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Objective:To investigate the clinical significance of protein disulfide isomerase A3 (PDI) A3 (PDIA3) expression in hepatocellular carcinoma tissues and its effect of PDIA3 on the expression of IL6 and IL17 in hepatocellular carcinoma cells.Methods:Immunohistochemistry was used to detect the expression of PDIA3 in the tissues of 72 patients with liver cancer and their adjacent tissues. HepG2 cells were divided into experimental group and control group. The cells in the experimental group were transfected with PDIA3-siRNA plasmid, and the cells in the control group were transfected with MOCK-siRNA plasmid. Fluorescence quantitative PCR was used to detect the content of PDIA3 mRNA in each group of cells. The expressions of PDIA3, IL6 and IL17 in each group of cells were detected by Western blot. The proliferation ability of each group of cells was detected by CCK8.Results:The positive rate of PDIA3 in liver cancer tissues was 85.22% (75/88), and the expression rate in adjacent tissues was 6.81% (6/88). The expression rate of PDIA3 in liver cancer tissues was significantly higher than that in adjacent tissues. The difference was statistically significant ( P<0.001). After transfection of siRNA, the expression levels of PDIA3 mRNA in HepG2 cells in the experimental group and control group were 1.23±0.20 and 0.43±0.12, respectively, and the expression levels of PDIA3 protein were 1.19±0.11 and 0.23±0.08, respectively. The expression levels of IL6 were 1.11±0.15 and 0.57±0.09, respectively. The expression levels of IL17 were 1.19±0.14 and 0.45±0.08, respectively, and the expressions of IL6 and IL17 were significantly decreased (all P<0.05). The absorbance of HepG2 cells in the experimental group and the control group at 120 h was 2.28±0.10 and 1.11±0.09, respectively, and the cell proliferation ability of the experimental group was significantly decreased ( P<0.05) . Conclusions:The expression of PDIA3 is significantly increased in hepatocellular carcinoma, which may be related to the malignancy of hepatocellular carcinoma. PDIA3 affects the proliferation of hepatocellular carcinoma cells by regulating the expression of IL6 and IL17.
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Objective To evaluate the expression of the total serum IgG and IgG subclasses of anti-PDIA3 antibody (PDIA3 Ab) in patients with autoimmune thyroiditis (AIT) and discuss its association with thyroid peroxidase antibody (TPOAb), thyroglobulin antibody (TgAb), and thyroid function. Methods The PDIA3 Ab total serum IgG and IgG subtype levels were detected by ELISA and thyrotrophin (TSH), free triiodothyronine (FT3), free thyroxine (FT4), TPOAb, and TgAb serum levels were detected by electrochemiluminescence immunoassays. Results Levels of PDIA3 Ab total serum IgG, IgG1, and IgG3 in patients in the AIT group were significantly higher than those in the non-AIT group (P < 0.05). There were no significant differences in PDIA3 Ab total IgG and IgG subtype levels in the AIT with euthyroidism group and hypothyroidism group (P> 0.05). In the AIT with hypothyroidism group, PDIA3 Ab IgG1 subtype serum level was negatively correlated with that of TgAb (r =-0.679, P < 0.05), and positively correlated with that of TSH while controlling the variables of TPOAb and TgAb (r = 0.550, P < 0.05). No significant correlation was found among PDIA3 Ab total IgG and IgG3 subclass, TPOAb, TgAb, TSH, FT3, and FT4 in AIT (P> 0.05). Conclusion Apart from thyroid peroxidase and thyroglobulin, PDIA3 may be a non-classical autoantigen of AIT and may play an important role in thyroid-related injury.
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Em condições inflamatórias do sistema vascular, altas concentrações de mieloperoxidase somada à presença do ácido úrico, sugerem a formação local do oxidante hidroperóxido de urato. A ação desse peróxido já foi demonstrada sobre glutationa e peroxirredoxinas, tornando plausível a possibilidade de que outras proteínas tiólicas também pudessem ser alvo de oxidação. A proteína dissulfeto isomerase é uma ditiol-dissulfeto oxidoredutase e chaperona, localizada principalmente no retículo endoplasmático, onde participa do enovelamento de proteínas nascentes. Além disso, um pool dessas enzimas foi identificado na superfície da célula e no meio extracelular (secretada) e parece ser especialmente importante em eventos vasculares como ativação e agregação de plaquetas, trombose e remodelamento vascular. Primeiramente, foi investigado se o hidroperóxido de urato era capaz de oxidar a PDI. Pelo ensaio do DTNB foi verificado que os tióis livres da proteína eram consumidos após reação com o peróxido e, em seguida, por nLC-MS/MS os resíduos de cisteínas dos sítios catalíticos foram identificados como os principais alvos de oxidação. Embora não tenham sido verificadas outras modificações além de dissulfetos, foi observado que o tratamento com hidroperóxido promoveu agregação e inativação da proteína. Os estudos subsequentes envolveram uma linhagem de células endoteliais (HUVECs). Análises preliminares de citotoxicidade (detecção da atividade da enzima lactato desidrogenase no sobrenadante e incorporação de sondas fluorescentes ao DNA) mostraram que tratamentos com concentrações de até 400 µM de hidroperóxido de urato não são letais às células em cultura. Usando alquilantes impermeáveis à membrana celular foi mostrado que o hidroperóxido de urato oxida não só a proteína dissulfeto isomerase, mas também proteínas tiólicas totais expressas na superfície das HUVECs. Experimentos de wound healing foram feitos para avaliação da capacidade de migração das células mediante o tratamento com hidroperóxido de urato, mas nenhuma diferença foi observada. Contudo, a incubação das células com os agentes oxidantes hidroperóxido de urato e diamida, inibidores de PDI e integrina e um alquilante de tiol, resultaram, pelo menos nos trinta primeiros minutos, em menor capacidade de adesão das células à fibronectina. Além disso, as células tratadas com hidroperóxido de urato se tornaram mais sensíveis ao destacamento da placa de cultura e apresentaram alteração na morfologia. O tratamento com o peróxido também afetou a homeostase redox das HUVECs, observado pela diminuição da razão GSH/GSSG. Finalmente foram apresentadas evidênciasindiretas de que o ácido úrico é substrato da peroxidasina, uma heme peroxidase abundantemente expressa no sistema vascular. Primeiro, pelo ensaio do Amplex Red foi observado que a presença de ácido úrico na mistura reacional resultou em menor taxa de oxidação do reagente. Depois, por LC-MS/MS, também em amostra na qual o ácido úrico estava presente, foi identificado o hidroxiisourato, álcool resultante da decomposição do hidroperóxido de urato. Todo o conjunto de dados deverá contribuir para o maior entendimento da participação do hidroperóxido de urato em processos oxidativos vasculares − especialmente a oxidação de proteínas − que pode ser um dos mecanismos responsáveis pela alteração da função endotelial e da homeostase vascular
During vascular inflammatory conditions, high amounts of myeloperoxidase added to the presence of uric acid, suggest the local formation of urate hydroperoxide. Its oxidative action has already been demonstrated on glutathione and peroxiredoxins, making plausible the possibility that other thiol proteins could also be a target for oxidation. The protein disulfide isomerase is a dithiol-disulfide oxidoreductase and chaperone, located mainly in the endoplasmic reticulum, where it is involved in the correct folding of nascent proteins. Also, a pool of these enzymes has been identified in cell surface and the extracellular (secreted) milieu and appears to be important in vascular events, such as platelet activation and aggregation, thrombosis and vascular remodeling. First, it was investigated whether urate hydroperoxide was capable of oxidizing PDI. By the DTNB assay, it was found that the free thiols of the protein were consumed after reaction with the peroxide and then, by nLC-MS / MS, the active redox cysteine residues were identified as the main oxidation targets. Although no modifications other than disulfides have been found, hydroperoxide treatment has been shown to promote protein aggregation and inactivation. Subsequent studies involved an endothelial cell line (HUVECs). Preliminary cytotoxicity analyzes (detection of lactate dehydrogenase enzyme activity in the supernatant and incorporation of fluorescent probes into DNA) have shown that treatments with concentrations up to 400 µM are not lethal to cells in culture. Then, using alkylating agents impermeable to the cell membrane, urate hydroperoxide was shown to oxidize not only PDI but also total thiol proteins expressed on HUVECs surface. Wound healing experiments were performed to evaluate cell migration after treatment with urate hydroperoxide, but no difference was observed. However, incubation of the cells with the oxidizing agents urate hydroperoxide and diamide, inhibitors of both PDI and integrin and a thiol alkylator, resulted, at least for the first thirty minutes, in reduced cell adhesion to fibronectin. In addition, cells treated with urate hydroperoxide became more sensitive to detachment from the culture dish and exhibited alterations in morphology. Treatment with the peroxide also affected the redox homeostasis of the HUVECs, observed by a decrease in the GSH / GSSG ratio. Finally, indirect evidence was presented that uric acid is a substrate of peroxidasin, a heme peroxidase abundantly expressed in the vascular system. First, with the Amplex Red assay it was observed that the presence of uric acid in the reaction mixture resulted in lower oxidation rates of the reagent. Then, by LC-MS / MS, hydroxyisourate, which is the alcohol derived from urate hydroperoxide decomposition, was also identified in samples containing uric acid. Taken together, the data presented should contribute to a better understanding of the involvement of urate hydroperoxide in vascular oxidative processes − especially protein oxidation − that may be one mechanism associated to disturbances in endothelial function and vascular homeostasis
Subject(s)
Endothelium, Vascular , Oxidation/adverse effects , Uric Acid/agonists , In Vitro Techniques/instrumentation , Protein Disulfide-Isomerases/analysisABSTRACT
BACKGROUND: ADP-glucose pyrophosphorylase (AGPase), the key enzyme in plant starch biosynthesis, is a heterotetramer composed of two identical large subunits and two identical small subunits. AGPase has plastidial and cytosolic isoforms in higher plants, whereas it is mainly detected in the cytosol of grain endosperms in cereal crops. Our previous results have shown that the expression of the TaAGPL1 gene, encoding the cytosolic large subunit of wheat AGPase, temporally coincides with the rate of starch accumulation and that its overexpression dramatically increases wheat AGPase activity and the rate of starch accumulation, suggesting an important role. METHODS: In this study, we performed yeast one-hybrid screening using the promoter of the TaAGPL1 gene as bait and a wheat grain cDNA library as prey to screen out the upstream regulators of TaAGPL1 gene. And the barley stripe mosaic virus-induced gene-silencing (BSMV-VIGS) method was used to verify the functional characterization of the identified regulators in starch biosynthesis. RESULTS: Disulfide isomerase 1-2 protein (TaPDIL1-2) was screened out, and its binding to the TaAGPL1-1D promoter was further verified using another yeast one-hybrid screen. Transiently silenced wheat plants of the TaPDIL1-2 gene were obtained by using BSMV-VIGS method under field conditions. In grains of BSMV-VIGS-TaPDIL1-2-silenced wheat plants, the TaAGPL1 gene transcription levels, grain starch contents, and 1000-kernel weight also significantly increased. CONCLUSIONS: As important chaperones involved in oxidative protein folding, PDIL proteins have been reported to form hetero-dimers with some transcription factors, and thus, our results suggested that TaPDIL1-2 protein could indirectly and negatively regulate the expression of the TaAGPL1 gene and function in starch biosynthesis.
Subject(s)
Plant Proteins/metabolism , Triticum/metabolism , Bread , Genes, Plant/genetics , Gene Expression Regulation, Plant/genetics , Glucose-1-Phosphate Adenylyltransferase/metabolism , Plant Proteins/genetics , Transcription Factors , Triticum/genetics , Glucose-1-Phosphate Adenylyltransferase/geneticsABSTRACT
Objective To screen protein disulfide isomerase(PDI)inhibitors from zinc- and selenium-rich green tea and to examine the effect of PDI inhibitors on platelet aggregation. Methods Protein structure file of PDI(PDB ID:4EKZ)was downloaded from protein data bank and the current known 20 compounds in green tea were used to establish a small chemical library. The effects of 6 hit compounds by virtual screening on enzymatic activity of PDI were validated. The antiplatelet activities of the effective compounds tested on PDI enzymatic activi ty were further evaluated. Results 2 of 6 hit compounds by virtual screening ,ECG and EGCG displayed inhibitory effect on enzymatic activity of PDI. In addition ,both compounds showed the potential inhibitory effect on platelet aggregation induced by adenosine diphosphate (ADP) in vitro. Conclusion The effect of blood-activating and stasis-dissolving regulation of green tea is associated with its inhibitory effect on PDI. ECG and EGCG are major active components.
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Objective To screen protein disulfide isomerase(PDI)inhibitors from zinc- and selenium-rich green tea and to examine the effect of PDI inhibitors on platelet aggregation. Methods Protein structure file of PDI(PDB ID:4EKZ)was downloaded from protein data bank and the current known 20 compounds in green tea were used to establish a small chemical library. The effects of 6 hit compounds by virtual screening on enzymatic activity of PDI were validated. The antiplatelet activities of the effective compounds tested on PDI enzymatic activi ty were further evaluated. Results 2 of 6 hit compounds by virtual screening ,ECG and EGCG displayed inhibitory effect on enzymatic activity of PDI. In addition ,both compounds showed the potential inhibitory effect on platelet aggregation induced by adenosine diphosphate (ADP) in vitro. Conclusion The effect of blood-activating and stasis-dissolving regulation of green tea is associated with its inhibitory effect on PDI. ECG and EGCG are major active components.
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Increasing evidence suggested that protein disulfide isomerase supported the survival and progression of several cancers. Nelumbinis Plumula is a Chinese traditional herb which showed antitumor activity. To find if the Nelumbinis Plumula affect protein disulfide isomerase activity, we studied its chemical constituents, and 12 monomeric compounds were isolated by means of solvent extraction, silica gel column chromatography, preparative HPLC and recrystallization. Among them, N-methylcoclaurine, kaempferol, chrysoeriol-7-O-neohesperidoside and mannitol were obtained for the first time. Following, we tested the compounds inhibitory activity on protein disulfide isomerase. The results showed that N-methylcoclaurine, neferine, liensinine and isoliensinine could inhibit the activity of protein disulfide isomerase in vitro, their IC₅₀ values were 1.4, 2.9, 4.0 and 5.4 μmol•L⁻¹, respectively.
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Background: A thermostable lipase MAS1 from marine Streptomyces sp. strain was considered as a potential biocatalyst for industrial application, but its production level was relatively low. Here, the effect of chaperones co-expression on the secretory expression of lipase MAS1 in Pichia pastoris was investigated. Result: Co-expression of protein disulfide isomerase (PDI), HAC1 and immunoglobulin binding protein could increase the expression level of lipase MAS1, whereas co-expression of Vitreoscilla hemoglobin showed a negative effect to the lipase MAS1 production. Among them, PDI co-expression increased lipase MAS1 expression level by 1.7-fold compared to the control strain harboring only the MAS1 gene. Furthermore, optimizing production of lipase MAS1 with Pichia pastoris strain X-33/MAS1-PDI in a 30-L bioreactor were conducted. Lower induction temperature was found to have a benefit effect for lipase MAS1 production. Lipase activity at 24 and 22°C showed 1.7 and 2.1-fold to that at 30°C, respectively. Among the induction pH tested, the highest lipase activity was obtained at pH 6.0 with activity of 440 U/mL after 144 h fermentation. Conclusion: Our work showed a good example for improving the production of recombinant enzymes in Pichia pastoris via chaperon co-expression and fermentation condition optimization.
Subject(s)
Streptomyces/metabolism , Lipase/biosynthesis , Pichia , Temperature , Cell Survival , Molecular Chaperones , Bioreactors , Protein Disulfide-Isomerases , Vitreoscilla , Fermentation , Batch Cell Culture Techniques , Hydrogen-Ion ConcentrationABSTRACT
Introduction. Rotavirus entry into cells seems to be mediated by sequential interactions between viral structural proteins and some cell surface molecules. However, the mechanisms by which rotavirus infects target cell are still not well understood. There is some evidence showing that rotavirus structural proteins VP5* and VP8* interact with some cell surface molecules. The availability of recombinant rotavirus structural proteins in sufficient quantity has become very important for the identification of the specific virus-cell receptor interactions during the early events of the infectious process. Objective. The aim of the present work is to perform an analysis of the interactions between recombinant rotavirus structural proteins VP5*, VP8* and VP6, and cellular proteins Hsc70 and PDI using their purified recombinant versions. Materials and methods. Rotavirus recombinant VP5* and VP8*, and cellular recombinant proteins Hsc70 and PDI were expressed in E. coli BL21(DE3) while VP6 was expressed in recombinant vaccinia virus-transfected MA104 cells. The interaction between rotavirus and cellular proteins was studied using ELISA, co-immunoprecipitation and SDS-PAGE/Western blotting analysis. Results. The optimal conditions for expression of recombinant proteins were determined and antibodies were raised against them. The findings suggested that viral proteins rVP5* and rVP6 interact with Hsc70 and PDI in vitro. These viral recombinant proteins were also found to interact with raft-associated Hsc70 in a cell culture system. The treatment of cells with either rVP6 or DLPs produced significantly inhibition of rotavirus infection. Conclusion. The results allow us to conclude that rVP5* and rVP6 interact with Hsc70 and PDI during the rotavirus infection process.
Introducción. La entrada de rotavirus a las células parece estar mediado por interacciones secuenciales entre las proteínas estructurales virales y algunas moléculas de la superficie celular. Sin embargo, los mecanismos por los cuales el rotavirus infecta la célula diana aún no se comprenden bien. Existe alguna evidencia que muestra que las proteínas estructurales de rotavirus VP5* y VP8* interactúan con algunas moléculas de la superficie celular. La disponibilidad de las proteínas estructurales de rotavirus recombinantes en cantidad suficiente se ha convertido en un aspecto importante para la identificación de las interacciones específicas de los receptores virus-célula durante los eventos tempranos del proceso infeccioso. Objetivo. El propósito del presente trabajo es realizar un análisis de las interacciones entre las proteínas estructurales de rotavirus recombinante VP5*, VP8* y VP6, y las proteínas celulares Hsc70 y PDI utilizando sus versiones recombinantes purificadas. Materiales y métodos. Las proteínas recombinantes de rotavirus VP5* y VP8* y las proteínas recombinantes celulares Hsc70 y PDI se expresaron en E. coli BL21 (DE3), mientras que VP6 se expresó en células MA104 con virus vaccinia recombinante transfectada. La interacción entre el rotavirus y las proteínas celulares se estudió mediante ELISA, co-inmunoprecipitación y SDS-PAGE/ Western. Resultados. Las condiciones óptimas para la expresión de proteínas recombinantes se determinaron y se generaron anticuerpos contra ellas. Los resultados sugirieron que las proteínas virales rVP5* y rVP6 interactúan con Hsc70 y PDI in vitro. También se encontró que éstas proteínas virales recombinantes interactúan con Hsc70 en las balsas lipídicas ("Rafts") en un cultivo celular. El tratamiento de las células, ya sea con DLP o rVP6 produjo significativamente la inhibición de la infección por rotavirus. Conclusión. Los resultados permiten concluir que rVP5 * y rVP6 interactúan con Hsc70 y PDI durante el proceso de la infección por rotavirus.
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OBJECTIVE: Protein disulfide isomerase (PDI) acts as a chaperone on the cell surface, and it has been reported that PDI is associated with the tumor cell migration and invasion. The aims of this study are to investigate the anti-migration effect of bacitracin, which is an inhibitor of PDI, and the associated factor in this process. METHODS: U87-MG glioma cells were treated with bacitracin in 1.25, 2.5, 3.75, and 5.0 mM concentrations. Western blot with caspase-3 was applied to evaluate the cytotoxicity of bacitracin. Adhesion, morphology, migration assays, and organotypic brain-slice culture were performed to evaluate the effect of bacitracin to the tumor cell. Western blot, PCR, and gelatin zymography were performed to investigate the associated factors. Thirty glioma tissues were collected following immunohistochemistry and Western blot. RESULTS: Bacitracin showed a cytotoxicity in 3rd (p<0.05) and 4th (p<0.001) days, in 5.0 Mm concentration. The cell adhesion significantly decreased and the cells became a round shape after treated with bacitracin. The migration ability, the expression of phosphorylated focal adhesion kinase (p-FAK) and matrix metalloproteinase-2 (MMP-2) decreased in a bacitracin dose- and time-dependent manner. The U87-MG cells exhibited low-invasiveness in the 2.5 mM, compared with the untreated in organotypic brain-slice culture. PDI was expressed in the tumor margin, and significantly increased with histological glioma grades (p<0.001). CONCLUSION: Bacitracin, as a functional inhibitor of PDI, decreased the phosphorylated FAK and the secreted MMP-2, which are the downstream of integrin and play a major role in cell migration and invasion, might become one of the feasible therapeutic strategies for glioblastoma.
Subject(s)
Bacitracin , Blotting, Western , Caspase 3 , Cell Adhesion , Cell Movement , Focal Adhesion Protein-Tyrosine Kinases , Gelatin , Glioblastoma , Glioma , Immunohistochemistry , Matrix Metalloproteinase 2 , Polymerase Chain Reaction , Protein Disulfide-IsomerasesABSTRACT
To enhance the production of glucose oxidase by recombinant Pichia pastoris, two strategies were developed, which were namely co-feeding of methanol and sorbitol and co-expressing of the protein disulfide isomerase (PDI) and Vitreoscialla hemoglobin (VHb). The volumetric activity reached 456 U/mL by using the strain X33/pPIC9k-GOD, in 5 liter fermentator, with the co-feeding of methanol and sorbitol, it was 0.2 fold higher than that only feeding by methanol. The improved strain was obtained by co-expressing PDI-VHb with GOD. While fermented in a 5 liter fermentator by feeding methanol and sorbitol, the activity of the improved strain reached 716 U/mL with a yield of 7 400 mg/L total soluble protein concentration. These results indicated that heterologous protein expression level can be enhanced by optimizing fermentation condition and co-expression molecular chaperon in Pichia pastoris.
Subject(s)
Bioreactors , Fermentation , Glucose Oxidase , Methanol , Pichia , Metabolism , Recombinant Proteins , SorbitolABSTRACT
Protein disulfide isomerase A3 (PDIA3) is a member of protein disulphide isomerase family and widely exists in endoplasmic reticulum, cell surface, nucleus and mitochondria.PDIA3 promotes the glycoprotein folding and quality control in the endoplasmic reticulum and is also a key molecular of major histocompatibility complex class I mol-ecules assembly.In addition, PDIA3 is involved in the cell signal transduction and plays an important role in a variety of disease development.Therefore, this paper talks about the function of PDIA3, the relationship between disease and PDIA3 as well as its clinical outlook.
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Protein disulfide isomerase (PDI) is one of thiol-disulfide oxidoreductases that mainly located in the endo?plasmic reticulum (ER). It is generally known that PDI caralyzes the formation,rearrangement,breakage of disulfide bonds, and this enzyme is effective in regulation of protein folding. Now it is also known as a biomarker of cardiovascular disease. Protein disulfide isomerase can reduce infarct size and myocardial apoptosis in acute myocardial infarction (AMI). PDI can also improve changes of cardiac vulnerability in diabetic cardiomyopathy (DCM). Further more, it is also shown that PDI play an important role in hypertension and thrombosis. Therefore, this paper review the effects of protein disulfide isomerase in cardiovascular diseases.
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O remodelamento vascular é um determinante fundamental do lúmen em doenças vasculares, porém os mecanismos envolvidos não estão completamente elucidados. Nós investigamos o papel da chaperona redox residente do retículo endoplasmático Dissulfeto Isomerase Proteica (PDI) e sua fração localizada na superfície celular (peri/epicelular=pecPDI) no calibre e arquitetura vascular durante reparação à lesão. Em artérias ilíacas de coelho submetidas à lesão in vivo, houve importante aumento do mRNA e expressão proteica (~25x aumento 14 dias pós-lesão vs. controle) da PDI. O silenciamento da PDI por siRNA (cultura de órgãos) acentuou o estresse do retículo e apoptose, diferentemente da inibição da pecPDI com anticorpo neutralizante (PDI Ab). Bloqueio in vivo da pecPDI por aplicação de gel perivascular contendo PDI Ab no 12° dia após lesão, com análise após 48 h, promoveu ca.25% redução no calibre vascular analisado por arteriografia e diminuição similar na área total do vaso detectada por tomografia de coerência óptica. Neste processo, não ocorreu alteração no tamanho da neoíntima, indicando assim, que PDI Ab acentuou remodelamento constrictivo. Neutralização da pecPDI promoveu importantes alterações na arquitetura da matriz de colágeno e citoesqueleto, resultando em fibras com orientação invertida e desorganizadas. Diminuição na produção de espécies reativas de oxigênio e óxidos de nitrogênio também ocorreu. Análise de propriedades viscoelásticas nas artérias indicou redução na ductilidade vascular, evidenciada pela menor distância para ruptura. As alterações subcelulares no citoesqueleto observadas in vivo após PDI Ab foram recapituladas em um modelo de estiramento cíclico em células musculares lisas vasculares, com importante redução na formação das fibras de estresse. Em modelo de migração randômica de células musculares lisas, a exposição a PDI Ab reduziu a resiliência de regulação da polaridade. Embora a neutralização da pecPDI não tenha afetado a atividade...
Whole-vessel remodeling is a critical lumen caliber determinant in vascular disease, but underlying mechanisms are poorly understood. We investigated the role of endoplasmic reticulum chaperone Protein Disulfide Isomerase(PDI) and cell-surface PDI(peri/epicellular=pecPDI) pool in vascular caliber and architecture during vascular repair after injury(AI). After rabbit iliac artery balloon injury, there was marked increase in PDI mRNA and protein (25-fold vs. basal at day 14AI), with increase in both intracellular and pecPDI. Silencing PDI by siRNA (organ culture) induced ER stress augmentation and apoptosis, contrarily to pecPDI neutralization with PDI-antibody(PDI Ab). PecPDI neutralization in vivo with PDIAb-containing perivascular gel from days 12-14AI promoted ca.25% decrease in vascular caliber at arteriography and similar decreases in total vessel circumference at optical coherence tomography, without changing neointima, indicating increased constrictive remodeling. PecPDI neutralization promoted marked changes in collagen and cytoskeleton architecture, with inverted fiber orientation and disorganization. Decreased ROS and nitrogen oxide production also occurred. Viscoelastic artery properties assessment showed decreased ductility, evidenced by decreased distance to rupture. Subcellular cytoskeletal disruption by PDI Ab was recapitulated in vascular smooth muscle cell stretch model, with marked decrease in stress fiber buildup. Also, PDI Ab incubation promoted decreased regulation resilience of vascular smooth muscle migration properties. While pecPDI neutralization did not affect global RhoA activity, there was altered RhoA redistribution to the cell surface and association with caveolin-containing clusters, which mislocalized after stretch. In human coronary atheromas, PDI expression inversely correlated with constrictive remodeling. Thus, strongly-expressed PDI after injury reshapes matrix and cytoskeleton architecture to support an...
Subject(s)
Humans , Animals , Male , Rabbits , Angioplasty, Balloon , Endoplasmic Reticulum Stress , Extracellular Space , Reactive Oxygen Species , Muscle, Smooth, Vascular , Neointima , Oxidative Stress , Protein Disulfide-Isomerases , Vascular System InjuriesABSTRACT
Thrombosis, the formation of blood clots, is a cause not only of heart attacks and strokes, but of deep venous throm-bosis (DVT) and pulmonary embolism as well. The number one killer of Americans is a blood clot that blocks blood flow to the heart or to the brain and approximately half of all morbidity and mortality in the United States can be attributed to heart attack or stroke. All the blood clot related conditions are life-threatening, and so there is a need for safe, effective and preventive treatment. A natural substance rutin, also called rutoside, is a citrus flavonoid glycoside found in Fagopyrum esculentum (buckwheat), the leaves and petioles of Rheum species, and Asparagus. This flavonoid compound has shown effective thrombolytic activity (prevents the formation of blood clots) by blocking the enzyme protein disulfide isomerase (PDI) found in all cells involved in blood clotting. Food and Drug Administration (FDA) has established that rutin is safe and, thus provides a safe and inexpensive drug that could reduce recurrent clots and help save thousands of lives.
ABSTRACT
Processos celulares que governam as NADPH oxidases vasculares em condições patológicas não estão claros ainda. Como os processos redox são parte intrínseca da resposta da célula ao estresse, temos investigado se o estresse oxidativo pode convergir com outros tipos de estresse via Nox(es). No presente estudo, focamos na inibição do proteasoma como uma condição relevante de estresse. A incubação de células musculares lisas com concentrações não apoptóticas de inibidores do proteasoma, MG132 e lactacistina, promoveu aumento na produção basal de superóxido e na atividade da NADPH oxidase, diminuição da atividade da SOD e da razão GSH/GSSG. Por outro lado, a inibição do proteasoma diminui a atividade da Nox após estímulo com Angiotensina II ou Tunicamicina, conhecido estressor do retículo endoplasmático. Em condições basais, MG132 induz a expressão de mRNA da Nox1, entretanto o aumento de Nox1 induzido por Angiotensina II foi diminuído na presença de MG132. O mesmo efeito ocorre com a indução de Nox4 pela Tunicamicina, que nesse caso foi drasticamente reduzida na presença de MG132. Além disso, tanto Angiotensina II quanto Tunicamicina induziram a atividade lítica do proteasoma 20S. A seguir, investigamos as conseqüências fisiológicas do MG132 na sinalização do estresse do RE, uma conhecida resposta mediada por Nox4. Células vasculares incubadas com MG132 induzem a expressão de marcadores do estresse do RE, GRP78 e XBP1, e também os marcadores mais tardios ATF4 e o próapoptótico CHOP/GADD153. Resultados similares ocorrem também com a Tunicamicina. Entretanto, a co-incubação de Tunicamicina e MG132 diminui e a sinalização do estresse do RE. AKT e p38 MAPK foram ativados por MG132, possivelmente como resposta ao estresse induzido pela inibição do proteasoma. Assim, a inibição do proteasoma bloqueia a NADPH oxidase, com aumento da atividade basal e expressão da Nox1 versus forte inibição da ativação e expressão da Nox4 frente ao estímulo. A inibição da Nox4...
Cellular processes governing vascular Nox family NADPH oxidases in disease conditions are unclear. Since redox processes are intrinsic to cell stress response, we asked whether oxidative stress merges with other types of stress via Nox(es). We focused on proteasome inhibition as a relevant stress condition. Vascular smooth muscle cells (VSMC) incubation with non-apoptotic concentrations of proteasome inhibitors MG132 or lactacystin promoted increased baseline superoxide generation (HPLC/DHE products) and NADPH oxidase activity, decreased SOD activity and GSH/GSSG ratio. Conversely, proteasome inhibitors decreased by Nox response to Angiotensin II (AngII) and abrogated Nox response to endoplasmic reticulum (ER) stressor tunicamycin. With MG132, basal Nox1 mRNA levels were increased, while Nox1 response to AngII was blunted. Moreover, MG132 abolished Nox4 mRNA levels TN-induced. Both AngII and TN (at 2 and 4 hs) promoted increased 20S proteasome lytic activity. We next assessed physiological consequences of MG132 in ER stress signaling, a known Nox4- mediated response. VSMC incubation with MG132 alone enhanced expression of the ER stress markers Grp78 and XBP1 and late markers such as ATF4 and proapoptotic CHOP/GADD153. Similar results occurred with the known ER stressor TN. However, co-incubation of TN and MG132 decreased Grp78, Grp94 and CHOP/GADD153, indicating that proteasome inhibition interrupts ER stress. AKT and p38 are activated by MG132 as response to stress and recover to survival. Thus, proteasome inhibition disrupts NADPH oxidase, with increased baseline activity and Nox1 expression vs. strong inhibition of stimulated Nox1 and Nox4 activation/expression. The later effect may underlie MG132-mediated inhibition of ER stress signaling. (Support: FAPESP, CNPq Milênio Redoxoma)...