Design, preparazione e caratterizzazione di nanostrutture di DNA come candidati farmaci per terapia a RNA

Le terapie a RNA stanno attraendo interesse crescente vista la loro capacità di colpire target che venivano dapprima considerati undruggable. Uno degli ambiti di applicazione suggeriti della terapia a RNA è la neuroinfiammazione, una condizione patologica che accompagna e agisce da concausa nelle malattie neurodegenerative. In particolare, si è verificato che nei processi neuroinfiammatori, alcuni microRNA risultano sovra-regolati e tra questi miR-34a. Si è quindi proposto di sviluppare metodi atti a ridurre il contenuto cellulare di miR-34a soprattutto nelle cellule la cui attivazione causa maggiormente la neuroinfiammazione: la microglia. L’obiettivo del lavoro di tesi è stato di sviluppare una nanostruttura di DNA in grado di veicolare una sequenza catalitica (DNAzima) che porti al taglio del miR-34a, una volta internalizzata nelle cellule. Durante il lavoro di tesi si sono sviluppati 2 diversi dendrimeri di DNA pensati per ridurre il contenuto di miR-34a. I sistemi sono stati progettati con l’ausilio di strumenti bioinformatici e poi realizzati in laboratorio e caratterizzati con tecniche biochimiche. Il sistema più promettente è stato caratterizzato per quanto riguarda la sua attività enzimatica di taglio di miR-34a e l’efficienza di internalizzazione da parte di cellule vive di microglia. I risultati ottenuti confermano la solidità del metodo utilizzato per il design del sistema progettato. Le prove condotte sul dendrimero finale, contenente la sequenza attiva, dimostrano il mantenimento dell’attività catalitica del DNAzima e l’internalizzazione della nanostruttura nelle cellule bersaglio

Hippurate as a metabolomic marker of gut microbiome diversity: Modulation by diet and relationship to metabolic syndrome

Reduced gut microbiome diversity is associated with multiple disorders including metabolic syndrome (MetS) features, though metabolomic markers have not been investigated. Our objective was to identify blood metabolite markers of gut microbiome diversity, and explore their relationship with dietary intake and MetS. We examined associations between Shannon diversity and 292 metabolites profiled by the untargeted metabolomics provider Metabolon Inc. in 1529 females from TwinsUK using linear regressions adjusting for confounders and multiple testing (Bonferroni: P < 1.71 × 10−4). We replicated the top results in an independent sample of 420 individuals as well as discordant identical twin pairs and explored associations with self-reported intakes of 20 food groups. Longitudinal changes in circulating levels of the top metabolite, were examined for their association with food intake at baseline and with MetS at endpoint. Five metabolites were associated with microbiome diversity and replicated in the independent sample. Higher intakes of fruit and whole grains were associated with higher levels of hippurate cross-sectionally and longitudinally. An increasing hippurate trend was associated with reduced odds of having MetS (OR: 0.795[0.082]; P = 0.026). These data add further weight to the key role of the microbiome as a potential mediator of the impact of dietary intake on metabolic status and health

Untangling the relationship between diet and visceral fat mass through blood metabolomics and gut microbiome profiling

BACKGROUND/OBJECTIVES: Higher visceral fat mass (VFM) is associated with an increased risk for developing cardio-metabolic diseases. The mechanisms by which an unhealthy diet pattern may influence VF development has yet to be examined through cutting-edge multi-omic methods. Therefore, our objective was to examine the dietary influences on VFM and identify gut microbiome and metabolite profiles that link food intakes to VFM. SUBJECTS/METHODS: In 2218 twins with VFM, food intake and metabolomics data available we identified food intakes most strongly associated with VFM in 50% of the sample, then constructed and tested the ‘VFM diet score’ in the remainder of the sample. Using linear regression (adjusted for covariates, including BMI and total fat mass) we investigated associations between the VFM diet score, the blood metabolomics profile and the faecal microbiome (n=889), and confirmed these associations with VFM. We replicated top findings in monozygotic (MZ) twins discordant (greater than or equal to1 s.d. apart) for VFM, matched for age, sex and the baseline genetic sequence. RESULTS: Four metabolites were associated with the VFM diet score and VFM: hippurate, alpha-hydroxyisovalerate, bilirubin (Z,Z) and butyrylcarnitine. We replicated associations between VFM and the diet score (Beta[s.e.]: 0.281[0.091]; P=0.002), butyrylcarnitine (0.199[0.087]; P=0.023) and hippurate (−0.297[0.095]; P=0.002) in VFM-discordant MZ twins. We identified a single species, Eubacterium dolichum to be associated with the VFM diet score (0.042[0.011], P=8.47 × 10−5), VFM (0.057[0.019], P=2.73 × 10−3) and hippurate (−0.075[0.032], P=0.021). Moreover, higher blood hippurate was associated with elevated adipose tissue expression neuroglobin, with roles in cellular oxygen homeostasis (0.016[0.004], P=9.82 × 10−6). CONCLUSION: We linked a dietary VFM score and VFM to Eubacterium dolichum and four metabolites in the blood. In particular, the relationship between hippurate, a metabolite derived from microbial metabolism of dietary polyphenols, and reduced VFM, the microbiome and increased adipose tissue expression of neuroglobin provides potential mechanistic insight into the influence of diet on VFM

Implementazione in Matlab di un modello di calcolo di giunzioni bullonate secondo norma VDI 2230

E' stato implementato un modello di calcolo nel software MATLAB per le giunzioni bullonate, seguendo la norma VDI 2230

Interindividual variabiity of the human hepatic sulphotransferases

The variability among subjects of the hepatic activities of O-sulphotransferase towards dopamine, p-nitrophenol, testosterone and ethinyloestradiol and of N-sulphotransferase with 1,2,3,4-tetrahydroisoquinoline (TIQ) as substrate is described. The rates of testosterone and TIQ sulphation were higher in men than women whereas those of ethinyloestradiol, dopamine and p-nitrophenol were similar in both sexes. The sulphotransferase activities towards p-nitrophenol and dopamine were positively skewed whereas those towards ethinyloestradiol approached normality. The coefficients of variations for the sulphotransferase activities ranged between 34% and 62% indicating a considerable variability among subjects. The rates of dopamine-, TIQ- and p-nitrophenol-sulphation were measured in the mucosa of the human intestine, and the duodenum/liver ratios were 10, 0.9 and 0.1, respectively. Thus the contribution of the intestine in the sulphation of xenobiotics is substrate dependent