373 research outputs found
Influence of gene-environment interaction on the gut microflora-mammalian contribution to metabolism and toxicity
Gut microbial composition and activity exert a strong influence on the metabolic phenotype of the host, and variation in the metabolic phenotype is a major factor underlying inter-individual variation in drug responses. In this thesis, the role of gut microflora on the mammalian metabolic system was explored with specific focus on the influence on xenobiotic metabolism and toxicity. Systems biology approaches were utilised to examine microfloral-mammalian interactions and mechanisms of drug toxicity. Multi-omic techniques, namely transcriptomics and metabonomics, were employed to characterise animal models used for investigating microfloral-mammalian interactions. These included germ-free, antibiotic-treated, and 'conve-ntional' rats. The utility of applying systems biology approaches to elucidate mechanisms of toxicity was demonstrated in conventional animals administered methapyrilene using metabonomic and protein-analysis techniques. Finally, the influence of the gut microbiota on the metabolism and toxicity of hydrazine was explored using an integrated transcriptomic and metabonomic approach. Microfloral absence modulated host metabolism directly and indirectly at the transcriptome and metabonome level, specifically drug, lipid and energy metabolism. Temporary suppression of the microbiota through antibiotic treatment did not disrupt the biological system greatly but minor disruption was observed upon re-colonisation. Methapyrilene dosing modified the structure and activity of a urea cycle enzyme and by integrating metabonomics and focused assays the potential for these protein modifications to be a mechanism of toxicity were investigated. In germ-free anitn~ls the effect of hrdrazine was variable, \A{ith toxicity enhanced in two of the three members compared to conventional animals. This highlights the potential for microbiota to influence host susceptibility towards drug toxicity and shows that toxic responses can be diverse in the absence of a functional microbiome. These studies demonstrate the use of applying systems biology approaches to investigate complex biological systems and indicate that gut microorganisms can modulate host metabolism and potentially be a factor in idiosyncratic drug responses.Imperial Users onl
Competing Ideologies in the German Revolution of 1848
This article takes a look at three broadly identified ideologies present in Germany during the course of the 1848 Revolution. These perspectives define goals set by different social classes and what their idea of a unified Germany may or may not look like. The research was conducted using as much primary source research as possible, utilizing memoirs, newspapers, and a few excerpts from flyers. The overall idea is to show that the 1848 Revolution should not be regarded as a failure, and should be looked at for what it did accomplish in organizing the political goals of social classes and helping Germans begin a serious discussion of unification
Biology of the microbiome 2: metabolic role
The human microbiome is a new frontier in biology and one that is helping to define what it is to be human. Recently, we have begun to understand that the "communication" between the host and its microbiome is via a metabolic superhighway. By interrogating and understanding the molecules involved we may start to know who the main players are, and how we can modulate them and the mechanisms of health and disease.</p
Senior Recital: Jonathan Swann, saxophone
This recital is presented in partial fulfillment of requirements for the degree Bachelor of Music in Music Education. Mr. Swann studies saxophone with Sam Skelton.https://digitalcommons.kennesaw.edu/musicprograms/2219/thumbnail.jp
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Hippurate: the natural history of a mammalian-microbial co-metabolite
Hippurate, the glycine conjugate of benzoic acid, is a normal constituent of the endogenous urinary metabolite profile and has long been associated with the microbial degradation of certain dietary components, hepatic function and toluene exposure, and is also commonly used as a measure of renal clearance. Here we discuss the potential relevance of hippurate excretion with regards to normal endogenous metabolism and trends in excretion relating to gender, age, and the intestinal microbiota. Additionally, the significance of hippurate excretion with regards to disease states including obesity, diabetes, gastrointestinal diseases, impaired renal function, psychological disorders and autism, as well as toxicity and parasitic infection, are considered
A comparison of collision cross section values obtained via travelling wave ion mobility-mass spectrometry and ultra high performance liquid chromatography-ion mobility-mass spectrometry : application to the characterisation of metabolites in rat urine
A comprehensive Collision Cross Section (CCS) library was obtained via Travelling Wave Ion Guide mobility measurements through direct infusion (DI). The library consists of CCS and Mass Spectral (MS) data in negative and positive ElectroSpray Ionisation (ESI) mode for 463 and 479 endogenous metabolites, respectively. For both ionisation modes combined, TWCCSN2 data were obtained for 542 non-redundant metabolites. These data were acquired on two different ion mobility enabled orthogonal acceleration QToF MS systems in two different laboratories, with the majority of the resulting TWCCSN2 values (from detected compounds) found to be within 1% of one another. Validation of these results against two independent, external TWCCSN2 data sources and predicted TWCCSN2 values indicated to be within 1-2% of these other values. The same metabolites were then analysed using a rapid reversed-phase ultra (high) performance liquid chromatographic (U(H)PLC) separation combined with IM and MS (IM-MS) thus providing retention time (tr), m/z and TWCCSN2 values (with the latter compared with the DI-IM-MS data). Analytes for which TWCCSN2 values were obtained by U(H)PLC-IM-MS showed good agreement with the results obtained from DI-IM-MS. The repeatability of the TWCCSN2 values obtained for these metabolites on the different ion mobility QToF systems, using either DI or LC, encouraged the further evaluation of the U(H)PLC-IM-MS approach via the analysis of samples of rat urine, from control and methotrexate-treated animals, in order to assess the potential of the approach for metabolite identification and profiling in metabolic phenotyping studies. Based on the database derived from the standards 63 metabolites were identified in rat urine, using positive ESI, based on the combination of tr, TWCCSN2 and MS data.</p
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Metabolic targets of watercress and PEITC in MCF-7 and MCF-10A cells explain differential sensitisation responses to ionising radiation
Watercress is a rich source of phytochemicals with anticancer potential, including phenethyl isothiocyanate (PEITC). We examined the potential for watercress extracts and PEITC to increase the DNA damage caused by ionising radiation (IR) in breast cancer cells and to be protective against radiation-induced collateral damage in healthy breast cells. The metabolic events that mediate such responses were explored using metabolic profiling. H nuclear magnetic resonance spectroscopy-based metabolic profiling was coupled with DNA damage-related assays (cell cycle, Comet assay, viability assays) to profile the comparative effects of watercress and PEITC in MCF-7 breast cancer cells and MCF-10A non-tumorigenic breast cells with and without exposure to IR. Both the watercress extract and PEITC-modulated biosynthetic pathways of lipid and protein synthesis and resulted in changes in cellular bioenergetics. Disruptions to the redox balance occurred with both treatments in the two cell lines, characterised by shifts in the abundance of glutathione. PEITC enhanced the sensitivity of the breast cancer cells to IR increasing the effectiveness of the cancer-killing process. In contrast, watercress-protected non-tumorigenic breast cells from radiation-induced damage. These effects were driven by changes in the cellular content of the antioxidant glutathione following exposure to PEITC and other phytochemicals in watercress. These findings support the potential prophylactic impact of watercress during radiotherapy. Extracted compounds from watercress and PEITC differentially modulate cellular metabolism collectively enhancing the therapeutic outcomes of radiotherapy
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Efficacy of increased resistant starch consumption in human type 2 diabetes
Resistant starch (RS) has been shown to beneficially affect insulin sensitivity in healthy individuals and those with metabolic syndrome, but its effects on human type 2 diabetes (T2DM) are unknown. This study aimed to determine the effects of increased RS consumption on insulin sensitivity and glucose control and changes in postprandial metabolites and body fat in T2DM. Seventeen individuals with well-controlled T2DM (HbA1c 46.6±2 mmol/mol) consumed, in a random order, either 40 g of type 2 RS (HAM-RS2) or a placebo, daily for 12 weeks with a 12-week washout period in between. At the end of each intervention period, participants attended for three metabolic investigations: a two-step euglycemic–hyperinsulinemic clamp combined with an infusion of [6,6-2H2] glucose, a meal tolerance test (MTT) with arterio-venous sampling across the forearm, and whole-body imaging. HAM-RS2 resulted in significantly lower postprandial glucose concentrations (P=0.045) and a trend for greater glucose uptake across the forearm muscle (P=0.077); however, there was no effect of HAM-RS2 on hepatic or peripheral insulin sensitivity, or on HbA1c. Fasting non-esterified fatty acid (NEFA) concentrations were significantly lower (P=0.004) and NEFA suppression was greater during the clamp with HAM-RS2 (P=0.001). Fasting triglyceride (TG) concentrations and soleus intramuscular TG concentrations were significantly higher following the consumption of HAM-RS2 (P=0.039 and P=0.027 respectively). Although fasting GLP1 concentrations were significantly lower following HAM-RS2 consumption (P=0.049), postprandial GLP1 excursions during the MTT were significantly greater (P=0.009). HAM-RS2 did not improve tissue insulin sensitivity in well-controlled T2DM, but demonstrated beneficial effects on meal handling, possibly due to higher postprandial GLP1
Structures of H5N1 influenza polymerase with ANP32B reveal mechanisms of genome replication and host adaptation
Avian influenza A viruses (IAVs) pose a public health threat, as they are capable of triggering pandemics by crossing species barriers. Replication of avian IAVs in mammalian cells is hindered by species-specific variation in acidic nuclear phosphoprotein 32 (ANP32) proteins, which are essential for viral RNA genome replication. Adaptive mutations enable the IAV RNA polymerase (FluPolA) to surmount this barrier. Here, we present cryo-electron microscopy structures of monomeric and dimeric avian H5N1 FluPolA with human ANP32B. ANP32B interacts with the PA subunit of FluPolA in the monomeric form, at the site used for its docking onto the C-terminal domain of host RNA polymerase II during viral transcription. ANP32B acts as a chaperone, guiding FluPolA towards a ribonucleoprotein-associated FluPolA to form an asymmetric dimer—the replication platform for the viral genome. These findings offer insights into the molecular mechanisms governing IAV genome replication, while enhancing our understanding of the molecular processes underpinning mammalian adaptations in avian-origin FluPolA
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