Sensory and instrumental profiling of apples: a new tool for quality assessment

Food suppliers currently measure apple quality considering basic pomological descriptors. Sensory analysis is expensive, does not permit to analyse many samples, and cannot be implemented for measuring quality properties in real time. However, sensory analysis is the best way to precisely describe food eating quality, since it is able to define, measure, and explain what is really perceivable by human senses and using a language that closely reflects the consumers’ perception. On the basis of such observations, we developed a detailed protocol for apple sensory profiling by descriptive sensory analysis and instrumental measurements. The collected sensory data were validated by applying rigorous scientific criteria for sensory analysis. The method was then applied for studying sensory properties of apples and their changes in relation to different pre- and post-harvest factors affecting fruit quality, and demonstrated to be able to discriminate fruit varieties and to highlight differences in terms of sensory properties. The instrumental measurements confirmed such results. Moreover, the correlation between sensory and instrumental data was studied, and a new effective approach was defined for the reliable prediction of sensory properties by instrumental characterisation. It is therefore possible to propose the application of this sensory-instrumental tool to all the stakeholders involved in apple production and marketing, to have a reliable description of apple fruit quality.

Exploring host-pathogen interactions through protein microarray. Large-scale protein microarray analysis revealed novel human receptors for the staphylococcal immune evasion protein FLIPr and for the neisserial adhesin NadA

Adhesion, immune evasion and invasion are key determinants during bacterial pathogenesis. Pathogenic bacteria possess a wide variety of surface exposed and secreted proteins which allow them to adhere to tissues, escape the immune system and spread throughout the human body. Therefore, extensive contacts between the human and the bacterial extracellular proteomes take place at the host-pathogen interface at the protein level. Recent researches emphasized the importance of a global and deeper understanding of the molecular mechanisms which underlie bacterial immune evasion and pathogenesis. Through the use of a large-scale, unbiased, protein microarray-based approach and of wide libraries of human and bacterial purified proteins, novel host-pathogen interactions were identified. This approach was first applied to Staphylococcus aureus, cause of a wide variety of diseases ranging from skin infections to endocarditis and sepsis. The screening led to the identification of several novel interactions between the human and the S. aureus extracellular proteomes. The interaction between the S. aureus immune evasion protein FLIPr (formyl-peptide receptor like-1 inhibitory protein) and the human complement component C1q, key players of the offense-defense fighting, was characterized using label-free techniques and functional assays. The same approach was also applied to Neisseria meningitidis, major cause of bacterial meningitis and fulminant sepsis worldwide. The screening led to the identification of several potential human receptors for the neisserial adhesin A (NadA), an important adhesion protein and key determinant of meningococcal interactions with the human host at various stages. The interaction between NadA and human LOX-1 (low-density oxidized lipoprotein receptor) was confirmed using label-free technologies and cell binding experiments in vitro. Taken together, these two examples provided concrete insights into S. aureus and N. meningitidis pathogenesis, and identified protein microarray coupled with appropriate validation methodologies as a powerful large scale tool for host-pathogen interactions studies.

Proteomics-driven approach for the detection of breast cancer biomarkers

Breast cancer (BC) is the most often diagnosed cancer entity of women worldwide. No molecular biomarkers are usable in the clinical routine for the early detection of BC. Proteomics is one of the dynamic tools for the successful examination of changes on the protein level. In this thesis different proteomics-based investigations were performed for the detection of protein and autoantibody biomarkers in serum samples of BC and healthy (CTRL) subjects. First, protein levels of candidates from previous profiling studies were investigated via antibody-microarray platform. Three proteins were found in distinct levels in both groups: secretoglobin family 1D member 1, alpha-2 macroglobulin and inter-alpha-trypsin inhibitor heavy chain family member 4. The second part was dedicated to the de novo exploration of potentially immunogenic tumor antigens (TA’s) with immunoprecipitation and Western immunoblotting followed by identification over mass spectrometry. Autoantibody levels were verified in individual serum profiling via the protein microarray platform. Two autoantibody’ cohorts (anti-Histone 2B and anti-Recoverin) were found in different levels in both groups. The findings of this PhD thesis underline deregulated serum protein and autoantibody levels in the presence of BC. Further investigations are needed to confirm the results in an independent study population.

Genexpressionsanalyse boviner mesenchymaler Stammzellen und deren in-vitro-differenzierten Folgelinien

Mesenchymale Stamzellen (MSC) sind Vertreter der adulten Stammzellen. Sie bergen durch ihre große Plastizität ein immenses Potential für die klinische Nutzung in Form von Stammzelltherapien. Zellen dieses Typs kommen vornehmlich im Knochenmark der großen Röhrenknochen vor und können zu Knochen, Knorpel und Fettzellen differenzieren. MSC leisten einen wichtigen Beitrag im Rahmen regenerativer Prozesse, beispielsweise zur Heilung von Frakturen. Breite Studien demonstrieren bereits jetzt auch bei komplexeren Erkrankungen (z.B. Osteoporose) therapeutisch vielversprechende Einsatzmöglichkeiten. Oft kommen hierbei aus MSC gezielt differenzierte Folgelinien aus Zellkulturen zum Einsatz. Dies bedingt eine kontrollierte Steuerung der Differenzierungsprozesse in vitro. Der Differenzierung einer Stammzelle liegt eine komplexe Veränderung ihrer Genexpression zugrunde. Genexpressionsmuster zur Erhaltung und Proliferation der Stammzellen müssen durch solche, die der linienspezifischen Differenzierung dienen, ersetzt werden. Die mit der Differenzierung einhergehende, transkriptomische Neuausrichtung ist für das Verständnis der Prozesse grundlegend und wurde bislang nur unzureichend untersucht. Ziel der vorliegenden Arbeit ist eine transkriptomweite und vergleichende Genexpressionsanalyse Mesenchymaler Stammzellen und deren in vitro differenzierten Folgelinien mittels Plasmid - DNA Microarrays und Sequenziertechniken der nächsten Generation (RNA-Seq, Illumina Plattform). In dieser Arbeit diente das Hausrind (Bos taurus) als Modellorganismus, da es genetisch betrachtet eine hohe Ähnlichkeit zum Menschen aufweist und Knochenmark als Quelle von MSC gut verfügbar ist. Primärkulturen Mesenchymaler Stammzellen konnten aus dem Knochenmark von Rindern erfolgreich isoliert werden. Es wurden in vitro Zellkultur - Versuche durchgeführt, um die Zellen zu Osteoblasten, Chondrozyten und Adipozyten zu differenzieren. Zur Genexpressionsanalyse wurde RNA aus jungen MSC und einer MSC Langzeitkultur („alte MSC“), sowie aus den differenzierten Zelllinien isoliert und für nachfolgende Experimente wo nötig amplifiziert. Der Erfolg der Differenzierungen konnte anhand der Genexpression von spezifischen Markergenen und mittels histologischer Färbungen belegt werden. Hierbei zeigte sich die Differenzierung zu Osteoblasten und Adipozyten erfolgreich, während die Differenzierung zu Chondrozyten trotz diverser Modifikationen am Protokoll nicht erfolgreich durchgeführt werden konnte. Eine vergleichende Hybridisierung zur Bestimmung differentieller Genexpression (MSC vs. Differenzierung) mittels selbst hergestellter Plasmid - DNA Microarrays ergab für die Osteogenese mit Genen wie destrin und enpp1, für die undifferenzierten MSC mit dem Gen sema3c neue Kandidatengene, deren biologische Funktion aufzuklären in zukünftigen Experimenten vielversprechende Ergebnisse liefern sollte. Die Analyse der transkriptomweiten Genexpression mittels NGS lieferte einen noch umfangreicheren Einblick ins Differenzierungsgeschehen. Es zeigte sich eine hohe Ähnlichkeit im Expressionsprofil von jungen MSC und Adipozyten, sowie zwischen den Profilen der alten MSC (eine Langzeitkultur) und Osteoblasten. Die alten MSC wiesen deutliche Anzeichen für eine spontane Differenzierung in die osteogene Richtung auf. Durch Analyse der 100 am stärksten exprimierten Gene jeder Zelllinie ließen sich für junge MSC und Adipozyten besonders Gene der extrazellulären Matrix (z.B col1a1,6 ; fn1 uvm.) auffinden. Sowohl Osteoblasten, als auch die alten MSC exprimieren hingegen verstärkt Gene mit Bezug zur oxidativen Phosphorylierung, sowie ribosomale Proteine. Eine Betrachtung der differentiellen Genexpression (junge MSC vs. Differenzierung) mit anschließender Pathway Analyse und Genontologie Anreicherungsstatistik unterstützt diese Ergebnisse vor allem bei Osteoblasten, wo nun jedoch zusätzlich auch Gene zur Regulation der Knochenentwicklung und Mineralisierung in den Vordergrund treten. Für Adipozyten konnte mit Genen des „Jak-STAT signaling pathway“, der Fokalen Adhäsion, sowie Genen des „Cytokine-cytokine receptor interaction pathway“ sehr spannende Einsichten in die Biologie dieses Zelltyps erlangt werden, die sicher weiterer Untersuchungen bedürfen. In undifferenzierten MSC konnte durch differentielle Genexpressionsanalyse die Rolle des nicht kanonischen Teils des WNT Signalweges als für die Aufrechterhaltung des Stammzellstatus potentiell äußerst einflussreich ermittelt werden. Die hier diskutierten Ergebnisse zeigen beispielhaft, dass besonders mittels Genexpressionsanalyse im Hochdurchsatzverfahren wertvolle Einblicke in die komplexe Biologie der Stammzelldifferenzierung möglich sind. Als Grundlage für nachfolgende Arbeiten konnten interessante Gene ermittelt und Hypothesen zu deren Einfluss auf Stammzelleigenschaften und Differenzierungsprozesse aufgestellt werden. Um einen besseren Einblick in den Differenzierungsverlauf zu ermöglichen, könnten künftig NGS Analysen zu unterschiedlichen Differenzierungszeitpunkten durchgeführt werden. Zudem wären weitere Anstrengungen zur erfolgreichen Etablierung der chondrogenen Differenzierung zur vollständigen Analyse der Genexpression des trilinearen Differenzierungspotentials von MSC wünschenswert.

Molecular risk assessment of BIG 1-98 participants by expression profiling using RNA from archival tissue

The purpose of the work reported here is to test reliable molecular profiles using routinely processed formalin-fixed paraffin-embedded (FFPE) tissues from participants of the clinical trial BIG 1-98 with a median follow-up of 60 months.

Mining tissue microarray data to uncover combinations of biomarker expression patterns that improve intermediate staging and grading of clear cell renal cell cancer

PURPOSE: Tumor stage and nuclear grade are the most important prognostic parameters of clear cell renal cell carcinoma (ccRCC). The progression risk of ccRCC remains difficult to predict particularly for tumors with organ-confined stage and intermediate differentiation grade. Elucidating molecular pathways deregulated in ccRCC may point to novel prognostic parameters that facilitate planning of therapeutic approaches. EXPERIMENTAL DESIGN: Using tissue microarrays, expression patterns of 15 different proteins were evaluated in over 800 ccRCC patients to analyze pathways reported to be physiologically controlled by the tumor suppressors von Hippel-Lindau protein and phosphatase and tensin homologue (PTEN). Tumor staging and grading were improved by performing variable selection using Cox regression and a recursive bootstrap elimination scheme. RESULTS: Patients with pT2 and pT3 tumors that were p27 and CAIX positive had a better outcome than those with all remaining marker combinations. A prolonged survival among patients with intermediate grade (grade 2) correlated with both nuclear p27 and cytoplasmic PTEN expression, as well as with inactive, nonphosphorylated ribosomal protein S6. By applying graphical log-linear modeling for over 700 ccRCC for which the molecular parameters were available, only a weak conditional dependence existed between the expression of p27, PTEN, CAIX, and p-S6, suggesting that the dysregulation of several independent pathways are crucial for tumor progression. CONCLUSIONS: The use of recursive bootstrap elimination, as well as graphical log-linear modeling for comprehensive tissue microarray (TMA) data analysis allows the unraveling of complex molecular contexts and may improve predictive evaluations for patients with advanced renal cancer.

Prognostic significance of apoptotic cell death in bladder cancer: a tissue microarray study on 179 urothelial carcinomas from cystectomy specimens

To assess the prognostic significance of apoptosis related markers in bladder cancer.

CLEC5A (MDL-1) is a novel PU.1 transcriptional target during myeloid differentiation

C-type lectin domain family 5, member A (CLEC5A), also known as myeloid DNAX activation protein 12 (DAP12)-associating lectin-1 (MDL-1), is a cell surface receptor strongly associated with the activation and differentiation of myeloid cells. CLEC5A associates with its adaptor protein DAP12 to activate a signaling cascade resulting in activation of downstream kinases in inflammatory responses. Currently, little is known about the transcriptional regulation of CLEC5A. We identified CLEC5A as one of the most highly induced genes in a microarray gene profiling experiment of PU.1 restored myeloid PU.1-null cells. We further report that CLEC5A expression is significantly reduced in several myeloid differentiation models upon PU.1 inhibition during monocyte/macrophage or granulocyte differentiation. In addition, CLEC5A mRNA expression was significantly lower in primary acute myeloid leukemia (AML) patient samples than in macrophages and granulocytes from healthy donors. Moreover, we found activation of a CLEC5A promoter reporter by PU.1 as well as in vivo binding of PU.1 to the CLEC5A promoter. Our findings indicate that CLEC5A expression in monocyte/macrophage and granulocytes is regulated by PU.1.

Genome-wide DNA profiling of marginal zone lymphomas identifies subtype-specific lesions with an impact on the clinical outcome

Marginal zone B-cell lymphomas (MZLs) have been divided into 3 distinct subtypes (extranodal MZLs of mucosa-associated lymphoid tissue [MALT] type, nodal MZLs, and splenic MZLs). Nevertheless, the relationship between the subtypes is still unclear. We performed a comprehensive analysis of genomic DNA copy number changes in a very large series of MZL cases with the aim of addressing this question. Samples from 218 MZL patients (25 nodal, 57 MALT, 134 splenic, and 2 not better specified MZLs) were analyzed with the Affymetrix Human Mapping 250K SNP arrays, and the data combined with matched gene expression in 33 of 218 cases. MALT lymphoma presented significantly more frequently gains at 3p, 6p, 18p, and del(6q23) (TNFAIP3/A20), whereas splenic MZLs was associated with del(7q31), del(8p). Nodal MZLs did not show statistically significant differences compared with MALT lymphoma while lacking the splenic MZLs-related 7q losses. Gains of 3q and 18q were common to all 3 subtypes. del(8p) was often present together with del(17p) (TP53). Although del(17p) did not determine a worse outcome and del(8p) was only of borderline significance, the presence of both deletions had a highly significant negative impact on the outcome of splenic MZLs.

A plasma global metabolic profiling approach applied to an exercise study monitoring the effects of glucose, galactose and fructose drinks during post-exercise recovery

A global metabolic profiling methodology based on gas chromatography coupled to time-of-flight mass spectrometry (GC-TOFMS) for human plasma was applied to a human exercise study focused on the effects of beverages containing glucose, galactose, or fructose taken after exercise and throughout a recovery period of 6 h and 45 min. One group of 10 well trained male cyclists performed 3 experimental sessions on separate days (randomized, single center). After performing a standardized depletion protocol on a bicycle, subjects consumed one of three different beverages: maltodextrin (MD)+glucose (2:1 ratio), MD+galactose (2:1), and MD+fructose (2:1), consumed at an average of 1.25 g of carbohydrate (CHO) ingested per minute. Blood was taken straight after exercise and every 45 min within the recovery phase. With the resulting blood plasma, insulin, free fatty acid (FFA) profile, glucose, and GC-TOFMS global metabolic profiling measurements were performed. The resulting profiling data was able to match the results obtained from the other clinical measurements with the addition of being able to follow many different metabolites throughout the recovery period. The data quality was assessed, with all the labelled internal standards yielding values of <15% CV for all samples (n=335), apart from the labelled sucrose which gave a value of 15.19%. Differences between recovery treatments including the appearance of galactonic acid from the galactose based beverage were also highlighted.

Transcriptional profiling of osseointegration in humans

To determine the temporal gene expression profile associated with the early healing events during osseointegration in a human model.

Spy: A Flexible Code Profiling Framework

Code profiling is an essential activity to increase software quality. It is commonly employed in a wide variety of tasks, such as supporting program comprehension, determining execution bottlenecks, and assessing code coverage by unit tests. Spy is an innovative framework to easily build profilers and visualize profiling information. The profiling information is obtained by inserting dedicated code before or after method execution. The gathered profiling information is structured in line with the application structure in terms of packages, classes, and methods. Spy has been instantiated on four occasions so far. We created profilers dedicated to test coverage, time execution, type feedback, and profiling evolution across version. We also integrated Spy in the Pharo IDE. Spy has been implemented in the Pharo Smalltalk programming language and is available under the MIT license.

Profiling gastrin-releasing peptide receptor in prostate tissues: clinical implications and molecular correlates

The gastrin-releasing peptide receptor (GRPR) has emerged as an attractive target for both therapeutic and diagnostic appliances, but has only insufficiently been characterized in the human prostate so far. The aim of this study is to profile GRPR in a large cohort and correlate it with clinicopathologic and molecular parameters.

Aberrant lipid metabolism in hepatocellular carcinoma revealed by plasma metabolomics and lipid profiling

There has been limited analysis of the effects of hepatocellular carcinoma (HCC) on liver metabolism and circulating endogenous metabolites. Here, we report the findings of a plasma metabolomic investigation of HCC patients by ultraperformance liquid chromatography-electrospray ionization-quadrupole time-of-flight mass spectrometry (UPLC-ESI-QTOFMS), random forests machine learning algorithm, and multivariate data analysis. Control subjects included healthy individuals as well as patients with liver cirrhosis or acute myeloid leukemia. We found that HCC was associated with increased plasma levels of glycodeoxycholate, deoxycholate 3-sulfate, and bilirubin. Accurate mass measurement also indicated upregulation of biliverdin and the fetal bile acids 7α-hydroxy-3-oxochol-4-en-24-oic acid and 3-oxochol-4,6-dien-24-oic acid in HCC patients. A quantitative lipid profiling of patient plasma was also conducted by ultraperformance liquid chromatography-electrospray ionization-triple quadrupole mass spectrometry (UPLC-ESI-TQMS). By this method, we found that HCC was also associated with reduced levels of lysophosphocholines and in 4 of 20 patients with increased levels of lysophosphatidic acid [LPA(16:0)], where it correlated with plasma α-fetoprotein levels. Interestingly, when fatty acids were quantitatively profiled by gas chromatography-mass spectrometry (GC-MS), we found that lignoceric acid (24:0) and nervonic acid (24:1) were virtually absent from HCC plasma. Overall, this investigation illustrates the power of the new discovery technologies represented in the UPLC-ESI-QTOFMS platform combined with the targeted, quantitative platforms of UPLC-ESI-TQMS and GC-MS for conducting metabolomic investigations that can engender new insights into cancer pathobiology.