RARβ gene methylation is a candidate for primary glioblastoma treatment planning.

Background: We screened RARβ methylation in primary glioblastoma multiforme (GBM) and the results were evaluated based on the clinical data and treatment type. Objective: The objective of this study was to find new areas for the usage of MS-HRM applications in the determination of methylation levels in primary GBM samples and it shows the association of RARβ methylation with the clinical outcome. Methods: In our study, tumor samples were collected during surgical resection by the Department of Neurosurgery. The clinical and radiologic data was carefully reviewed, compared, and evaluated with the histological results. The methylation status of RARβ was determined by using MS-HRM. Results: RARβ gene methylation was detected in 24 out of 40 cases (60%), with different quantitative methylation levels. The mean survival time was 19 months form ethylated cases and 15 months for the non-methylated cases. The survival time of the patients who received treatment was 25 months and the survival time of the patients who received radiotherapy alone or where no treatment protocol applied was 15-20 months. Therefore, a significant difference in survival rates has been observed (P<0.05). This study indicates a potential prognostic value for GBM treatment planning. Conclusion: Our study is the first study to investigate RARβ methylation in primary GBMs. We conclude that the RARβ gene could be a new prognostic and predictive candidate marker to designate the treatment protocol for primary GBMs. Keywords:

Estudo comparativo de carragenanas comerciais Kappa, Iota e Lambda no processo inflamatório em ratos :edema intraplantar e pleurisia

The Iota, Kappa and Lambda commercial carrageenans are rarely pure and normally contain varying amounts of the other types of carrageenans. The exact amount of impurity depends on the seaweed source and extraction procedure. Then, different analysis methods have been applied for determination of the main constituents of carrageenans because these three carrageenans are extensively used in food, cosmetic and pharmaceutical industry. The electrophoresis of these compounds proved that the carrageenans are constituted by sulfated polysaccharides. These compounds were characterized by colorimetric methods and was observed that the Lambda carrageenan shown the greater value (33.38%) of sulfate. These polymers were examined by means of 13C NMR spectroscopy and infrared spectra. The polysaccharides consisted mainly of units alternating of sulfated galactoses and anhydrogalactoses. The aim of the study was also to test the inflammatory action of these different polysaccharides. A suitable model of inflammation is acute sterile inflammation of the rat hind limb induced by carrageenan. Paw edema was induced by injecting carrageenans (κ, ι and λ) in saline into the hind paw of a male Wistar rats (175–200 g). The pathway to acute inflammation by carrageenan (kappa, iota and lambda) were expressed as time-edema dependence and measured by paw edema volume. For this purpose, was used an apparatus (pakymeter), which makes it possible to measure the inflammation (swelling of the rat foot) with sufficient accuracy. The results showed that κ-carrageenan (1%) have an edema of 3.7 mm and the paw edema increase was time and dose dependent; the ι-carrageenan (0.2%) caused an edema of 4 mm and the λ-carrageenan (1%) caused an edema of 3.6 mm. Other model was used in this study based in the inflammation of pleura for comparatives studies. Injection of carrageenans into the pleural cavity of rat induced an acute inflammatory response characterized by fluid accumulation in the pleural cavity, a large number of neutrophils and raised NO production. The levels of NO were measured by Griess reactive. The ι-carrageenan caused the greater inflammation, because it has high concentration of nitrite/nitrate (63.478 nmoles/rat), exudato volume (1.52 ml) and PMNs (4902 x 103 cells). Quantitative evaluation of inflammations of rats is a useful and important parameter for the evaluation of the efficacy of anti-inflammatory drugs

Régulation épigénétique de la défense antioxydante et de l'Angiopoietin-like 2 dans le contexte du vieillissement et des maladies cardiovasculaires

Suite à l’exposition à des facteurs de risque incluant la malnutrition, la dyslipidémie, la sédentarité et les désordres métaboliques, les maladies cardiovasculaires (MCV) sont caractérisées par un état pro-oxydant et pro-inflammatoire, et une dérégulation de l’expression de divers facteurs responsables de l’homéostasie de l’environnement rédox et inflammatoire. L’implication d’enzymes antioxydantes telles que les superoxyde dismutases (SOD) et les glutathion peroxydases (Gpx), ainsi que la contribution de médiateurs pro-inflammatoires tels que l’angiopoietin-like 2 (Angptl2) ont été rapportées dans le cadre des MCV. Toutefois, les mécanismes moléculaires sensibles aux facteurs de risque et menant au développement des MCV sont peu connus. L’épigénétique est un mécanisme de régulation de l’expression génique sensible aux stimuli extracellulaires et pourrait donc contribuer au développement des MCV. La méthylation de l’ADN est un des mécanismes épigénétiques pouvant varier tant de manière gène-spécifique qu’à l’échelle génomique, et la conséquence de tels changements sur l’expression des gènes ciblés dépend du site de méthylation. Puisqu’il a été démontré que des variations au niveau de la méthylation de l’ADN peuvent être associées à divers contextes pathologiques incluant les MCV, le but de nos travaux était d’étudier le lien entre la méthylation de gènes antioxydants et pro-inflammatoires avec leurs répercussions fonctionnelles biologiques en présence de facteurs de risques associés aux MCV, tels que le vieillissement, la dyslipidémie et la sédentarité. Dans la première étude, nous avons observé que dans l’artère fémorale de souris vieillissantes, la méthylation au niveau du promoteur du gène Sod2, codant pour l’enzyme antioxydante superoxyde dismutase de type 2 (SOD2 ou MnSOD), diminue avec l’âge. Ceci serait associé à l’induction de l’expression de MnSOD, renforçant ainsi la défense antioxydante endogène. Le vieillissement étant associé à une accumulation de la production de radicaux libres, nous avons étudié la vasodilatation dépendante de l’endothélium qui est sensible au stress oxydant. Nous avons observé que la capacité vasodilatatrice globale a été maintenue chez les souris âgées, aux dépens d’une diminution des facteurs hyperpolarisants dérivés de l’endothélium (EDHF) et d’une contribution accentuée de la voie du monoxyde d’azote (NO). Nous avons ensuite utilisé deux approches visant à réduire les niveaux de stress oxydant in vivo, soit la supplémentation avec un antioxydant, la catéchine, et l’exposition chronique à de l’exercice physique volontaire. Ces interventions ont permis de prévenir à la fois les changements au niveau de la fonction endothéliale et de l’hypométhylation de Sod2. Cette première étude démontre donc la sensibilité de la méthylation de l’ADN à l’environnement rédox. Dans la deuxième étude, nous avons démontré une régulation de l’expression de l’enzyme antioxydante glutathion peroxydase 1 (Gpx1) en lien avec la méthylation de son gène codant, Gpx1, dans un contexte de dyslipidémie sévère. Nos résultats démontrent que dans le muscle squelettique de souris transgéniques sévèrement dyslipidémiques (LDLr-/-; hApoB+/+), Gpx1 est hyperméthylé, ce qui diminue l’expression de Gpx1 et affaiblit la défense antioxydante endogène. Chez ces souris, l’exercice physique chronique a permis d’augmenter l’expression de Gpx1 en lien avec une hypométhylation transitoire de son gène. Cette étude démontre que le stress oxydant associé à la dyslipidémie sévère altère les mécanismes de défense antioxydante, en partie via un mécanisme épigénétique. De plus, on observe également que l’exercice physique permet de renverser ces effets et peut induire des changements épigénétiques, mais de manière transitoire. La troisième étude avait pour but d’étudier la régulation de l’Angptl2, une protéine circulante pro-inflammatoire, dans le contexte des MCV. Nous avons observé que chez des patients coronariens, la concentration circulante d’Angptl2 est significativement plus élevée que chez des sujets sains et ce, en lien avec une hypométhylation de son gène, ANGPTL2, mesurée dans les leucocytes circulants. Nous sommes les premiers à démontrer qu’en réponse à l’environnement pro-inflammatoire associé à une MCV, l’expression de l’Angptl2 est stimulée par un mécanisme épigénétique. Nos études ont permis d’identifier des nouvelles régions régulatrices différentiellement méthylées situées dans les gènes impliqués dans la défense antioxydante, soit Sod2 en lien avec le vieillissement et Gpx1 en lien avec la dyslipidémie et l’exercice. Nous avons également démontré un mécanisme de régulation de l’Angptl2 dépendant de la méthylation d’ANGPTL2 et ce, pour la première fois dans un contexte de MCV. Ces observations illustrent la nature dynamique de la régulation épigénétique par la méthylation de l’ADN en réponse aux stimuli environnementaux. Nos études contribuent ainsi à la compréhension et l’identification de mécanismes moléculaires impliqués dans le développement du phénotype pathologique suite à l’exposition aux facteurs de risque, ce qui ouvre la voie à de nouvelles approches thérapeutiques.

Fruit cell culture as a model system to study cell wall changes during strawberry fruit ripening

Strawberry (Fragaria x ananassa, Duch.) fruit is characterized by its fast ripening and soft texture at the ripen stage, resulting in a short postharvest shelf life and high economic losses. It is generally believed that the disassembly of cell walls, the dissolution of the middle lamella and the reduction of cell turgor are the main factors determining the softening of fleshy fruits. In strawberry, several studies indicate that the solubilisation and depolymerisation of pectins, as well as the depolymerisation of xyloglucans, are the main processes occurring during ripening. Functional analyses of genes encoding pectinases such as polygalacturonase and pectate lyase also point out to the pectin fraction as a key factor involved in textural changes. All these studies have been performed with whole fruits, a complex organ containing different tissues that differ in their cell wall composition and undergo ripening at different rates. Cell cultures derived from fruits have been proposed as model systems for the study of several processes occurring during fruit ripening, such as the production of anthocyanin and its regulation by plant hormones. The main objective of this research was to obtain and characterize strawberry cell cultures to evaluate their potential use as a model for the study of the cell wall disassembly process associate with fruit ripening. Cell cultures were obtained from cortical tissue of strawberry fruits, cv. Chandler, at the stages of unripe-green, white and mature-red. Additionally, a cell culture line derived from strawberry leaves was obtained. All cultures were maintained in solid medium supplemented with 2.5 mg.l-1 2,4-D and incubated in the dark. Cell walls from the different callus lines were extracted and fractionated to obtain CDTA and sodium carbonate soluble pectin fractions, which represent polyuronides located in the middle lamella or the primary cell wall, respectively. The amounts of homogalacturonan in both fractions were estimated by ELISA using LM19 and LM20 antibodies, specific against demethylated and methyl-esterified homogalacturonan, respectively. In the CDTA fraction, the cell line from ripe fruit showed a significant lower amount of demethylated pectins than the rest of lines. By contrast, the content of methylated pectins was similar in green- and red-fruit lines, and lower than in white-fruit and leaf lines. In the sodium carbonate pectin fraction, the line from red fruit also showed the lowest amount of pectins. These preliminary results indicate that cell cultures obtained from fruits at different developmental stages differ in their cell wall composition and these differences resemble to some extent the changes that occur during strawberry softening. Experiments are in progress to further characterize cell wall extracts with monoclonal antibodies against other cell wall epitopes.

UTILIZING ELECTRONIC NOSE AND GC-MS TO EXAMINE CRITICAL FACTORS INFLUENCING THE FORMATION OF ODOROUS VOC’S IN BIOSOLIDS.

Despite the efforts to better manage biosolids field application programs, biosolids managers still lack of efficient and reliable tools to apply large quantities of material while avoiding odor complaints. Objectives of this research were to determine the capabilities of an electronic nose in supporting process monitoring of biosolids production and, to compare odor characteristics of biosolids produced through thermal-hydrolysis anaerobic digestion (TH-AD) to those of alkaline stabilization in the plant, under storage and in the field. A method to quantify key odorants was developed and full scale sampling and laboratory simulations were performed. The portable electronic nose (PEN3) was tested for its capabilities of distinguishing alkali dosages in the biosolids production process. Frequency of recognition of unknown samples was tested achieving highest accuracy of 81.1%. This work exposed the need for a different and more sensitive electronic nose to assure its applicability at full scale for this process. GC-MS results were consistent with those reported in literature and helped to elucidate the behavior of the pattern recognition of the PEN3. Odor characterization of TH-AD and alkaline stabilized biosolids was achieved using olfactometry measurements and GC-MS. Dilution-to-threshold of TH-AD biosolids increased under storage conditions but no correlation was found with the target compounds. The presence of furan and three methylated homologues in TH-AD biosolids was reported for the first time proposing that these compounds are produced during thermal hydrolysis process however, additional research is needed to fully describe the formation of these compounds and the increase in odors. Alkaline stabilized biosolids reported similar odor concentration but did not increase and the ‘fishy’ odor from trimethylamine emissions resulted in more offensive and unpleasant odors when compared to TH-AD. Alkaline stabilized biosolids showed a spike in sulfur and trimethylamine after 3 days of field application when the alkali addition was not sufficient to meet regulatory standards. Concentrations of target compounds from field application of TH-AD biosolids gradually decreased to below the odor threshold after 3 days. This work increased the scientific understanding on odor characteristics and behavior of two types of biosolids and on the application of electronic noses to the environmental engineering field.

Integrative genomic, epigenetic and metabolomic characterization of beef from grass-fed Angus steers

Beef constitutes a main component of the American diet and still represent the principal source of protein in many parts of the world. Currently, the meat market is experiencing an important transformation; consumers are increasingly switching from consuming traditional beef to grass-fed beef. People recognized products obtained from grass-fed animals as more natural and healthy. However, the true variations between these two production systems regarding various aspects remain unclear. This dissertation provides information from closely genetically related animals, in order to decrease confounding factors, to explain several confused divergences between grain-fed and grass-fed beef. First, we examined the growth curve, important economic traits and quality carcass characteristics over four consecutive years in grain-fed and grass-fed animals, generating valuable information for management decisions and economic evaluation for grass-fed cattle operations. Second, we performed the first integrated transcriptomic and metabolomic analysis in grass-fed beef, detecting alterations in glucose metabolism, divergences in free fatty acids and carnitine conjugated lipid levels, and altered β-oxidation. Results suggest that grass finished beef could possibly benefit consumer health from having lower total fat content and better lipid profile than grain-fed beef. Regarding animal welfare, grass-fed animals may experience less stress than grain-fed individuals as well. Finally, we contrasted the genome-wide DNA methylation of grass-fed beef against grain-fed beef using the methyl-CpG binding domain sequencing (MBD-Seq) method, identifying 60 differentially methylated regions (DMRs). Most of DMRs were located inside or upstream of genes and displayed increased levels of methylation in grass-fed individuals, implying a global DNA methylation increment in this group. Interestingly, chromosome 14, which has been associated with large effects on ADG, marbling, back fat, ribeye area and hot carcass weight in beef cattle, allocated the largest number of DMRs (12/60). The pathway analysis identified skeletal and muscular system as the preeminent physiological system and function, and recognized carbohydrates metabolism, lipid metabolism and tissue morphology among the highest ranked networks. Therefore, although we recognize some limitations and assume that additional examination is still required, this project provides the first integrative genomic, epigenetic and metabolomics characterization of beef produced under grass-fed regimen.

Indicatori patologici di rilevanza diagnostica nel carcinoma squamocellulare orale felino

Il carcinoma squamocellulare è il tumore maligno orale più frequente nel gatto e si caratterizza per diagnosi spesso tardiva e prognosi infausta. Il progetto riguarda la ricerca di marker di rilevanza dia-gnostica nel carcinoma squamocellulare orale felino (FOSCC), al fine di sviluppare un test di scree-ning non invasivo. È stata condotta un’analisi retrospettiva delle disregolazioni del gene oncosoppres-sore TP53 in campioni istologici di FOSCC e di una popolazione di controllo (lesioni infiammatorie croniche orali e mucose orali normali feline). Tramite next-generation sequencing (NGS) sono state rilevate mutazioni di TP53 nel 69% dei FOSCC, ed anche l’espressione immunoistochimica della pro-teina p53 era presente nel 69% dei tumori, con una concordanza discreta (77%) fra le due alterazioni. Nella popolazione di controllo erano presenti disregolazioni di p53 solo in due lesioni infiammatorie (3%). Successivamente è stata effettuata un’analisi prospettica con NGS della metilazione del DNA di 17 geni, noti per essere disregolati nel carcinoma squamocellulare orale umano o felino, insieme all’analisi mutazionale di TP53, in campioni istologici di FOSCC e in un gruppo di controllo. Le stesse indagini molecolari sono state svolte in parallelo su campioni di cellule prelevate mediante brushing orale. Utilizzando 6 dei geni indagati differenzialmente metilati nei FOSCC (FLI1, MiR124-1, KIF1A, MAGEC2, ZAP70, MiR363) e lo stato mutazionale diTP53, è stato impostato un algoritmo diagnostico per differenziare i FOSCC dalla mucosa orale non neoplastica. Applicato ai brushing, l’algoritmo è risultato positivo (indicativo di carcinoma) in 24/35 (69%) gatti con FOSCC, contro 2/60 (3%) controlli (sensibilità: 69%; specifici-tà: 97%). La quota di FOSCC identificati era significativamente maggiore nei gatti sottoposti a prelievo in anestesia generale rispetto ai gatti svegli. Questi risultati sono incoraggianti per il riconoscimento precoce del FOSCC tramite brushing orale. Saranno necessari ulteriori studi su casistiche più ampie per validare questa metodica e migliorarne la sensibilità.

Marcatori di eta biologica nella malattia di Parkinson: risultati di un'analisi glicomica e epigenomica

La malattia di Parkinson è una malattia neurodegenerativa caratterizzata da una progressiva disfunzione motoria e cognitiva. È noto che l'età avanzata è il principale fattore di rischio per la malattia di Parkinson e alcuni studi hanno dimostrato un'accelerazione dell'età biologica nelle fasi più avanzate della malattia. Questo studio si propone di valutare se l'accelerazione dell'invecchiamento biologico descritta nelle fasi avanzate della malattia di Parkinson caratterizzi anche le prime fasi della malattia. A tal fine sono stati utilizzati due tipi di marcatori biologici di età, basati sull'analisi della metilazione del DNA del sangue (l'orologio epigenetico e sue varianti) e dei profili degli N-glicani nel plasma (GlycoAge Test). I biomarcatori sono stati valutati in campioni ottenuti da pazienti con malattia di Parkinson de novo, con diagnosi recente e non ancora in trattamento farmacologico, nonché da pazienti con stadi più avanzati della malattia e da controlli sani. I risultati ottenuti nelle prime fasi della malattia non mostrano segni di invecchiamento accelerato, che trovano conferma nelle fasi più avanzate. Dai dati di metilazione è possibile prevedere le proporzioni delle diverse popolazioni di leucociti. Questa analisi nelle prime fasi della malattia ha già evidenziato significative alterazioni che seguono in parte quelle caratteristiche dell'invecchiamento del sistema immunitario, suggerendo un'immunosenescenza accelerata nella malattia di Parkinson. Infine, i dati sulla metilazione del DNA sono stati analizzati per identificare le differenze nelle regioni metilate del genoma tra pazienti con malattia di Parkinson e controlli. I risultati suggeriscono l'esistenza di piccole ma significative alterazioni nella metilazione del DNA che caratterizzano lo stadio precoce e/o avanzato della malattia. In conclusione, questo studio suggerisce che le prime fasi della malattia di Parkinson sono caratterizzate da specifiche alterazioni epigenetiche e invecchiamento precoce del sistema immunitario, che tuttavia non si traducono in un'alterazione dei biomarcatori di invecchiamento epigenetici e glicomici.