Screening for carbapenemase-associated biomarkers in Klebsiella oxytoca using matrixassisted laser desorption/ionization time of flight mass spectrom

Uppström, Hannah

January 2022

Antibiotic resistant bacteria are threatening human health, and the resistance is progressingfaster than the development of new antimicrobial compounds. Antibiotic resistant infections cost enormous sums of money and resources, but most importantly human lives. Therefore, early prediction and detection of antibiotic resistance in bacteria are research areas of high priority. The use of analytical instruments such as matrix-assisted laser desorption/ionization time of flight (MALDI-TOF) mass spectrometry (MS) is a powerful tool for research in antibiotic resistant bacteria, both as quick microbe identification and for other areas in the field.Due to its relatively easy interpretable spectra provided by the soft ionization technique, and ability to ionize macromolecules without compromising sample integrity, it has also been used for biomarker screening for detection of antimicrobial resistance. Although these studies have shown promising results, the area is still progressing and needs further method development and standardized protocols. This study aimed to use MALDI-TOF MS for carbapenemaseassociated screening in Klebsiella oxytoca. The presumed key spectral peaks would derive from presence of the enzyme Verona integron-encoded metallo-β-lactamase, type 1 (VIM-1), and would not be found if VIM-1 were absent. The isolates, carrying the enzyme, used in the study were isolated from wastewater and river water in Örebro, Sweden. Bacteria genus and species was determined by MALDI-TOF identification, whereupon the microbes were tested for antibiotic susceptibility using the disk diffusion method. Carbapenem hydrolysis assay was used to confirm the presence/absence of functional carbapenemase. A genotypic confirmation was performed by polymerase chain reaction and gel electrophoresis. Mass spectra from MALDI-TOF were compared for identification of possible biomarker peaks that could indicate carbapenem resistance. Nine key mass spectral peaks were found that could potentially be used as biomarkers in future studies. The peaks differentiated two groups of Klebsiella oxytocaisolates, one group producing functional carbapenemase and one group that did not, consistent with the aim of this study.

MALDI-TOF MS

carbapenems

carbapenem resistance

AST biomarkers

Chemical Sciences

Kemi

Caracterização físico-química da foliculotrofina humana (hFSH) recombinante e de suas subunidades, por cromatografia líquida de alta eficiência (HPLC) em fase reversa: comparação com a preparação de referência de hFSH de origem hipofisária do \"National Hormone and Pituitary Program\" dos EUA / Physico-chemical characterization of human recombinant follicle-stimulating hormone (hFSH) and its subunits by reversed-phase high-performance liquid chromatography (RP-HPLC): comparison with pituitary hFSH reference preparation from National Hormone and Pituitary Program from USA

Renan Fernandes Loureiro

06 November 2006

Um método de cromatografia líquida de alta eficiência por fase reversa (RP-HPLC) para análise qualitativa e quantitativa do hormônio folículo estimulante humano íntegro (hFSH), foi estabelecido e validado quanto à exatidão, precisão e sensibilidade. O FSH humano é um hormônio glicoprotéico dimérico largamente utilizado em medicina reprodutiva tanto para diagnóstico quanto para terapia. A metodologia desenvolvida preserva a integridade da proteína, permitindo a análise da forma heterodimérica intacta, e não somente de suas subunidades, como é normalmente obtida na maioria das condições geralmente empregadas. Esta técnica foi também utilizada para a comparação da hidrofobicidade relativa de preparações de hFSH hipofisária, urinária e derivadas de células de ovário de hamster chinês (CHO) bem como de outros dois hormônios glicoprotéicos, sintetizados na hipófise anterior: hormônio humano estimulante da tireóide (hTSH) e hormônio luteinizante humano (hLH). O menos hidrofóbico dos três hormônios analisados foi o hFSH, seguido do hTSH e do hLH. Uma diferença significativa (p<0,005) foi observada entre o tempo de retenção (tR) das preparações hipofisária e recombinante de hFSH, refletindo diferenças estruturais nas suas cadeias de carboidratos. Duas isoformas principais foram detectadas no hFSH urinário, incluindo uma forma que foi significativamente diferente (p<0,005) das preparações hipofisária e recombinante. Foram demonstradas linearidade da curva dose-resposta (r=0,9965, n=15) para esta metodologia de RP-HPLC, bem como uma precisão inter-ensaio, cujo coeficiente de variação é menor que 4%, para a quantificação de diferentes preparações de hFSH e uma sensibilidade da ordem de 40 ng. Foram também analisados o comportamento cromatográfico e a hidrofobicidade relativa das subunidades individuais das preparações recombinantes e hipofisária de hFSH. Além disso, a exata massa molecular das subunidades individuais de hFSH e do heterodímero foram simultaneamente determinadas por espectrometria de massa MALDI-TOF. A presente metodologia representa, em nossa opinião, uma ferramenta essencial para a caracterização e controle de qualidade deste hormônio, que ainda não consta das principais farmacopéias. / A reversed-phase high-performance liquid chromatography (RP-HPLC) method for the qualitative and quantitative analysis of intact human follicle-stimulating hormone (hFSH) was established and validated for accuracy, precision and sensitivity. Human FSH is a dimeric glycoprotein hormone widely used as a diagnostic analyte and as therapeutic product in reproductive medicine. The technique developed preserves the protein integrity, allowing the analysis of the intact heterodimeric form rather than just of its subunits, as it is the case for the majority of the conditions currently employed. This methodology has also been employed for comparing the relative hydrophobicity of pituitary, urinary and two Chinese hamster ovary (CHO)-derived hFSH preparations, as well as of two other related glycoprotein hormones of the anterior pituitary: human thyroid-stimulating hormone (hTSH) and human luteinizing hormone (hLH). The least hydrophobic of the three glycohormones analyzed was hFSH, followed by hTSH and hLH. A significant difference (p<0.005) was observed in tR between the pituitary and recombinant hFSH preparations, reflecting structural differences in their carbohydrate moieties. Two main isoforms were detected in urinary hFSH, including a form which was significantly different (p<0.005) for the pituitary and recombinant preparations. The linearity of the dose-response curve (r = 0.9965, n = 15) for this RP-HPLC methodology, as well as an inter-assay precision with relative standard deviation less than 4% for the quantification of different hFSH preparations and a sensitivity of the order of 40 ng, were demonstrated. The chromatographic behavior and relative hydrophobicity of the individual subunits of the pituitary and recombinant preparations were also analyzed. Furthermore, the accurate molecular mass of the individual hFSH subunits and of the heterodimer were simultaneously determined by matrix-assisted laser desorption ionization time-of-flight mass spectral analysis (MALDI-TOF-MS). The present methodology represents, in our opinion, an essential tool for characterization and quality control of this hormone that is not yet described in the main pharmacopoeias.

follicle-stimulating hormone

glycohormone subunit

MALDI-TOF-MS

reversed-phase HPLC

experimental data

FSH

gonadotropins

liquid column chromatography

pituitary hormones

TSH

Identification of differentially expressed proteins in obese rats fed different high fat diets using proteomics and bioinformatics approaches

Gabuza, Kwazikwakhe

January 2013

Philosophiae Doctor - PhD / Obesity is a medical condition in which an energy imbalance leads to excessive accumulation of body fat. Obesity leads to a reduction in life expectancy through its association with chronic diseases of lifestyle. The prevalence of obesity is rapidly increasing throughout the world. It is now accepted that most cases of obesity result from an interaction between genetic and environmental factors. This rapid increase in obesity generally leads to an increase in morbidity and mortality from chronic diseases such as cardiovascular disease, type 2 diabetes, osteoarthritis and cancer of which obesity is a risk factor. There is a lack of information in molecular research to explain how obesity predisposes individuals to these diseases. Proteomics is a molecular tool and a set of techniques used to identify changes at protein level from a diseased state. This study aims to identify differentially expressed proteins in serum of obese rats fed different isocaloric diets using proteomics.

High fat diet

Diet induced obesity

2D gel

MALDI TOF MS

Proteomics

Candidate biomarkers

Wistar rats

Serum

Western blot

Differentially expressed proteins

Caracterização físico-química da foliculotrofina humana (hFSH) recombinante e de suas subunidades, por cromatografia líquida de alta eficiência (HPLC) em fase reversa: comparação com a preparação de referência de hFSH de origem hipofisária do \"National Hormone and Pituitary Program\" dos EUA / Physico-chemical characterization of human recombinant follicle-stimulating hormone (hFSH) and its subunits by reversed-phase high-performance liquid chromatography (RP-HPLC): comparison with pituitary hFSH reference preparation from National Hormone and Pituitary Program from USA

Loureiro, Renan Fernandes

06 November 2006

Um método de cromatografia líquida de alta eficiência por fase reversa (RP-HPLC) para análise qualitativa e quantitativa do hormônio folículo estimulante humano íntegro (hFSH), foi estabelecido e validado quanto à exatidão, precisão e sensibilidade. O FSH humano é um hormônio glicoprotéico dimérico largamente utilizado em medicina reprodutiva tanto para diagnóstico quanto para terapia. A metodologia desenvolvida preserva a integridade da proteína, permitindo a análise da forma heterodimérica intacta, e não somente de suas subunidades, como é normalmente obtida na maioria das condições geralmente empregadas. Esta técnica foi também utilizada para a comparação da hidrofobicidade relativa de preparações de hFSH hipofisária, urinária e derivadas de células de ovário de hamster chinês (CHO) bem como de outros dois hormônios glicoprotéicos, sintetizados na hipófise anterior: hormônio humano estimulante da tireóide (hTSH) e hormônio luteinizante humano (hLH). O menos hidrofóbico dos três hormônios analisados foi o hFSH, seguido do hTSH e do hLH. Uma diferença significativa (p<0,005) foi observada entre o tempo de retenção (tR) das preparações hipofisária e recombinante de hFSH, refletindo diferenças estruturais nas suas cadeias de carboidratos. Duas isoformas principais foram detectadas no hFSH urinário, incluindo uma forma que foi significativamente diferente (p<0,005) das preparações hipofisária e recombinante. Foram demonstradas linearidade da curva dose-resposta (r=0,9965, n=15) para esta metodologia de RP-HPLC, bem como uma precisão inter-ensaio, cujo coeficiente de variação é menor que 4%, para a quantificação de diferentes preparações de hFSH e uma sensibilidade da ordem de 40 ng. Foram também analisados o comportamento cromatográfico e a hidrofobicidade relativa das subunidades individuais das preparações recombinantes e hipofisária de hFSH. Além disso, a exata massa molecular das subunidades individuais de hFSH e do heterodímero foram simultaneamente determinadas por espectrometria de massa MALDI-TOF. A presente metodologia representa, em nossa opinião, uma ferramenta essencial para a caracterização e controle de qualidade deste hormônio, que ainda não consta das principais farmacopéias. / A reversed-phase high-performance liquid chromatography (RP-HPLC) method for the qualitative and quantitative analysis of intact human follicle-stimulating hormone (hFSH) was established and validated for accuracy, precision and sensitivity. Human FSH is a dimeric glycoprotein hormone widely used as a diagnostic analyte and as therapeutic product in reproductive medicine. The technique developed preserves the protein integrity, allowing the analysis of the intact heterodimeric form rather than just of its subunits, as it is the case for the majority of the conditions currently employed. This methodology has also been employed for comparing the relative hydrophobicity of pituitary, urinary and two Chinese hamster ovary (CHO)-derived hFSH preparations, as well as of two other related glycoprotein hormones of the anterior pituitary: human thyroid-stimulating hormone (hTSH) and human luteinizing hormone (hLH). The least hydrophobic of the three glycohormones analyzed was hFSH, followed by hTSH and hLH. A significant difference (p<0.005) was observed in tR between the pituitary and recombinant hFSH preparations, reflecting structural differences in their carbohydrate moieties. Two main isoforms were detected in urinary hFSH, including a form which was significantly different (p<0.005) for the pituitary and recombinant preparations. The linearity of the dose-response curve (r = 0.9965, n = 15) for this RP-HPLC methodology, as well as an inter-assay precision with relative standard deviation less than 4% for the quantification of different hFSH preparations and a sensitivity of the order of 40 ng, were demonstrated. The chromatographic behavior and relative hydrophobicity of the individual subunits of the pituitary and recombinant preparations were also analyzed. Furthermore, the accurate molecular mass of the individual hFSH subunits and of the heterodimer were simultaneously determined by matrix-assisted laser desorption ionization time-of-flight mass spectral analysis (MALDI-TOF-MS). The present methodology represents, in our opinion, an essential tool for characterization and quality control of this hormone that is not yet described in the main pharmacopoeias.

experimental data

follicle-stimulating hormone

FSH

glycohormone subunit

gonadotropins

liquid column chromatography

MALDI-TOF-MS

pituitary hormones

reversed-phase HPLC

TSH

Massenspektrometrische Untersuchungen einzelner Pollenkörner

Lauer, Franziska

15 April 2019

Blütenstaub ist eine der Hauptursachen für allergische Erkrankungen des Menschen. Insbesondere die Matrix-unterstützte Laser-Desorption/Ionisation-Flugzeit Massenspektrometrie stellt eine geeignete Technik dar, um solch komplexe, biologische Proben zu charakterisieren. Bei MALDI-TOF MS-Analysen werden die Bestandteile detektiert, die zuvor durch die Matrixauftragung und/oder während der Laser-Desorption von der Oberfläche des Pollenkorns abgelöst werden. Hier zeigte sich, dass die Verwendung eines leitfähigen Klebebandes zur Probenpräparation sowohl die Fixierung der Pollenkörner als auch die Extraktion der Analyten aus diesen verbessert. Die gezeigten Ergebnisse belegen, dass sich Pollen verschiedener Pflanzenarten über den Vergleich von massenspektrometrischen Peakmustern differenzieren lassen. Zur Beurteilung der spektralen Muster wurden in dieser Arbeit multivariate, statistische Verfahren, speziell die Hauptkomponentenanalyse verwendet. Diese hebt Unterschiede in den Datensätzen hervor und ermöglicht eine varianzgewichtete Darstellung und verbesserte Klassifizierung. Zur effizienten multivarianten Analyse wurde dieses Verfahren in eine graphische Benutzeroberfläche eingebunden. Neben der individuellen Charakterisierung einzelner Pollenproben liegt eine weitere Herausforderung in der massenspektrometrischen Analyse von Pollenkornmischungen, da es durch Vermischungs- und Suppressionseffekte zur Diskriminierung einzelner, möglicherweise charakteristischer MS-Peaks kommen kann. Deshalb wurde in dieser Arbeit die bildgebende MALDI Massenspektrometrie angewendet. So konnten in einem Modellsystem einzelne Pollenkörner unterschiedlicher Arten nachgewiesen und ihren ursprünglichen Positionen in der Probe zugeordnet werden. Der im Rahmen der Arbeit vorgestellte Ansatz stellt eine neue, zuverlässige Methode zur Pollenbestimmung dar, die nicht auf der individuellen, visuellen Beurteilung, sondern auf einer spektrometrisch-analytischen Basis beruht. / Pollen represent one of the major causes for allergies in humans. Matrix-assisted laser desorption/ ionization time-of-flight is a suitable technique to characterize such complex biological samples. In pollen analyses, MALDI-TOF MS detects components that are extracted from the grain surface by the matrix solution and during laser desorption. Like any biological structure, pollen grains contain specific proteins, peptides, lipids and carbohydrates that produce characteristic signal patterns in the mass spectrum. The sample preparation applied in this work showed that the use of a conductive adhesive tape improves both the fixation of the pollen grains and the extraction of the analytes from them. The shown results prove that pollen of different plant species can be differentiated by comparing their respective mass spectral patterns. For the evaluation of such spectral patterns multivariate statistical methods, and in this work especially principal component analysis, are needed. PCA highlights differences in data sets and enables variance-weighting and improved classification. For efficient multivariate analysis, this method was integrated into a graphical user interface. In addition to the individual characterization of pollen samples, the mass spectrometric analysis of pollen grain mixtures posed a further challenge, since mixing and suppression effects can lead to discrimination of individual, possibly characteristic MS-peaks. For this purpose, the MALDI MS Imaging technique was applied. For the evaluation of such imaging data sets, further multivariate methods were applied, investigated, and evaluated. Thereby, in a model system individual pollen grains of different species could be identified and assigned their original position in the sample. The presented approach represents a new, reliable method for pollen determination, based on spectrometric-analytical basis rather than an individual visual assessment.

Analytische Chemie

Multivariate Statistik

Pollenkornanalyse

Massenspektrometrie

Analytical chemistry

multivariate statistics

pollen grain analysis

MALDI-TOF MS

543 Analytische Chemie

WM 1800

ddc:543

A proteomic analysis of drought and salt stress responsive proteins of different sorghum varieties

Ngara, Rudo

January 2009

<p>This study reports on a proteomic analysis of sorghum proteomes in response to salt and hyperosmotic stresses. Two-dimensional gel electrophoresis (2DE) in combination with mass spectrometry (MS) was used to separate, visualise and identify sorghum proteins using both sorghum cell suspension cultures and whole plants. The sorghum cell suspension culture system was used as a source of culture filtrate (CF) proteins. Of the 25 visualised CBB stained CF spots, 15 abundant and well-resolved spots were selected for identification using a combination of MALDI-TOF and MALDI-TOFTOF MS, and database searching. Of these spots, 14 were positively identified as peroxidases, germin proteins, oxalate oxidases and alpha-galactosidases with known functions in signalling processes, defense mechanisms and cell wall metabolism.</p>

A proteomic analysis of drought and salt stress responsive proteins of different sorghum varieties

Ngara, Rudo

January 2009

<p>This study reports on a proteomic analysis of sorghum proteomes in response to salt and hyperosmotic stresses. Two-dimensional gel electrophoresis (2DE) in combination with mass spectrometry (MS) was used to separate, visualise and identify sorghum proteins using both sorghum cell suspension cultures and whole plants. The sorghum cell suspension culture system was used as a source of culture filtrate (CF) proteins. Of the 25 visualised CBB stained CF spots, 15 abundant and well-resolved spots were selected for identification using a combination of MALDI-TOF and MALDI-TOFTOF MS, and database searching. Of these spots, 14 were positively identified as peroxidases, germin proteins, oxalate oxidases and alpha-galactosidases with known functions in signalling processes, defense mechanisms and cell wall metabolism.</p>

Improved Techniques for Protein Analysis Focusing on Membrane Proteins and Hydrophobic Peptides

Redeby, Theres

January 2006

In this thesis, the vital cell functions performed by integral membrane proteins (IMPs) are briefly discussed. Such proteins are under-represented in most protein studies due to the hydrophobic nature of IMPs, which seriously complicate their solubilization, sample handling, preparation, separation and analysis. Conventional analytical techniques include for example matrix-assisted laser desorption/ionization mass spectrometry (MALDIMS), capillary electrophoresis (CE) and reversed phase high-performance liquid chromatography (RP-HPLC). Presented here are methods and protocols, which have been developed especially for IMP and hydrophobic peptide analysis, using the abovementioned techniques. The fluorinated organic solvent hexafluoroisopropanol (HFIP) has previously been shown beneficial as an additive for solubilization of hydrophobic analytes, which are poorly soluble in commonly used organic solvents or water. In Papers I-IV, HFIP is successfully exploited as solvent for the investigated IMPs and peptides. The simple fabrication and the focusing effect of a new structured MALDI target plate are presented in Paper I. This target plate contains concentrating sample spots, specifically designed to provide increased sensitivity for hydrophobic protein and peptide MALDI-MS analysis. When replacing a regular steel target with this new structured MALDI plate, more than a five-fold increase in average sensitivity is achieved for HFIP solubilized hydrophobic peptides. The full-length IMP bacteriorhodopsin (BR) and a cyanogen bromide digest thereof are used as model samples for the development of sample handling procedures in Paper II, and the peptides were used for evaluation of the MALDI-target plate in Paper I. Furthermore, the CE separation of the peptides, fractionation onto the structured MALDI plate and following MS analysis is presented in Paper III. Nine of the ten theoretical BR peptides were detected using this method. A protocol for the purification and analysis of chloroplast membrane proteins from the green macroalga Ulva lactuca has been described in Paper IV. The highest protein yield was achieved when proteins were extracted in HFIP, directly from the chloroplasts. The MALDI-MS analysis of samples with and without previous RP-HPLC fractionation revealed proteins with molecular weights ranging between 1 and 376 kDa. In Paper V, a closed-open-closed CE system is presented, containing an open microchannel for off-line MALDI detection. The electroosmotic flow and band broadening of this system has been evaluated. / QC 20100916

Integral membrane proteins

Hydrophobic peptides

Sample handling

MALDI-TOF-MS

Structured sample support

CE

fraction collection

microchannel

Analytical chemistry

Analytisk kemi

Studies On Novel Immunogenic Proteins Of Clostridium Chauvoei

Coral, Didem

01 December 2009

Clostridium chauvoei is a gram-positive, spore-forming anaerobic bacterium. It is the pathogenic agent of blackleg, a disease causing serious toxemia and high mortality in cattle, sheep and many other domestic and wild animals. It is considered the most important Clostridium producing economic losses in livestock. Typically, animals infected with blackleg die rapidly without any signs of illness. Animals quickly die within 12 to 48 hours after contracting the disease. Therefore, the control of this disease is done by commercial vaccines consisting of whole formolized cultures. Immunity against C. chauvoei is associated with whole cell, including its somatic and flagellar antigens while in other clostridial diseases, protective immunity is obtained by the use of vaccines containing toxoids. Moreover, it is essential to obtain new information about the somatic antigens of C. chauvoei. Proteomics is the study of the proteome, the protein complement of the genome. The proteome has been defined as the entire complement of proteins expressed by a cell, organism, or tissue type, and accordingly, proteomics is the study of this complement expressed at a given time or under certain environmental conditions. 2-DE with Immobilized pH Gradients (IPGs) combined with protein identification by Mass Spectrometry (MS) is currently the workhorse for proteomics. Much of information about immunogenic component can be derived from proteomics coupled to Western blotting, namely immunoproteomics. Our study constitutes the first immunoproteomic analysis of C. chauvoei to identify candidate immunogenic antigens for development of new vaccines. Analyses were performed by Western blot and dot blot techniques against the whole cell extract proteins of C. chauvoei separated by 2-DE. Firstly, the growth conditions of two different strains, C. chauvoei ATCC 11957 and C. chauvoei 20 were optimized. After mice immunization studies with experimental vaccines prepared, sera were obtained for evaluation of the immunoglobulin G antibody level by ELISA. After high level of antibody response determination, 1-DE, 2-DE and immunoblot studies were performed for the characterization of immunogenic proteins. In the study, a total of 460 protein spots could be detected on the 2-DE gels by the help of Delta2D image analysis software and 30 of them were reacted with polyclonal antibodies against inactivated whole cells of C. chauvoei. Among these 30 spots, and 8 of them could be characterized by MALDI-TOF MS analyses. Of these 8 spots revealed four different gene products (distinct ORFs). Ornithine decarboxylase, methionine adenosyltransferase, glucose-6-phosphate isomerase, and flagellin protein FliB (C) are the characterized proteins. Glucose-6-phosphate isomerase has been identified as an immunogenic protein for a pathogenic microbe and in C. chauvoei for the first time. Methionine adenosyltransferase and ornithine decarboxylation were identified as immunogenic for C. chauvoei for the first time. The last defined protein is the flagellin protein FliB(C) which is known to be major immunogenic protein of C. chauvoei.

QH General Biology 301-705

A proteomic analysis of drought and salt stress responsive proteins of different sorghum varieties

Ngara, Rudo

January 2009

<p>This study reports on a proteomic analysis of sorghum proteomes in response to salt and hyperosmotic stresses. Two-dimensional gel electrophoresis (2DE) in combination with mass spectrometry (MS) was used to separate, visualise and identify sorghum proteins using both sorghum cell suspension cultures and whole plants. The sorghum cell suspension culture system was used as a source of culture filtrate (CF) proteins. Of the 25 visualised CBB stained CF spots, 15 abundant and well-resolved spots were selected for identification using a combination of MALDI-TOF and MALDI-TOFTOF MS, and database searching. Of these spots, 14 were positively identified as peroxidases, germin proteins, oxalate oxidases and alpha-galactosidases with known functions in signalling processes, defense mechanisms and cell wall metabolism.</p>