371 research outputs found

    Therapeutic potentials of histamine H3 receptor agonists and antagonists

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    Quantitative analysis of non-viral gene therapy in primary liver culture systems

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    Thesis (Ph. D.)--Massachusetts Institute of Technology, Biological Engineering Division, 2007.Includes bibliographical references (p. 161-172).Gene therapy has the potential to cure thousands of diseases caused by genetic abnormalities, provide novel combination therapies for cancers and viral infections, and offer a new and effective platform for next generation vaccines. However, after more than three decades of research and development efforts, clinical success has yet to be realized. Successful delivery of DNA is a crucial first step in attaining safe and effective gene therapeutics. While vectors based upon recombinant viruses have shown high delivery and transfection efficiencies, they may also pose certain health risks to patients, can be difficult to target to cell or tissue types of interest, and present difficulties for large-scale manufacturing. Non-viral vectors look to offer a safer alternative and can be engineered to more effectively treat a specific cell type, tissue, or pathology, but these vectors are still plagued with low transfection levels and cannot provide adequate and sustained levels of gene expression. Continued efforts focus on producing next generation non-viral vectors that safely deliver therapeutic transgenes with the efficiency of their viral counterparts. Many barriers exist in the successful trafficking of these non-viral complexes to the nucleus.(cont.) Current evaluations of non-viral gene delivery treatments in more clinical settings often focus on a single barrier at a time, and as a result, may not lead to an overall improvement in gene delivery. Concurrently, more quantitative or systematic in vitro experiments may not correlate well with in vivo data. Our combined approach of quantitative vector trafficking and expression experiments coupled with computational simulation of vector specific mathematical models that describe every step of the gene delivery process has shown that a systems level approach can glean insight into the most rate-limiting steps for a given vector and generate hypotheses for future vector development and improvement. These studies have been extended to primary liver cultures, coupled with device development to attain a more clinically relevant model system and more spatial resolution to study intracellular vector trafficking and localization. A larger perfused 3-D liver bioreactor has been built that allows for long-term culture of primary hepatocytes that more closely mimic hepatic phenotype than in conventional 2-D cultures and for multiplexed quantitative measurement that is not possible in animal models.(cont.) A newly constructed density gradient electrophoresis device can separate vesicular organelles and track vector dynamics throughout the cell. These systems have provided more comprehensive data sets which show that vectors behave differently in different culture systems and that different vectors show unique cell trafficking dynamics. These results lend insight for future vector screening methodologies and provide vector specific mathematical models for primary cell transfection that can lead to further optimization of the polymer vectors studied in this work, which can contribute to the development of more efficient next generation in vivo delivery agents.by Nathan C. Tedford.Ph.D

    Measurement of stimulated Hawking emission in an analogue system

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    There is a mathematical analogy between the propagation of fields in a general relativistic space-time and long (shallow water) surface waves on moving water. Hawking argued that black holes emit thermal radiation via a quantum spontaneous emission. Similar arguments predict the same effect near wave horizons in fluid flow. By placing a streamlined obstacle into an open channel flow we create a region of high velocity over the obstacle that can include wave horizons. Long waves propagating upstream towards this region are blocked and converted into short (deep water) waves. This is the analogue of the stimulated emission by a white hole (the time inverse of a black hole), and our measurements of the amplitudes of the converted waves demonstrate the thermal nature of the conversion process for this system. Given the close relationship between stimulated and spontaneous emission, our findings attest to the generality of the Hawking process.Comment: 7 pages, 5 figures. This version corrects a processing error in the final graph 5b which multiplied the vertical axis by 2. The graph, and the data used from it, have been corrected. Some minor typos have also been corrected. This version also uses TeX rather than Wor

    Classical aspects of Hawking radiation verified in analogue gravity experiment

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    There is an analogy between the propagation of fields on a curved spacetime and shallow water waves in an open channel flow. By placing a streamlined obstacle into an open channel flow we create a region of high velocity over the obstacle that can include wave horizons. Long (shallow water) waves propagating upstream towards this region are blocked and converted into short (deep water) waves. This is the analogue of the stimulated Hawking emission by a white hole (the time inverse of a black hole). The measurements of amplitudes of the converted waves demonstrate that they appear in pairs and are classically correlated; the spectra of the conversion process is described by a Boltzmann-distribution; and the Boltzmann-distribution is determined by the determined by the change in flow across the white hole horizon.Comment: 17 pages, 10 figures; draft of a chapter submitted to the proceedings of the IX'th SIGRAV graduate school: Analogue Gravity, Lake Como, Italy, May 201

    MP745: A Long-Term Study of an Oak Pine Forest Ecosystem: A Brief Overview of the Holt Research Forest

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    This publication provides an overview of the long-term forest ecosystem project at the Holt Research Forest in Arrowsic, Maine. It is based on nearly 16 years of work by an interdisciplinary team from the College of Natural Sciences, Forestry, and Agriculture, including faculty, professional staff, visiting scientists, University of Maine graduate students, and undergraduate field assistants. We hope this publication will be useful to other researchers, to our workshop participants, and to others interested in forest ecosystem science.https://digitalcommons.library.umaine.edu/aes_miscpubs/1029/thumbnail.jp

    The effects of dietary supplementation with inulin and inulin-propionate ester on hepatic steatosis in adults with non-alcoholic fatty liver disease

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    The short chain fatty acid (SCFA) propionate, produced through fermentation of dietary fibre by the gut microbiota, has been shown to alter hepatic metabolic processes that reduce lipid storage. We aimed to investigate the impact of raising colonic propionate production on hepatic steatosis in adults with non‐alcoholic fatty liver disease (NAFLD). Eighteen adults were randomised to receive 20g/day of an inulin‐propionate ester (IPE), designed to deliver propionate to the colon, or an inulin‐control for 42‐days in a parallel design. The change in intrahepatocellular lipid (IHCL) following the supplementation period was not different between groups (P=0.082), however IHCL significantly increased within the inulin‐control group (20.9±2.9 to 26.8±3.9%; P=0.012; n=9), which was not observed within the IPE group (22.6±6.9 to 23.5±6.8%; P=0.635; n=9). The predominant SCFA from colonic fermentation of inulin is acetate, which in a background of NAFLD and a hepatic metabolic profile that promotes fat accretion, may provide surplus lipogenic substrate to the liver. The increased colonic delivery of propionate from IPE appears to attenuate this acetate‐mediated increase in IHCL

    The role of intratidal oscillations in sediment resuspension in a diurnal, partially mixed estuary

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    Using detailed observations of the mean and turbulent properties of flow, salinity and turbidity that spanned 2001/02, we examined the physical mechanisms underpinning sediment resuspension in the low-energy Swan River estuary, Western Australia. In this diurnal tidally-dominated estuary, the presence of intratidal oscillations, a tidal inequality lasting 2 to 3 hours on the flood tide, generated by interactions of the four main diurnal and semidiurnal astronomical constituents, K₁, O₁, M₂, and S₂, played a major role in modifying vertical stratification and mixing. These intratidal oscillations are controlled by phase differences between the tropic and synodic months rather than being temporally-fixed by bed friction, as occurs in semidiurnal estuaries. Intratidal oscillations are largest, at around 0.1 m, near to the Austral solstice when the lunar and solar declination are in-phase. Despite the seemingly small change in water level, shear-induced interfacial mixing caused destratification of the water column with the top-to-bottom salinity (ΔS) difference of 3.5 present early in the flood tide eroded to less than 0.3 by the end of the intratidal oscillation. High turbidity peaks, of 250 nephelometric turbidity units, coincided with these intratidal oscillations and could not be explained by bed friction since shear stress from mean flow did not exceed threshold criteria. High Reynolds stresses of ∼1 Nm⁻² did, however, exceed τcr and together with negative Reynolds fluxes indicate a net downward transport of material. Destratification of the water column induced by shear instabilities resulted in large overturns capable of moving in situ material towards the bed during intratidal oscillations and these turbidities were ∼10 times greater than those from bed-generated resuspension observed later during the flood tide

    A basal ursine bear (Protarctos abstrusus) from the Pliocene High Arctic reveals Eurasian affinities and a diet rich in fermentable sugars

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    The skeletal remains of a small bear (Protarctos abstrusus) were collected at the Beaver Pond fossil site in the High Arctic (Ellesmere I., Nunavut). This mid-Pliocene deposit has also yielded 12 other mammals and the remains of a boreal-forest community. Phylogenetic analysis reveals this bear to be basal to modern bears. It appears to represent an immigration event from Asia, leaving no living North American descendants. The dentition shows only modest specialization for herbivory, consistent with its basal position within Ursinae. However, the appearance of dental caries suggest a diet high in fermentable-carbohydrates. Fossil plants remains, including diverse berries, suggests that, like modern northern black bears, P. abstrusus may have exploited a high-sugar diet in the fall to promote fat accumulation and facilitate hibernation. A tendency toward a sugar-rich diet appears to have arisen early in Ursinae, and may have played a role in allowing ursine lineages to occupy cold habitats

    Scanning mutagenesis of omega-atracotoxin-Hv1a reveals a spatially restricted epitope that confers selective activity against insect calcium channels

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    We constructed a complete panel of alanine mutants of the insect-specific calcium channel blocker omega-atracotoxin-Hv1a. Lethality assays using these mutant toxins identified three spatially contiguous residues, Pro(10), Asn(27), and Arg(35), that are critical for insecticidal activity against flies (Musca domestica) and crickets (Acheta domestica). Competitive binding assays using radiolabeled omega-atracotoxin-Hv1a and neuronal membranes prepared from the heads of American cockroaches (Periplaneta americana) confirmed the importance of these three residues for binding of the toxin to target calcium channels presumably expressed in the insect membranes. At concentrations up to 10 muM, omega-atracotoxin-Hv1a had no effect on heterologously expressed rat Ca(v)2.1, Ca(v)2.2, and Ca(v)1.2 calcium channels, consistent with the previously reported insect selectivity of the toxin. 30 muM omega-atracotoxin-Hv1a inhibited rat Ca-v currents by 10-34%, depending on the channel subtype, and this low level of inhibition was essentially unchanged when Asn(27) and Arg(35), which appears to be critical for interaction of the toxin with insect Ca-v channels, were both mutated to alanine. We propose that the spatially contiguous epitope formed by Pro(10), Asn(27), and Arg(35) confers specific binding to insect Ca-v channels and is largely responsible for the remarkable phyletic selectivity of omega-atracotoxin-Hv1a. This epitope provides a structural template for rational design of chemical insecticides that selectively target insect Ca-v channels
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