ONC by immunohistochemistry(IHC) and Western blot respectively.The levels of beta Tubulin(TUJ1),growth-associated membrane phosphoprotein-43(GAP-43),chondroitin sulfate proteoglycans(CSPGs) and neurocan were also determined by IHC 14 d after ONC.RESULTS:GFAP level in the retina and the optic nerve significantly increased 1d after ONC,and reached the peak level 7d post-ONC.Injection of αA-crystallin significantly decreased GFAP level in both the retina and the crush site 3d after ONC,and induced astrocytes architecture remodeling at the crush site.Quantification of retinal ganglion cell(RGC) axons indicated αAcrystallin markedly promoted axon regeneration in ONC rats and enhanced the regenerated axons penetrated into the glial scar.CSPGs and neurocan expression also decreased 14 d after αA-crystallin injection.The amplitude(N1-P1) and latency(P1) of F-VEP were also restored.CONCLUSION:Our results suggest α-crystallin promotes the axon regeneration of RGCs and suppresses the activation of astrocytes.展开更多
Objective:Age-relate cataract(ARC)is a disease of the eyes with no effective drugs to prevent or treat patients.The aim of the present study is to determine whether histone H3,αA-crystallin(CRYAA),β-galactosidase(GL...Objective:Age-relate cataract(ARC)is a disease of the eyes with no effective drugs to prevent or treat patients.The aim of the present study is to determine whether histone H3,αA-crystallin(CRYAA),β-galactosidase(GLB1),and p53 are involved in the pathogenesis of ARC.Methods:A total of 99 anterior lens capsules(ALCs)of patients with ARC of various nuclear grades,ultraviolet models of ALCs,and two human lens epithelial cell lines(FHL-124 and SRA01/04)were used,and the expression of histone H3,CRYAA,GLB1,and p53 were detected by immunoblotting and reverse transcription and real time-quantitative polymerase chain reaction.The association between CRYAA with histone H3,GLB1,and p53 was assessed in FHL-124 and SRA01/04 cells following CRYAA overexpression.Results:Histone H3 and p53 in ALCs of patients with ARC were up-regulated in a grade-dependent manner,and the expression of CRYAA showed a positive association with histone H3,p53,and GLB1.In UV models of ALCs and human lens epithelial cell lines,the expression levels of histone H3,cell apoptosis factors(Bax/Bcl-2,cleaved caspase-3),and inflammation factors(interleukin-6,tumor necrosis factor-α)were all up-regulated.Furthermore,transfection of CRYAA in FHL-124 cells induced overexpression of histone H3.Conclusion:CRYAA-mediated upregulation of histone H3 may be involved in the pathogenesis of ARC.p53 may also have a role in ARC development,but not via the CRYAA-histone H3 axis.The results of the present study may assist in improving our understanding of the pathogenesis of ARC and in identifying potential targets for treatment.展开更多
As small heat shock proteins,α-crystallins function as molecular chaperones and inhibit the misfolding and aggregation ofβ/γ-crystallins.Genetic mutations of CRYAA are associated with protein aggregation and catara...As small heat shock proteins,α-crystallins function as molecular chaperones and inhibit the misfolding and aggregation ofβ/γ-crystallins.Genetic mutations of CRYAA are associated with protein aggregation and cataract occurrence.One possible process underlying cataract formation is that endoplasmic reticulum stress(ERS)induces the unfolded protein response(UPR),leading to apoptosis.However,the pathogenic mechanism related to this remains unexplored.Here,we successfully constructed a cataract-causing CRYAA(Y118D)mutant mouse model,in which the lenses of the CRYAA-Y118D mutant mice showed severe posterior rupture,abnormal morphological changes,and aberrant arrangement of crystallin fibers.Histological analysis was consistent with the clinical pathological characteristics.We also explored the pathogenic factors involved in cataract development through transcriptome analysis.In addition,based on key pathway analysis,up-regulated genes in CRYAAY118D mutant mice were implicated in the ERS-UPR pathway.This study showed that prolonged activation of the UPR pathway and severe stress response can cause proteotoxic and ERS-induced cell death in CRYAA-Y118D mutant mice.展开更多
基金Supported by the National Nature Science Foundation of China(No.81270996)
文摘AIM:To explore the effects of αA-crystallin in astrocyte gliosis after optic nerve crush(ONC) and the mechanism of α-crystallin in neuroprotection and axon regeneration.METHODS:ONC was established on the SpragueDawley rat model and αA-crystallin(10 -4 g/L,4 μL) was intravitreously injected into the rat model.Flash-visual evoked potential(F-VEP) was examined 14 d after ONC,and the glial fibrillary acidic protein(GFAP) levels in the retina and crush site were analyzed 1,3,5,7 and 14 d after ONC by immunohistochemistry(IHC) and Western blot respectively.The levels of beta Tubulin(TUJ1),growth-associated membrane phosphoprotein-43(GAP-43),chondroitin sulfate proteoglycans(CSPGs) and neurocan were also determined by IHC 14 d after ONC.RESULTS:GFAP level in the retina and the optic nerve significantly increased 1d after ONC,and reached the peak level 7d post-ONC.Injection of αA-crystallin significantly decreased GFAP level in both the retina and the crush site 3d after ONC,and induced astrocytes architecture remodeling at the crush site.Quantification of retinal ganglion cell(RGC) axons indicated αAcrystallin markedly promoted axon regeneration in ONC rats and enhanced the regenerated axons penetrated into the glial scar.CSPGs and neurocan expression also decreased 14 d after αA-crystallin injection.The amplitude(N1-P1) and latency(P1) of F-VEP were also restored.CONCLUSION:Our results suggest α-crystallin promotes the axon regeneration of RGCs and suppresses the activation of astrocytes.
基金This work was supported by the Nature Science Foundation of China(81470618)the Scientific Research Foundation of First Affiliated Hospital of Harbin Medical University(2017B013).
文摘Objective:Age-relate cataract(ARC)is a disease of the eyes with no effective drugs to prevent or treat patients.The aim of the present study is to determine whether histone H3,αA-crystallin(CRYAA),β-galactosidase(GLB1),and p53 are involved in the pathogenesis of ARC.Methods:A total of 99 anterior lens capsules(ALCs)of patients with ARC of various nuclear grades,ultraviolet models of ALCs,and two human lens epithelial cell lines(FHL-124 and SRA01/04)were used,and the expression of histone H3,CRYAA,GLB1,and p53 were detected by immunoblotting and reverse transcription and real time-quantitative polymerase chain reaction.The association between CRYAA with histone H3,GLB1,and p53 was assessed in FHL-124 and SRA01/04 cells following CRYAA overexpression.Results:Histone H3 and p53 in ALCs of patients with ARC were up-regulated in a grade-dependent manner,and the expression of CRYAA showed a positive association with histone H3,p53,and GLB1.In UV models of ALCs and human lens epithelial cell lines,the expression levels of histone H3,cell apoptosis factors(Bax/Bcl-2,cleaved caspase-3),and inflammation factors(interleukin-6,tumor necrosis factor-α)were all up-regulated.Furthermore,transfection of CRYAA in FHL-124 cells induced overexpression of histone H3.Conclusion:CRYAA-mediated upregulation of histone H3 may be involved in the pathogenesis of ARC.p53 may also have a role in ARC development,but not via the CRYAA-histone H3 axis.The results of the present study may assist in improving our understanding of the pathogenesis of ARC and in identifying potential targets for treatment.
基金This study was supported by the National Natural Science Foundation of China(31872724,81900837,81870641,82070939)Zhejiang Province Key Research and Development Program(2019C03091,2020C03035)。
文摘As small heat shock proteins,α-crystallins function as molecular chaperones and inhibit the misfolding and aggregation ofβ/γ-crystallins.Genetic mutations of CRYAA are associated with protein aggregation and cataract occurrence.One possible process underlying cataract formation is that endoplasmic reticulum stress(ERS)induces the unfolded protein response(UPR),leading to apoptosis.However,the pathogenic mechanism related to this remains unexplored.Here,we successfully constructed a cataract-causing CRYAA(Y118D)mutant mouse model,in which the lenses of the CRYAA-Y118D mutant mice showed severe posterior rupture,abnormal morphological changes,and aberrant arrangement of crystallin fibers.Histological analysis was consistent with the clinical pathological characteristics.We also explored the pathogenic factors involved in cataract development through transcriptome analysis.In addition,based on key pathway analysis,up-regulated genes in CRYAAY118D mutant mice were implicated in the ERS-UPR pathway.This study showed that prolonged activation of the UPR pathway and severe stress response can cause proteotoxic and ERS-induced cell death in CRYAA-Y118D mutant mice.