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Análise do efeito de substâncias liberadas por adesivos dentinários sobre a atividade e a expressão gênica de proteases da matriz extracelular (MMPs e CTs) em células-tronco da polpa dentária humana / Analysis of the effects of substances leached from adhesive systems on the activity and gene expression of extracellular matrix proteases (MMPs e CTs) in human dental pulp stem cellsSouza-Rodrigues, Renata Duarte de 05 December 2014 (has links)
Adesivos dentinários aplicados diretamente sobre dentina aumentam a atividade de enzimas endógenas deste tecido que degradam colágeno, colocando em risco a integridade da camada híbrida de restaurações estéticas. Estes adesivos podem também alcançar a polpa dentária indiretamente através do fluído dos túbulos dentinários por substâncias liberadas pelos mesmos. Desta forma, a polpa dentária poderia responder a estas substâncias por meio de síntese e/ou aumento da atividade de colagenases, o que poderia colaborar na degradação da camada híbrida. Sendo assim, o objetivo desse trabalho foi avaliar o efeito das substâncias liberadas por sistemas adesivos dos tipos autocondicionante e condicione e lave sobre a atividade e a expressão gênica de metaloproteinases (MMPs) e cisteíno-catepsinas (CTs) em células-tronco da polpa dentária humana. Foram aplicados meios de cultura condicionados por adesivos do tipo autocondicionante e condicione e lave polimerizados e não polimerizados sobre culturas celulares por 24 horas. O meio de cultivo fresco foi usado como controle. Depois de 24, 48, 72 e 96 horas, as atividades gelatinolíticas de MMP-2 e de MMP-9 foram avaliadas por meio da técnica de zimografia em gel de gelatina. Nos mesmos tempos experimentais, a modulação da expressão gênica das MMPs (1, 2, 3, 7, 9, 13 e 14) e das CTs (B e K) foi analisada por meio de reação de transcriptase reversa quantitativa em tempo real (qRT-PCR). Os resultados obtidos dos dois experimentos foram avaliados por meio do teste estatístico ANOVA, complementado pelo teste de Tukey (p<0.05). Todos os grupos mostraram atividade gelatinolítica aumentada de MMP-2 e MMP-9. Até 72 horas, as atividades foram similares em todos os grupos experimentais. Diferenças significativas apareceram somente em 96 horas. De forma geral, as maiores atividades de MMPs foram observadas nas culturas celulares tratadas com o adesivo autocondicionante. Para a MMP-2, o grupo do adesivo autocondicionante polimerizado mostrou atividade intermediária, enquanto o grupo não polimerizado mostrou a maior atividade. Os dois grupos do adesivo condicione e lave polimerizado e não polimerizado mostraram atividade de MMP-9 intermediária, enquanto o grupo autocondicionante polimerizado mostrou maior atividade que o grupo controle. O qRT-PCR revelou que a maioria das MMPs e CTs analisadas tiveram a expressão gênica positivamente modulada em 24 e 48 horas. MMP-7 e MMP-9 não foram expressos em nenhum grupo experimental. Baseados nas limitações deste estudo in vitro, concluímos que substâncias liberadas por sistemas adesivos são capazes de influenciar células-tronco de polpa dentária humana levando ao aumento da atividade de MMP-2 e MMP-9 e também à modulação positiva de genes das MMPs e CTS estudadas. / Adhesive systems directly applied to dentin increase the activity of endogenous collagen degrading proteinases of the dentin, which jeopardizes the integrity of the hybrid layer of aesthetic restorations. These adhesives can also reach the dental pulp through the dentinal fluid indirectly by substances leached from them. Then, the dental pulp tissue could respond by synthetizing and/or increasing the activity of collagen proteases, which in turn could collaborate to the hybrid layer degradation. Then, the aim of this study was to evaluate the effect of substances leached from self-etch and etch-and-rinse adhesive systems on the expression and activities of matrix metalloproteinases (MMPs) and cysteine cathepsins (CT-B and CT-K) in human dental pulp stem cells. Culture media conditioned by polymerized or non-polymerized self-etch and etch-and-rinse adhesive systems were applied to the cultures for 24 hours. Fresh medium was used as control. After 24, 48, 72 and 96 hours, the gelatinolytic activities of MMP-2 and MMP-9 were assessed by zymography technique. At the same experimental time gene expression of MMPs (1, 2, 3, 7, 9, 13 e 14) and CTs (B e K) were analyzed with quantitative reverse transcription polymerase chain reaction (qRT-PCR). Data was compared by ANOVA complemented by the Tukey´s test (p<0.05). All experimental groups showed increased gelatinolytic activity for MMP-2 and MMP-9. Until 72 hours, the activities were similar regardless the group. Significant differences appeared only after 96 hours. Overall, the highest activities of MMPs were observed in the cultures treated with the self-etch adhesive. For MMP-2, the group of polymerized self-etch adhesive showed intermediary activity, while the group of non-polymerized adhesive showed the highest activity. Both polymerized and non-polymerized etch-and-rinse adhesive groups showed intermediary MMP-9 activity, while the group of polymerized self-etch adhesive showed higher activity than control. The qRT-PCR revealed that most of MMPs and CTs analyzed presented the gene expression positively modulated at 24 and 48 hours. MMP-7 and MMP-9 were not expressed in any experimental group.Based on the limitations of this in vitro study, it was concluded that substances leached from adhesive systems are able to influence human dental pulp stem cells leading to the increase of the activity of MMP-2 and MMP-9 along with positive modulation of MMPs and CTS studied genes.
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The Effects of <em>L</em>-Cysteine on Alzheimer's Disease Pathology in <em>APOE2</em>, <em>APOE3</em>, and <em>APOE4</em> Homozygous MiceCieslak, Stephen Gerard 01 December 2016 (has links)
The APOE gene is of profound importance regarding the onset of Alzheimer's disease (AD). From the small physical differences among the protein products of the isoforms of this gene arises a profound difference in their physiologies. For example, the APOE2 isoform confers resistance to AD, the APOE3 isoform confers neutral susceptibility to AD, and the APOE4 isoform confers proneness to AD. L-cysteine is an amino acid that has several anti-AD properties, among which are its ability to sequester iron and form glutathione – a powerful antioxidant – and therefore may be a promising potential dietary supplement for ameliorating AD pathology. In our experiment, we fed Mus musculus (mice) homozygous for APOE2, APOE3, and APOE4 either a control diet or a diet high in L-cysteine. Using Western blotting analysis, we quantified Amyloid β (Aβ), hyper-phosphorylated Tau (HP-Tau), and the three APOE proteins that we extracted from post-mortem brains of APOE2, APOE3, and APOE4 homozygous mice of 3-, 6-, 9-, and 12-month ages. We calculated a three-way ANOVA on a sample of 86 mice to examine the effect of age, genotype, and diet on protein quantities. We found that administration of L-cysteine trends towards lowering levels of Aβ in each cohort, but this effect is statistically insignificant. On the other hand, L-cysteine caused a significant decrease in APOE production with regard to diet [F(1,62) = 6.17, p=0.02], indicating that less APOE is produced due to the decrease in Aβ burden. Furthermore, administration of L-cysteine revealed no significant impact on or trends regarding HP-Tau deposition between diet types for each cohort. However, we observed that L-cysteine appeared to nullify the increasing trend in HP-Tau deposition between APOE2 and APOE4 cohorts. Thus, L-cysteine may be weakly affecting HP-Tau deposition via its ability to somewhat reduce Aβ burden and consequently prevent the shutdown of the proteosomes responsible for the degradation and clearance of HP-Tau. Taken together, these data suggest that L-cysteine should be considered as an intervention for AD pathology.
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L-Cysteine Effects on Chlorogenic Acid Quinone-Amino Acid Induced Greening and Browning: Mechanism and Effects on Antioxidant CapacityLiang, Yundi 01 July 2019 (has links)
The formation of green trihydroxy benzacridine (TBA) derivatives when chlorogenic acid (CGA) quinones and amino acids react can be visually unappealing in some applications where CGA containing ingredients are used. Cysteine was studied as an amino acid anti-greening strategy, because cysteine-CGA conjugates are colorless. Buffered CGA: lysine: cysteine solutions at pH 8.0 and 9.0 were prepared and incubated for a maximum of 48 h at ambient temperature. Color intensity was periodically monitored using a UV-Vis spectrophotometer. Quantification and identification of conjugate formation were conducted by HPLC and LC-MS, while Antioxidant capacity was assessed by Trolox Equivalent Antioxidant Capacity and Folin-Ciocalteu reagent reducing capacity assays. More intense greening was detected at higher pH. Lysyl amine- CGA conjugates were identified as the predominant precursor of green TBA. Concentration-dependent cysteine inhibition of CGA-lysine greening was primarily by redox diphenol regeneration when pH was below cysteinyl thiol pKa 8.3 while primarily by forming cysteinyl-CGA conjugates when pH was above 8.3. Visible greening was fully inhibited with a cysteine: lysine 1:1 molar ratio in pH 9 CGA: Lys: Cys solutions, indicating that cysteinyl thiol was a stronger nucleophile than ε-lysyl amine to react with CGA o-quinones. Mono- and di-cysteine-CGA conjugates contributed to antioxidant capacity. Cysteine concentration, pH and incubation time all significantly affected color intensities and antioxidant capacity (p
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Proteomic approaches to profiling of cysteine proteases expressed in leaves and root nodules during natural senescence of the soybean plantKarumazondo, Rumbidzai Patience January 2011 (has links)
Thesis (M.Sc. (Biochemistry)) -- University of Limpopo, 2011 / Soybean is one of the most cultivated legume plants in developing countries. Nodule senescence is a major limitation in producing high yields of soybean as it coincides with the pod filling stage. Delaying nodule senescence could be a way of increasing the yield of soybean therefore determination of the role of cysteine protease in soybean is of vital importance. In this study, soybean plants were grown under controlled temperature and light conditions. Leaves and root crown nodules were collected at 4, 6, 10, 12 and 16 weeks of age. In a comparative 1-dimensional SDS-PAGE analysis of soybean nodule proteomes as the plant matured, it showed differences in proteins expressed as shown by different banding patterns with less variation between the younger soybean nodule extracts (4, 6 and 10 weeks old) as compared to the older ones (12 and 16 weeks old). As determined by azocasein assay and protease zymography, the protease activity of the nodule extracts generally decreased with an increase in the age of the nodules whereas that of the leaves increased as the plants grew older. Cysteine proteases in the soybean nodule extracts readily cleaved the Z-Arg-Arg-AMC substrate with the highest activity shown in the younger nodules as compared to the older ones. In the leaf extracts, cysteine protease activity increased with age of the leaves. DCG-04, a biotinylated irreversible inhibitor, proved to be an effective label in profiling of activity of cysteine proteases in 1-dimensional and 2-dimensional systems. The labelling was inhibited specifically by cysteine protease inhibitor, E-64. In root nodules, the DCG-04 probing demonstrated that the expression of cysteine proteases is higher in early stages of development of the soybean nodules as compared to the later stages whereas in the leaves, there is higher expression of cysteine proteases in the old leaves (16 weeks). Using 2-dimensional polyacrylamide gel electrophoresis, five cysteine protease isoforms were visualised with the size ranging from approximately 25 to 30 kDa and a pI range of 4-6. In older nodules (12 and 16 weeks old) the higher pI isoforms are down-regulated with the 26 kDa and pI 4.5 protease being the predominant isoform. Affinity precipitation of the cysteine proteases yielded a strong band with the size of about 26 kDa. All assays used show that while in leaves, the expected trend of high expression of cysteine proteases in senescing leaves is observed, in soybean nodules the expression of cysteine proteases decreases with senescence. There is, therefore, no correlation between senescence and cysteine proteases in nodules. The highly expressed cysteine protease in young nodules could play a developmental or regulatory role during the early stages of development.
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A Rapid and Specific Gas Chromatographic Analysis for Cysteine-S-Sulfonate to Determine the Distribution of Sulfite in Mammalian PlasmadeBethizy, Joseph Don 01 May 1979 (has links)
It has been shown in previous studies that when sulfite is absorbed by rabbits via either inhalation of SO2 or oral exposure to sulfite, the hydrated form, bisulfite, interacts with plasma disulfides where it is suspected to be in the form, cysteine-S-sulfonate. A rapid and specific gas chromatographic analysis procedure for cysteine-S-sulfonate has been developed to better study the distribution of sulfite in biological systems. Sulfonated proteins are enzymatically hydrolyzed to ensure stability of the acid labile S-sulfonate disulfide. The hydrolysate is then applied to a 6 cm cation-exchange column and eluted with 0.1 N HCl which elutes the acidic cysteine-S-sulfonate with the void volume of the column leaving behind any remaining cysteine. the silylated derivatives of the column effluent are prepared using Tri-Sil/BSA. These derivatives are injected into a gas chromatograph equipped with a flame-photometric detector operating in the sulfur mode, 2% 0v-101 on Chromosorb W/HP 1/4 inch glass column, oven temperture 140°C, and carrier flow rate of 86 ml/min. The presence of cysteine-S-sulfonat in the sulfite treated rabbits had been directly determined by the described method.
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Studies of genes expressed in the brain and regulated by transforming growth factor ��Solem, Michele Lee 22 July 1992 (has links)
Graduation date: 1993
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Functional and Structural Study of Pannexin1 ChannelsWang, Junjie 21 April 2009 (has links)
Pannexins are vertebrate proteins with limited sequence homology to the invertebrate gap junction proteins, the innexins. However, in contrast to innexins and the vertebrate connexins, pannexins do not form gap junction channels. Instead they appear to solely function as unpaired membrane channels allowing the flux of molecules, including ATP, across the plasma membrane. We provided additional evidence for their ATP release function by demonstrating that the connexin mimetic peptides, which were thought to inhibit ATP release through connexin channels, do not inhibit their host connexin channels but instead inhibit pannexin1 channels by a mechanism of steric block. Therefore, the inhibitory effects of mimetic peptides on ATP release may represent supporting evidence for a role of pannexin1 in ATP release. We also analyzed the pore structure of pannexin1 channels with the Substituted Cysteine Accessibility Method. The thiol reagents MBB and MTSET reacted with several positions in the external portion of the first transmembrane segment and the first extracellular loop. In addition, MTSET reactivity was found in the internal portion of TM3. These data suggest that portions of TM1, E1 and TM3 line the pore of pannexin1 channels. Thus, the pore structure of pannexin1 is similar to that of connexin channels.
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APRIL (TNFSF13) in Th1, Th2 and Th17 ResponsesXiao, Yanping 17 December 2009 (has links)
The T cell function of a proliferation inducing ligand (APRIL or TNFSF13) remains unclear. By comparing APRIL-/- mice with wild type (WT) mice, we have investigated the roles of APRIL in Th1, Th2 and Th17 responses. With regard to APRIL in Th1 responses, cultured APRIL-/- CD4+ T cells showed increased IFN-gamma production under non-polarizing, but not under Th1 polarizing, conditions. No difference in antigen-specific IgG2a levels existed between APRIL-/- and WT mice immunized with ovalbumin (OVA) and complete Freund's adjuvant (CFA) which induces Th1 polarization. Our data indicate that APRIL represses Th1 responses only under non-polarizing conditions. As for APRIL in Th2 responses, cultured APRIL-/- CD4+ T cells exhibited enhanced Th2 cytokine production under non-polarizing conditions, and augmented IL-13 production under Th2 polarizing conditions. Upon immunization with OVA and aluminum potassium sulfate (alum) which induces Th2 polarization, APRIL-/- mice responded with an increased antigen-specific IgG1 response. In the OVA-induced allergic lung inflammation model which is mediated by Th2 responses, APRIL-/- mice had significantly aggravated allergic lung inflammation. Accordingly, a decoy receptor-Ig fusion protein, TACI-Ig, treatment to block APRIL in WT mice enhanced allergic lung inflammation. In agreement with the role of APRIL in CD4+ T cells, the transfer of APRIL sufficient, OVA-specific, TCR transgenic CD4+ T (OT-II) cells to APRIL-/- mice restored the suppressive effect of APRIL on allergic lung inflammation. Mechanistically, the expression of c-maf, the IL-4 gene transcription factor, was markedly enhanced in APRIL-/- CD4+ T cells under non-polarizing and Th2 polarizing conditions. Our data suggest that APRIL inhibits Th2 responses and allergic lung inflammation by suppressing IL-4 production in CD4+ T cells via diminished c-maf expression, and by suppressing IL-13 production in CD4+ T cells via an IL-4 independent, IL-13 specific pathway. Regarding APRIL in Th17 responses, the incidence of Th17-mediated collagen-induced arthritis (CIA) in APRIL-/- mice was reduced, in parallel with diminished levels of antigen-specific IgG2a autoantibody and IL-17 production. Our data indicate that APRIL promotes IL-17 production, and that APRIL-triggered signals contribute to arthritis. Our data clearly show that APRIL is important in T cell immunity, inhibitory in Th2 responses and costimulatory in Th17 responses.
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Structural Basis of Caspase-3 Substrate Specificity Revealed by Crystallography, Enzyme Kinetics, and Computational ModelingFang, Bin 01 December 2009 (has links)
Caspase-3 is a cysteine protease that hydrolyzes diverse intracellular proteins during programmed cell death (known as apoptosis). It has been a popular target for drug design against abnormal cell death for more than a decade. No approved caspase based drug, however, is available so far. Therefore, structural insights about the substrate recognition of caspase-3 are needed for the future development of caspase-3 based inhibitors and drugs. In this study, crystal structures of recombinant caspase-3 in complex with seven substrate analog inhibitors, including acetyl (Ac)-DEVD-aldehyde (Cho), Ac-DMQD-Cho, Ac-IEPD-Cho, Ac-YVAD-Cho, Ac-WEHD-Cho, Ac-VDVAD-Cho, and tert-butoxycarbonyl (Boc)-D-fluoromethylketone (Fmk), have been analyzed in combination with enzyme kinetic data and computational models. Seven crystal structures were determined at resolutions of 1.7-2.6Å. The binding conformation of each inhibitor residue at P1-P4 position was analyzed. The negative P1 aspartic acid side chain is exclusively required by the positive S1 pocket of caspase-3. Small hydrophobic P2 residues are preferred by the nonpolar S2 pocket formed by Y204, W206, and F256. Although hydrophilic residues at P3 position tend to fit better, hydrophobic residues also can be accommodated by the plastic S3 pocket. Two substrate binding sites were found in the S4 pocket, one formed by main chain atoms of F250 and side chain atoms of N208 and the other formed by aromatic side chains of W206 and W214. These two binding sites are responsible for the binding of hydrophilic and hydrophobic P4 residues, respectively. Furthermore, the S5 subsite of caspase-3 formed by side chains of F250 and F252 was discovered. It stabilizes hydrophobic P5 residues on the substrates by an induced fit mechanism. Computational studies were performed to help improve prediction of protein structures and protein-ligand interactions. Based on the Morse’s function, a novel potential function with only three adjustable parameters per residue pair was developed, which will significantly increase the efficiency of protein structure prediction and molecular mechanics. Altogether, our studies have provided valuable information for the future caspase-3 based drug development.
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Developing Dirhodium-Complexes for Protein Inhibition and Modification & Copper-Catalyzed Remote Chlorination of Alkyl-HydroperoxidesKundu, Rituparna 16 September 2013 (has links)
The work describes the development of a new class of protein-inhibitors for protein-protein interactions, based on metallopeptides comprised of a dirhodium metal center. The metal incorporation in the peptide sequence leads to high increase in binding affinity of the inhibitors. The source of this strong affinity is the interaction of histidine on the protein surface with the rhodium center. In addition to this work, rhodium-based small molecule inhibitors for FK-506 binding proteins are investigated. Also, methodology for rhodium-catalyzed modification of proteins containing surface cysteine has been developed where a simple rhodium(II) complex catalyzes cysteine modification with diazo reagents. The reaction is marked by clean cysteine selectivity and mild reaction conditions. The resulting linkage is significantly more stable in human plasma serum, when compared to common maleimide reagents.
Apart from this body of work in chemical-biology, the thesis contains the discussion of development of copper-catalyzed remote chlorination of alkyl hydroperoxides. The atom transfer chlorination utilizes simple ammonium chloride salts as the chlorine source and the internal redox process requires no external redox reagents.
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