956 resultados para Proteomic analysis
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The effectiveness of rapid and controlled heating of intact tissue to inactivate native enzymatic activity and prevent proteome degradation has been evaluated. Mouse brains were bisected immediately following excision, with one hemisphere being heat treated followed by snap freezing in liquid nitrogen while the other hemisphere was snap frozen immediately. Sections were cut by cryostatic microtome and analyzed by MALDI-MS imaging and minimal label 2-D DIGE, to monitor time-dependent relative changes in intensities of protein and peptide signals. Analysis by MALDI-MS imaging demonstrated that the relative intensities of markers varied across a time course (0-5 min) when the tissues were not stabilized by heat treatment. However, the same markers were seen to be stabilized when the tissues were heat treated before snap freezing. Intensity profiles for proteins indicative of both degradation and stabilization were generated when samples of treated and nontreated tissues were analyzed by 2-D DIGE, with protein extracted before and after a 10-min warming of samples. Thus, heat treatment of tissues at the time of excision is shown to prevent subsequent uncontrolled degradation of tissues at the proteomic level before any quantitative analysis, and to be compatible with downstream proteomic analysis.
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Background—The molecular mechanisms underlying similarities and differences between physiological and pathological left ventricular hypertrophy (LVH) are of intense interest. Most previous work involved targeted analysis of individual signaling pathways or screening of transcriptomic profiles. We developed a network biology approach using genomic and proteomic data to study the molecular patterns that distinguish pathological and physiological LVH. Methods and Results—A network-based analysis using graph theory methods was undertaken on 127 genome-wide expression arrays of in vivo murine LVH. This revealed phenotype-specific pathological and physiological gene coexpression networks. Despite >1650 common genes in the 2 networks, network structure is significantly different. This is largely because of rewiring of genes that are differentially coexpressed in the 2 networks; this novel concept of differential wiring was further validated experimentally. Functional analysis of the rewired network revealed several distinct cellular pathways and gene sets. Deeper exploration was undertaken by targeted proteomic analysis of mitochondrial, myofilament, and extracellular subproteomes in pathological LVH. A notable finding was that mRNA–protein correlation was greater at the cellular pathway level than for individual loci. Conclusions—This first combined gene network and proteomic analysis of LVH reveals novel insights into the integrated pathomechanisms that distinguish pathological versus physiological phenotypes. In particular, we identify differential gene wiring as a major distinguishing feature of these phenotypes. This approach provides a platform for the investigation of potentially novel pathways in LVH and offers a freely accessible protocol (http://sites.google.com/site/cardionetworks) for similar analyses in other cardiovascular diseases.
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In natural environments, bacterial physiology is frequently characterized by slow metabolic rates and complex cellular heterogeneities. The opportunistic pathogen Pseudomonas aeruginosa provides one such example; P. aeruginosa forms untreatable chronic biofilm infections of the cystic fibrosis lung, where oxygen limitation can lead to states of metabolic dormancy. To better understand the biology of these states, in vitro experiments must be adapted to better recapitulate natural settings. However, low rates of protein turnover and cellular or phenotypic complexity make these systems difficult to study using established methods. Here we adapt the bioorthogonal noncanonical amino acid tagging (BONCAT) method for time- and cell-selective proteomic analysis to the study of P. aeruginosa. Analysis of proteins synthesized in an anoxic dormancy state led to the discovery of a new type of transcriptional regulator which we designated SutA. We performed detailed analyses of SutA’s role in transcription under slow growth states and we elucidated the structural basis for its regulatory behavior. Additionally, we used cell-selective targeting of BONCAT labeling to measure the dynamic proteomic response of an antibiotic-tolerant biofilm subpopulation. Overall this work shows the utility of selective proteomics as applied to bacterial physiology and describes the broad biological insight obtained from that application.
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Asthma is an incapacitating disease of the respiratory system, which causes extensive morbidity and mortality worldwide. Asthma affects more than 300 million people globally(Masoli et al. 2004). In Australia, it affects 10.2% of the population (Masoli et al. 2004) and causes 60,000 people to be hospitalised annually. Health care expenditure due to asthma in Australia was $606 million in 2004–2005. There are four primary biological factors that function in the initiation and exacerbation of asthma. Airway inflammation is important as it is often the first response to an airway insult, initiating the three other components: bronchoconstriction, mucus hyper-secretion and hyper-reactivity. The mediators involved in asthma are still not well understood, and current anti-inflammatory corticosteroid treatments are not effective with all asthmatics. As there is currently no cure for asthma, and airway inflammation is the primary component of the disease, it is important that we understand and investigate the mediators of airway inflammation to look for a potential cure and to produce better therapeutics to treat the inflammation. Trefoil factors (TFFs) and secretoglobins (SCGBs) are small secreted proteins involved in the mediation of inflammation and epithelial restitution. TFFs are pro-inflammatory and SCGBs anti-inflammatory by nature. The hypothesis of this study is that in response to induced acute airway inflammation, the expression of TFF1 and TFF3 will increase and expression of SCGB1A1 and SCGB3A2 will decrease in non-asthmatics (N-A), asthmatics medicating with bronchodilators (A-BD) and asthmatics medicating with corticosteroids (A-ST). When comparing the three groups, we expect to see higher expression of the TFFs in the A-BD group compared to the N-A and A-ST groups, indicating that inflammation is mediated by TFFs in asthma and that corticosteroid medication controls their expression as part of the control of inflammation. We expect to see the opposite with SCGBs, with a greater decrease in the A-BD group compared to the other two groups, suggesting that the A-BD group has the least anti-inflammatory activity in response to inflammatory insult. Epigenetic modification plays a role in the regulation of genes that initiate disease states such as inflammatory conditions and cancers. Histone acetylation is one such modification, which involves the acetylation of histones in chromatin by histone acetyltransferases (HATs). This increases the transcription of genes involved with inflammation or enrols histone deacetylases (HDACs) to down-regulate the transcription of inflammatory genes. These HATs and HDACs work in a homeostatic fashion; however, in the event of inflammation, increased HAT activity can stimulate further inflammation, which is believed to be the mechanism involved in some inflammatory diseases. This study hypothesises that in response to inflammation, the expression of HDACs (HDAC1-5) will decrease and the expression of HATs (NCOA1-3, HAT-1 and CREBBP) will increase in all groups. When comparing the expression between the groups, it was expected that a greater decrease in HDACs and a greater increase in HATs will be seen in the A-BD group compared to the other two groups. This would identify histone acetylation as a mechanism involved in the inflammatory condition of asthma and indicate that corticosteroids may treat the inflammation in asthma at least in part by controlling histone acetylation. The aim of the project was to compare the expression of inflammatory genes TFF1, TFF3, SCGB1A1 and SCGB3A2, as well as to compare the gene expression of HDAC1-5, NCOA1-3, HAT-1 and CREBBP within and between N-A (n=15), A-BD (n=15) and A-ST (n=15) groups in response to inflammation. This was performed by collecting airway cells and proteins by sputum induction in three sessions. The sessions were coordinated into an initial baseline collection (SI-1), followed by a second session at least one week later (SI-2) and a third session, six hours after SI-2 to collect a sample containing the resultant acute inflammation caused in SI-2 (SI-3). Analysis of the SI-1 and SI-2 samples in all three groups had high amounts of variability between samples. The samples were taken at least one weak apart and the environmental stimuli on each participant outside of the testing sessions could not be controlled. For this reason, the SI-1 samples were not used for analysis; instead SI-2 and SI-3 samples were compared as they were same-day collections, reducing the probability of differences being due to anything other than the sputum induction. The gene expressions of the TFFs, SCGBs, HDACs and HATs were analysed using real-time PCR. Western blot analysis was performed to analyse the protein concentrations of the TFFs and SCGBs in secreted fractions of the sputum collection. Both the secreted and intracellular protein fractions collected from the sputum inductions for pre- and post-inflammation (SI-2, SI-3) samples of the N-A and A-BD groups were analysed using a proteomic method called iTRAQ. This allowed the comparison of the change in protein expression as a result of airway inflammation in each group. This technique was used as a discovery method to identify novel proteins that are modulated by induced acute airway inflammation. Any proteins of interest would then be further validated and used for future research. Inflammation was achieved in the SI-3 samples of the N-A group with a 21% unit increase in % neutrophils compared to SI-2 (p=0.01). The N-A group had a marked 5.5-fold decrease in HDAC1 gene expression in SI-3 compared to SI-2 (p=0.03). No differences were seen in any of the TFFs, SCGBs or any of the rest of the HDACs and HATs. Western blot data did not display any significant changes in the protein levels of the TFFs and SCGBs analysed. However, non-significant analysis of the data displayed increases in TFF1 and TFF3, and decreases in SCGB1A1 and SCGB3A2 for the majority of SI-3 samples compared to SI-2. The A-BD group also presented a marked increase in neutrophils in the SI-3 samples compared to SI-2 (27% unit increase, p=0.04). The A-BD group had a significant increase in TFF3 and SCGB1A1 gene expression concomitant with induced acute airway inflammation. A 7.3-fold increase in TFF3 (p=0.05) in SI-3 indicated that TFF3 is linked to inflammation in asthmatics. A 2.8-fold increase in SCGB1A1 (p=0.03) indicated that this gene is also up-regulated, suggesting that this SCGB is expressed to try to combat induced acute airway inflammation. No significant changes were seen in any of the other genes analysed. Western blot data did not display any significant changes in the protein levels of the TFFs and SCGBs analysed. However, non-significant analysis of the data displayed an increase in TFF1 and TFF3, and a decrease in SCGB1A1 and SCGB3A2 in SI-3, similar to that seen in the N-A group. The A-ST group was different from the A-BD group, characterised by the use of inhaled corticosteroid medication to treat asthma symptoms. Inhaled corticosteroids are known to treat asthma symptoms through the control of inflammation. Therefore, it was expected that corticosteroid medication would also control the expression of TFFs, SCGBs, HATs and HDACs. Gene expression results only identified a 7.6-fold decrease in HDAC2 expression in SI-3 (p=0.001), which is proposed to be due to the up-regulation of HDAC2 protein that is known to be a function of corticosteroid use. Western blot data did not display any significant changes in the protein levels of the TFFs and SCGBs analysed. The gene expression in SI-2 and SI-3 in each group was compared. When comparing the A-BD group to the N-A group, a 9-fold increase in TFF3 (p=0.008) and a 34-fold increase in SCGB1A1 (p=0.03) were seen in the SI-3 samples. Comparisons of the A-ST group to the N-A group had an increased expression in SI-2 samples for HDAC5 (3.6-fold, p=0.04), NCOA2 (8.5-fold, p=0.04), NCOA3 (17-fold, p=0.01), HAT-1 (36-fold, p=0.003) and CREBBP (13-fold, p=0.001). The SI-3 samples in the A-ST group compared to the N-A group had increased expression for HDAC1 (6.4-fold, p=0.04), HDAC5 (5.2-fold, p=0.008), NCOA2 (9.6-fold, p=0.03), NCOA3 (16-fold, p=0.06), HAT-1 (41-fold, p<0.001) and CREBBP (31-fold, p=0.001). Comparisons of the A-ST group to the A-BD group had SI-2 increases in HDAC1 (3.8-fold, p=0.03), NCOA3 (4.5-fold, p=0.03), HAT-1 (5.3-fold, p=0.01) and CREBBP (23-fold, p=0.001), while SI-3 comparisons saw a decrease in HDAC2 (41-fold, p=0.008) and increases in HAT-1 (4.3-fold, p=0.003) and CREBBP (40-fold, p=0.001). Results showed that TFF3 and SCGB1A1 expression is higher in asthmatics than non-asthmatics and that histone acetylation is more active in the A-ST group than either the N-A or A-BD group, which suggests that histone acetylation activity may be positively correlated with asthma severity. The iTRAQ proteomic analysis of the secreted protein samples identified the SCGB1A1 protein and found it to be decreased in both the N-A and A-BD groups post-inflammation, but significantly so only in the A-BD group. Although no significant results were obtained from the western blot data, both groups displayed a decrease in SCGB1A1 concentration in SI-3 samples, suggesting a correlation with the proteomic data. Only 31 peptides were identified from the secreted samples. The intracellular iTRAQ analysis successfully identified 664 peptides, eight of which had differential expression in association with induced acute airway inflammation. Significant increases were seen in the A-BD group in SI-3 compared to SI-2 than in the N-A group in chloride intracellular channel protein 1, keratin-19, eosinophil cationic protein, calnexin, peroxiredoxin-5, and ATP-synthase delta subunit, while decreases were seen in cystatin-A and mucin-5AC. The iTRAQ analysis was only a discovery measure and further validation must be performed. In summary, the expression of TFFs and SCGBs differed between non-asthmatics and asthmatics. It is clear that TFF3 is active in the airway inflammation associated with asthma as indicated by an increase associated with inflammation in the A-BD group compared to the N-A group. Results for HDAC and HAT genes showed high HAT expression in the A-ST group compared to the N-A and A-BD groups, suggesting that histone acetyltransferases may be responsible for the characteristic unregulated inflammatory symptoms of asthmatics taking corticosteroids. Interestingly, corticosteroid medication did not seem to silence the expression of the analysed HAT genes, which indicates that corticosteroids may not control inflammation by direct regulation of HATs, but instead by competition, most probably with HDAC2 protein. As a discovery tool, iTRAQ is a potent method to both identify and compare the concentration of proteins between samples. The method is a powerful first step into the identification of novel proteins that are regulated in response to different treatments.
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Mass spectrometric analysis of the low-molecular weight (LMW) range of the serum/plasma proteome is revealing the existence of large numbers of previously unknown peptides and protein fragments predicted to be derived from low- abundance proteins. This raises the question of why such low abundance molecules would be retained at detectable levels in the circulation, instead of being rapidly cleared and excreted. Theoretical models of biomarker production and association with serum carrier proteins have been developed to elucidate the mechanisms governing biomarker half-life in the bloodstream. These models predict that the vast majority of LMW biomarkers exist in association with circulating high molecular mass carrier proteins. Moreover, the total serum/ plasma concentration of the biomarker is largely determined by the clearance rate of the carrier protein, not the free-phase biomarker clearance itself. These predictions have been verified experimentally using molecular mass fractionation of human serum before mass spectrometry sequence analysis. These principles have profound implications for biomarker discovery and measurement.
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Saliva as a biological fluid is gaining wider acceptance for diagnosing diseases. The growing interest in saliva as a biological fluid is due to its noninvasiveness, ease of use, cost-effectiveness, and multiple sample collection possibilities as well as minimal risk to health care professionals of contracting infectious organisms such as HIV and Hep B. However, the clinical translation of saliva is hampered by our lack of understanding of the biomolecular transportation from blood into saliva, the diurnal variations of biomolecules present in saliva, and relatively low levels of analytes (100th to a 1000th fold less than in blood). We provide information on the current status of salivary research, salivary diagnostics empowered by nanotechnology, and future prospects in this emerging field of saliva diagnostics.
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Although the importance of clathrin- and caveolin-independent endocytic pathways has recently emerged, key aspects of these routes remain unknown. Using quantitative ultrastructural approaches, we show that clathrin-independent carriers (CLICs) account for approximately three times the volume internalized by the clathrin-mediated endocytic pathway, forming the major pathway involved in uptake of fluid and bulk membrane in fibroblasts. Electron tomographic analysis of the 3D morphology of the earliest carriers shows that they are multidomain organelles that form a complex sorting station as they mature. Proteomic analysis provides direct links between CLICs, cellular adhesion turnover, and migration. Consistent with this, CLIC-mediated endocytosis of key cargo proteins, CD44 and Thy-1, is polarized at the leading edge of migrating fibroblasts, while transient ablation of CLICs impairs their ability to migrate. These studies provide the first quantitative ultrastructural analysis and molecular characterization of the major endocytic pathway in fibroblasts, a pathway that provides rapid membrane turnover at the leading edge of migrating cells.
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Distinctions between isobaric residues have been a major challenge in mass spectrometric peptide sequencing. Here, we propose a methodology for distinction among isobaric leucine, isoleucine, and hydroxyproline, a commonly found post-translationally modified amino acid with a nominal mass of 113 Da, through a combined electron transfer dissociation-collision-induced dissociation approach. While the absence of c and z(center dot) ions, corresponding to the Yyy-Xxx (Xxx = Leu, Ile, or Hyp) segment, is indicative of the presence of hydroxyproline, loss of isopropyl (Delta m = 43 Da) or ethyl radicals (Delta m = 29 Da), through collisional activation of z(center dot) radical ions, are characteristic of leucine or isoleucine, respectively. Radical migration processes permit distinctions even in cases where the specific e ions, corresponding to the Yyy-Leu or -Ile segments, are absent or of low intensity. This tandem mass spectrometric (MSn) method has been successfully implemented in a liquid chromatography MSn platform to determine the identity of 23 different isobaric residues from a mixture of five different peptides. The approach is convenient for distinction of isobaric residues from any crude peptide mixture, typically encountered in natural peptide libraries or proteomic analysis.
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In response to infection or tissue dysfunction, immune cells develop into highly heterogeneous repertoires with diverse functions. Capturing the full spectrum of these functions requires analysis of large numbers of effector molecules from single cells. However, currently only 3-5 functional proteins can be measured from single cells. We developed a single cell functional proteomics approach that integrates a microchip platform with multiplex cell purification. This approach can quantitate 20 proteins from >5,000 phenotypically pure single cells simultaneously. With a 1-million fold miniaturization, the system can detect down to ~100 molecules and requires only ~104 cells. Single cell functional proteomic analysis finds broad applications in basic, translational and clinical studies. In the three studies conducted, it yielded critical insights for understanding clinical cancer immunotherapy, inflammatory bowel disease (IBD) mechanism and hematopoietic stem cell (HSC) biology.
To study phenotypically defined cell populations, single cell barcode microchips were coupled with upstream multiplex cell purification based on up to 11 parameters. Statistical algorithms were developed to process and model the high dimensional readouts. This analysis evaluates rare cells and is versatile for various cells and proteins. (1) We conducted an immune monitoring study of a phase 2 cancer cellular immunotherapy clinical trial that used T-cell receptor (TCR) transgenic T cells as major therapeutics to treat metastatic melanoma. We evaluated the functional proteome of 4 antigen-specific, phenotypically defined T cell populations from peripheral blood of 3 patients across 8 time points. (2) Natural killer (NK) cells can play a protective role in chronic inflammation and their surface receptor – killer immunoglobulin-like receptor (KIR) – has been identified as a risk factor of IBD. We compared the functional behavior of NK cells that had differential KIR expressions. These NK cells were retrieved from the blood of 12 patients with different genetic backgrounds. (3) HSCs are the progenitors of immune cells and are thought to have no immediate functional capacity against pathogen. However, recent studies identified expression of Toll-like receptors (TLRs) on HSCs. We studied the functional capacity of HSCs upon TLR activation. The comparison of HSCs from wild-type mice against those from genetics knock-out mouse models elucidates the responding signaling pathway.
In all three cases, we observed profound functional heterogeneity within phenotypically defined cells. Polyfunctional cells that conduct multiple functions also produce those proteins in large amounts. They dominate the immune response. In the cancer immunotherapy, the strong cytotoxic and antitumor functions from transgenic TCR T cells contributed to a ~30% tumor reduction immediately after the therapy. However, this infused immune response disappeared within 2-3 weeks. Later on, some patients gained a second antitumor response, consisted of the emergence of endogenous antitumor cytotoxic T cells and their production of multiple antitumor functions. These patients showed more effective long-term tumor control. In the IBD mechanism study, we noticed that, compared with others, NK cells expressing KIR2DL3 receptor secreted a large array of effector proteins, such as TNF-α, CCLs and CXCLs. The functions from these cells regulated disease-contributing cells and protected host tissues. Their existence correlated with IBD disease susceptibility. In the HSC study, the HSCs exhibited functional capacity by producing TNF-α, IL-6 and GM-CSF. TLR stimulation activated the NF-κB signaling in HSCs. Single cell functional proteome contains rich information that is independent from the genome and transcriptome. In all three cases, functional proteomic evaluation uncovered critical biological insights that would not be resolved otherwise. The integrated single cell functional proteomic analysis constructed a detail kinetic picture of the immune response that took place during the clinical cancer immunotherapy. It revealed concrete functional evidence that connected genetics to IBD disease susceptibility. Further, it provided predictors that correlated with clinical responses and pathogenic outcomes.
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To better understand human diseases, much recent work has focused on proteins to either identify disease targets through proteomics or produce therapeutics via protein engineering. Noncanonical amino acids (ncAAs) are tools for altering the chemical and physical properties of proteins, providing a facile strategy not only to label proteins but also to engineer proteins with novel properties. My thesis research has focused on the development and applications of noncanonical amino acids in identifying, imaging, and engineering proteins for studying human diseases. Chapter 1 introduces the concept of ncAAs and reveals insights to how I chose my thesis projects.
ncAAs have been incorporated to tag and enrich newly synthesized proteins for mass spectrometry through a method termed BONCAT, or bioorthogonal noncanonical amino acid tagging. Chapter 2 describes the investigation of the proteomic response of human breast cancer cells to induced expression of tumor suppressor microRNA miR-126 by combining BONCAT with another proteomic method, SILAC or stable isotope labeling by amino acids in cell culture. This proteomic analysis led to the discovery of a direct target of miR-126, shedding new light on its role in suppressing cancer metastasis.
In addition to mass spectrometry, ncAAs can also be utilized to fluorescently label proteins. Chapter 3 details the synthesis of a set of cell-permeant cyclooctyne probes and demonstration of selective labeling of newly synthesized proteins in live mammalian cells using azidohomoalanine. Similar to live cell imaging, the ability to selectively label a particular cell type within a mixed cell population is important to interrogating many biological systems, such as tumor microenvironments. By taking advantage of the metabolic differences between cancer and normal cells, Chapter 5 discusses efforts to develop selective labeling of cancer cells using a glutamine analogue.
Furthermore, Chapter 4 describes the first demonstration of global replacement at polar amino acid positions and its application in developing an alternative PEGylation strategy for therapeutic proteins. Polar amino acids typically occupy solvent-exposed positions on the protein surface, and incorporation of noncanonical amino acids at these positions should allow easier modification and cause less perturbation compared to replacements at the interior positions of proteins.
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Aspergillus fumigatus é o principal agente etiológico da aspergilose invasiva, infecção fúngica oportunista com altas taxas de mortalidade afetando, principalmente, pacientes com neutropenia profunda e prolongada. Durante o processo de invasão e disseminação características desta infecção sistêmica, os conídios do fungo inalados e não eliminados pelas células do sistema imune inato diferenciam-se em hifas que, por sua vez, são angioinvasivas. Pouco se conhece sobre as moléculas da parede celular envolvidas na patogênese do A. fumigatus e/ou secretadas por este patógeno. Neste contexto, este trabalho procura ampliar o entendimento desta doença através do estudo de proteínas diferencialmente expressas na superfície de A. fumigatus durante a morfogênese. Foi utilizada uma abordagem proteômica e foram estudados extratos de superfície de células de A. fumigatus em diferentes estágios durante o processo de filamentação. Estas células foram denominadas, de acordo com o tempo de cultivo e a morfologia, como: TG6h (tubo germinativo), H12h ou H72h (hifas). As proteínas de superfície celular foram extraídas, a partir de células intactas, por tratamento brando com o agente redutor DTT (ditiotreitol). Observou-se que o perfil funcional das proteínas expressas por H12h e H72h foi similar, com exceção de proteínas relacionadas à resposta ao estresse, enquanto o perfil para TG6h apresentou diferenças significativas para vários grupos funcionais de proteínas quando comparado às hifas. Desta forma, foram realizados experimentos de proteômica diferencial entre tubo germinativo (TG6h) e a hifa madura (H72h), pela técnica de DIGE (differential gel electrophoresis). Os resultados revelaram que entre as proteínas diferencialmente expressas, aquelas relacionadas às vias de biossíntese e outras denominadas multifuncionais encontraram-se superexpressas em TG6h. Em relação às proteínas de resposta a estresse, observou-se que algumas HSPs eram mais expressas neste morfotipo, enquanto a MnSOD, relativa à resposta ao estresse oxidativo, era mais abundante na hifa. Com exceção da PhiA, integrante da parede celular, as proteínas identificadas como diferencialmente expressas na superfície do A. fumigatus não possuem sinal para secreção identificável, enquadrando-se nas proteínas atípicas de superfície. Foi verificada a integridade da membrana celular após tratamento com DTT, bem como a marcação por biotina das proteínas extraídas, o que comprovou sua localização superficial na célula fúngica. Hipóteses de que estas proteínas sejam endereçadas à parede celular por via secretória alternativa sustentam estes dados. Estas evidências foram confirmadas pelo fato de não terem sido encontradas as mesmas proteínas da superfície na análise do secretoma do A. fumigatus. Além disso, todas as proteínas caracterizadas no secretoma apresentavam sinal de secreção determinado pelo FunSecKB (www.proteomics.ysu.edu/secretomes/fungi.php). A análise do secretoma foi realizada utilizando-se a cepa selvagem AF293 e a mutante ∆prtT, mutante para um fator de transcrição que atua na regulação da secreção de proteases. Os resultados revelam a ALP1 como expressa na cepa selvagem, assim como outras proteases importantes para virulência e desenvolvimento da célula fúngica, estando suprimidas quando o gene prtT foi deletado.
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Enterococcus faecium tem se destacado no cenário das infecções hospitalares, particularmente, amostras portadoras de características de multirresistência. Apesar de serem responsabilizados como agentes etiológicos em diferentes quadros clínicos, fatores associados a patogênese das infecções ainda não estão esclarecidos. Entretanto, sabe-se que a capacidade de formação de biofilmes pode ser responsabilizada como um dos atributos capazes de promover o papel patogênico desses microrganismos. Assim sendo, este estudo se propôs a investigar a capacidade de formação de biofilmes por duas amostras de E. faecium: SS-1274 (derivada da amostra tipo da espécie) e CL-6729 (multirresistente e pertencente a um complexo clonal globalmente disperso). As amostras foram caracterizadas fenotipica e genotipicamente para confirmação da identificação, determinação da susceptibilidade a 17 antimicrobianos, caracterização da concentração mínima inibitória para ampicilina, gentamicina e vancomicina, determinação do genótipo vanA e detecção de genes associados a expressão dos genes asa1, cylA, esp, gelE e hyl. A análise quantitativa da formação por 24h e 72h dos biofilmes foi realizada por metodologia do cristal violeta, em placas de microtitulação de poliestireno. Foram construídas curvas de formação pela avaliação da DO570nm das preparações coradas por cristal violeta em períodos de tempo de 2h a 74h. A influência de subCMIs de ampicilina, gentamicina e vancomicina na formação de biofilmes de E. faecium foi também caracterizada em ensaios de quantificação da biomassa. A presença de DNA e proteínas foi avaliada em ensaios de destacamento e por fluorimetria. A arquitetura, distribuição espacial e reação aos fluorocromos Syto9 e SYPRO Ruby Protein foram evidenciadas por microscopia confocal de varredura a laser. Análises proteômicas através da avaliação por SDS-PAGE e por ESI-Q-TOF também foram empregadas para avaliação de biofilmes versus crescimento planctônico. Nossos resultados demonstraram que a amostra CL-6729 apresentou uma maior biomassa nos tempos analisados. Apesar da menor quantidade de biomassa da amostra SS-1274, o perfil da curva de formação foi semelhante a CL-6729. As análises da matriz por ensaios quantitativos e microscopia confocal revelaram que proteína parece ser um importante constituinte para ambas as amostras, entretanto biofilmes formados na presença de da CMI e durante 24h, parecem sofrer alterações na constituição. Os resultados relativos às espectrometrias de massa sugerem que células de biofilmes de E. faecium podem também estar metabolicamente ativas, devido a identificação de um considerável número de proteínas relacionadas ao metabolismo e divisão celular, similarmente às células planctônicas. No entanto, investigações complementares são necessárias para quantificar as diferenças relacionadas a sua expressão. Foi observado que ambas as amostras independente das variações fenotípicas e genotípicas são capazes de formar biofilmes maduros exibindo constituição e arquitetura similares. Entretanto, nossos resultados sugeriram que cada amostra responde as diferentes situações de acordo com seus determinantes de virulência e resistência.
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O objetivo deste estudo foi investigar na saliva de crianças pré-púberes obesas, em comparação com crianças eutróficas, a presença de possíveis diferenças na expressão de mediadores proteicos relacionados à metainflamação através de um estudo observacional transversal. Foram selecionadas 105 crianças pré-púberes com idade entre 5 e 9 anos, sem quaisquer outros comprometimentos sistêmicos ou bucais sendo realizada a mensuração do comprimento da circunferência da cintura (CC), além do peso e estatura para cálculo do IMC e seu escore Z (zscore IMC), de forma a compor 3 grupos: EU - eutrofia (-2SD≤ zscore IMC≤1SD), SP - sobrepeso (1SD < zscore IMC < 2SD) e OB obesidade (zscore IMC ≥ 2SD). Após o exame médico e odontológico foi feita a coleta de sangue e de saliva total não estimulada, de forma protocolada. Amostras séricas e salivares foram analisadas, individualmente, para a dosagem de IL1β, IL6, IL8. IL10, IL12p70, TNFα, MCP1, leptina, grelina e insulina, por Multiplex e adiponectina total e de alto peso molecular (adipoHMW), por ELISA. Além disso, as amostras séricas foram utilizadas para o delineamento hemodinâmico dos pacientes. As amostras salivares de EU e OB foram também analisadas em pools por espectrometria de massa (MS) e a presença de algumas proteínas foi validada por imunoblotting, para a comparação do perfil salivar proteico. As concentrações dos analitos foram comparadas tanto entre os grupos (teste de Kruswall-Wallis), como em relação ao zscore IMC e ao CC (Correlação de Spearman ou Pearson). Dos 12 analitos, somente a adipoHMW não foi detectada em nenhuma das amostras salivares. Na comparação OBxEU houve aumento na concentração total de proteínas salivares, da insulina e leptina sérica e salivar e do MCP1, além de diminuição da adiponectina sérica total e de adipoHMW e uma menor relação adiponectina/leptina (A/L) no grupo OB. As principais correlações obtidas com o zscore IMC foram com as concentrações séricas e salivares de insulina e leptina (positivas) e com a relação A/L (negativa), observando-se também a correlação negativa com a adiponectina total e adipoHMW séricas. Na comparação entre as concentrações séricas e salivares, foi possível detectar correlação positiva entre as dosagens de insulina e leptina, assim como com os valores da relação A/L. Na análise proteômica por MS foram identificadas 670 proteínas, sendo 163 delas com expressão diferenciada na saliva de OB em relação a EU. Dentre estas, encontram-se alteradas proteínas relacionadas à resposta inflamatória humoral, em especial com a via alternativa do sistema complemento e do metabolismo redox. Foram selecionadas três destas proteínas para validação por imunoblotting, que confirmou o aumento do Fator H e a diminuição do Fator B e da tioredoxina na saliva de OB em relação a EU. Considerando os resultados, podemos verificar que embora com menores concentrações absolutas dos mediadores, a saliva mostrou praticamente as mesmas associações observadas no sangue, em especial para a insulina, leptina e relação A/L, sendo possível admitir que a análise salivar venha a ser um bom método diagnóstico não invasivo para a obesidade infantil.
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A elaboração de um programa de treinamento físico depende do controle de diferentes parâmetros bioquímicos, que se relacionam com fatores como a intensidade do exercício, imunidade e com o estado redox. Além disso, estudos recentes também começaram a apontar a relevância da função executiva como componente determinante para o alcance de um alto nível de desempenho esportivo. Por outro lado, poucos estudos foram realizados em atletas até o momento utilizando estes marcadores na saliva juntamente com os testes de função cognitiva. O objetivo desse trabalho foi estudar a capacidade discriminatória das análises bioquímicas realizadas em saliva para avaliação do desempenho físico e sua relação com a função cognitiva em atletas de futebol. Trinta e dois atletas foram submetidos ao Bangsbo Sprint Test (BST) para avaliação da capacidade física e 48 horas depois ao Teste de Stroop (TSt) e Torre de Hanoi (ToH) para avaliação da função executiva. Os níveis de lactato na saliva aumentaram quando comparados aos valores Pré-BST (6,9 vezes; p<0,05). A proteína total salivar seguiu o mesmo padrão com aumento observado após o BST (+34%; p<0,05). As concentrações de imunoglobulina-A salivar (IgA-s) não mostraram diferença significativa após o BST. Os níveis de GSH e TBARs na saliva não mostraram diferença significativa, enquanto que a concentração de ácido úrico diminuiu após o BST (-26%; p<0,05). Interessantemente, a superóxido dismutase (SOD) salivar aumentou (3,6 vezes; p<0,05), enquanto que os níveis de catalase (CAT) na saliva não alteraram significativamente. Não houve correlação de nenhum dos parâmetros analisados com o desempenho no TSt, entretanto atletas localizados no percentil superior (P90) de cortisol na saliva (11,2 ng/ mL à 32,7 ng/ mL) apresentaram tempos mais longos para a resolução do ToH. A eletroforese 2D mostrou que 215 spots só apareceram no momento Pré-BST, 63 spots aumentaram e 108 diminuíram a sua expressão após o BST. Concluindo, a saliva é sensível às modificações induzidas pelo BST. A manutenção dos níveis salivares de TBARs após o BST parece ocorrer em função da diminuição dos níveis de ácido úrico, componente este que possui uma expressiva ação antioxidante. Neste sentido, o aumento de SOD pós-exercício parece agir como uma segunda linha de defesa antioxidante contra a produção de ROS induzidas pelo BST. Além disso, os resultados dos testes de função executiva indicam que níveis elevados de cortisol salivar possuem um efeito deletério no tempo de resolução da ToH, que se refere à memória de trabalho, o planejamento e solução de problemas. No entanto o TSt, que envolve a atenção seletiva e a velocidade de processamento de informações parecem não ser afetados pelos níveis de cortisol em repouso. E finalmente, a eletroforese 2D mostrou que o BST induziu a expressão diferencial de proteínas, visto que não surgiram proteínas novas após o teste, e dezenas de proteínas foram up-reguladas e down-reguladas após o BST. Estes dados sugerem que após uma análise proteômica, estas proteínas possam ser candidatas a marcadores de desempenho físico e/ou cognitivo em futuros estudos.
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根质膜具有重要的生物学功能,它参与了根响应脱落酸(ABA)的一系列活动。尽管已经有很多有关ABA影响根的生长和发育的报道,但是在蛋白质组水平上研究参与ABA信号转导及相关活动的质膜蛋白质的报道还未见到。我们期望利用蛋白质组学技术平台研究外源ABA胁迫下水稻根质膜与ABA功能相关的蛋白质组的变化。 本论文通过双向电泳(2DE)结合质谱(MALDI-TOF MS 和 MALDI-TOF/TOF MS)分析的方法鉴定了102个质膜相关蛋白质。这些蛋白质功能涉及到跨膜运输(16.2%)、胁迫反应(14.3%)、物质运输(4.8%)、细胞骨架动态变化(5.7%)、细胞壁重建(3.8%)、碳代谢和能量循环(13.3%)、蛋白质代谢(14.3%)、信号转导(18.1%)和其他功能的蛋白质(4.8%),以及未知功能的蛋白质(2.9%)。其中大约30%的蛋白质以同工型的形式存在。在这些鉴定结果中,有10个斑点(代表10种蛋白质)已被报道为质膜特异的蛋白质;68个蛋白质斑点(代表58种蛋白质)是质膜相关蛋白质。其余54个蛋白质斑点(代表42种蛋白质)是首次在水稻根的质膜囊泡中被鉴定出来。 在ABA处理条件下,我们在2DE胶上发现了15个响应ABA调节的蛋白质斑点。9个上调的蛋白质斑点分别代表以下9种蛋白质:vacuolar proton-ATPase A subunit, vacuolar ATPase B subunit、patatin、 Salt-stress root protein RS1、谷氨酰氨合成酶(Glutamine synthetase,GS)、OSR40c1、H+-exporting ATPase (vacuolar ATPase E subunit)、甘油醛-3-磷酸脱氢酶I型(glyceraldehyde-3- phosphate dehydrogenase, type I,GADPH)和醛缩酶C-1(aldolase C-1)。6个下调的蛋白质斑点分别代表4种蛋白质:endosperm lumenal binding protein、remorin protein、富含脯氨酸蛋白质(glycine-rich protein,GRP)和蔗糖合成酶(sucrose synthase, SuSy)。其中,OSR40c1和endosperm lumenal binding protein与蛋白质合成相关,从它们与ABA的关系中可以看出,ABA可能抑制了细胞的蛋白质合成。而vacuolar proton-ATPase A subunit、vacuolar ATPase B subunit和 H+-exporting ATPase参与了细胞质pH的调控,ABA致使了细胞质pH的上升。甘油醛-3-磷酸脱氢酶I型、醛缩酶C-1和蔗糖合酶参与了细胞壁的生长发育,ABA的作用可能导致了细胞壁生长发育的延迟。ABA促使Patatin上升,其作用可能与质膜膜脂的降解有关。而ABA的刺激也使谷氨酰氨合成酶的表达显著上升,谷氨酰氨合成酶可以去除细胞内有害的游离NH+4。同时还有未知功能的富含脯氨酸蛋白质(glycine-rich protein,GRP)同样受到ABA的诱导,但具体的功能及其与ABA的关系还要进一步的实验证据。
