Characterizing the Role of a Novel F-actin Binding Protein in IRS1/PI3K Signaling and Glucose Uptake

Lee, Andrew

30 November 2011

Studies show that insulin induced activation and assembly of insulin receptor substrate-1 (IRS1) and phosphatidylinositol-3-kinase (PI3K), within remodelled actin structures is critical for GLUT4 translocation to the cell surface in muscle cells. This study identifies the F-actin binding protein, nexilin, as a novel IRS1 binding partner. Insulin stimulates nexilin to dissociate from IRS1 and interact with actin. Nexilin knockdown has no effect on insulin-stimulated IRS1 tyrosine phosphorylation, but does enhance insulin-stimulated IRS1-PI3K interaction, increasing PIP3 formation, PKB activation and glucose uptake. This study also shows that nexilin overexpression may have an inhibitory effect on PKB phosphorylation and glucose uptake in adipocytes. These findings suggest nexilin is a negative regulator of IRS1 action on PI3K and insulin-stimulated dissociation of IRS1-nexilin allows the formation of IRS1-PI3K complexes in cytoskeletal-membrane compartments. Nexilin also specifically associates with the PH domain of IRS1, and not IRS2, suggesting a mechanism for signaling specificity of these isoforms.

type 2 diabetes

insulin resistance

0379

0307

Principal typings for interactive ruby programming

Hnativ, Andriy

16 December 2009

A novel and promising method of software development is the interactive style of development, where code is written and incrementally tested simultaneously. Interpreted dynamic languages such as Ruby, Python, and Lua support this interactive development style. However, because they lack semantic analysis as part of a compilation phase, they do not provide type-checking. The programmer is only informed of type errors when they are encountered in the execution of the programfar too late and often at a less-informative location in the code. We introduce a typing system for Ruby, where types will be determined before execution by inferring principal typings. This system overcomes the obstacles that interactive and dynamic program development imposes on type checking; yielding an effective type-checking facility for dynamic programming languages. Our development is embodied as an extension to irb, the Ruby interactive mode, allowing us to evaluate principal typings for interactive development.

principal typings

dynamic languages

type inference

The Impact of Urban Form and Housing Characteristics on Residential Energy Use

Kim, Jong Yon

14 March 2013

Cities and their characteristics of energy use play an important role in climate change. While there is abundant research about the impact of energy use on transportation the impact of urban form and housing characteristics on residential energy use has not been considered widely. There is certainly a need to take a closer look about the residential energy use and housing relationships to identify planning implications. This study examines the relationship between various urban form, housing characteristics and the energy use that result from residential electricity and fuel use. Ordinary least squares regression methods are used to measure the correlations between energy consumption and variables describing housing and urban form characteristics in the metropolitan statistical areas in the United States. After controlling for differences in energy price and income, a positive relationship between residential energy consumption and a history of greater rates of land conversion was found. This study also finds significantly higher energy use associated with a greater incidence of detached single-family housing when compared against high-rise buildings. A correlation between increased rate of row housing and lower energy use was found as well. This study can contribute to a literature that can help planners to create more environmentally- friendly cities by contributing to the understanding of the impacts that certain energy- related housing characteristics have on the sustainability of a city. The literature regarding smart growth and new urbanism should explore potential impacts on household energy consumption in its discussion of urban planning along with considering impacts on transportation related energy use.

urban form

housing type

residential energy

Charge Transfer Processes in the Excited Dynamics of II-VI Semiconductor Nanocrystals

Lo, Shun

31 August 2011

In large molecular systems such as DNA, supramolecular complexes and dendrimers, functional groups located at different parts of the molecular structure can act as charge donors or acceptors, and photoinduced intramolecular charge transfer can occur. An analogous scenario can be found in colloidal semiconductor nanocrystals, most evident in type-II heterostructures, where the relative band-alignment of the constituent materials are in a stagger configuration. Such a configuration, provides an energetically favourable situation for an photo-generated electron to be transferred from one material to the other, confining the electron and the hole in different domains of the nanostructure. A less obvious scenario in nanocrystals is when the core is thought of as the donor group, and the surface as the acceptor group. In such a scenario, the localization of electron or hole at surface defect sites, a process that occurs in every nanocrystal, can be thought of as an ``intramolecular" charge transfer. The studies presented in this dissertation are an attempt to further understand charge transfer processes in semiconductor nanostructures, in particular, those occurring within the same nanocrystals. This is carried out by a combination of spectroscopic techniques and modelling. First, time-resolved fluorescence measurements are used to investigated surface trapping/de-trapping dynamics in CdSe and CdSe/CdS/ZnS core/shell/shell quantum dots. A kinetic model, in which trapping/de-trapping is described with Marcus' classical electron transfer theory, is used to analyzed our results, yielding excellent agreement between model and experiment. Second, the influence of temperature and solvent environment in the optical spectra of CdSe/CdTe nanorods are examined. Solvatochromic shifts in these heterostructures are found to be larger than those observed in core-only quantum dots. Finally, ultrafast dynamics and biexciton states in CdSe/CdTe quantum dots are probed using two-dimensional optical spectroscopy. The fine structure of the lowest exciton and biexciton states are calculated for a model system with type-II band-alignment and simulations of 2D spectra are performed.

Nanocrystal

Type-II

Spectroscopy

Charge Transfer

0494

Characterizing the Role of a Novel F-actin Binding Protein in IRS1/PI3K Signaling and Glucose Uptake

Lee, Andrew

30 November 2011

Studies show that insulin induced activation and assembly of insulin receptor substrate-1 (IRS1) and phosphatidylinositol-3-kinase (PI3K), within remodelled actin structures is critical for GLUT4 translocation to the cell surface in muscle cells. This study identifies the F-actin binding protein, nexilin, as a novel IRS1 binding partner. Insulin stimulates nexilin to dissociate from IRS1 and interact with actin. Nexilin knockdown has no effect on insulin-stimulated IRS1 tyrosine phosphorylation, but does enhance insulin-stimulated IRS1-PI3K interaction, increasing PIP3 formation, PKB activation and glucose uptake. This study also shows that nexilin overexpression may have an inhibitory effect on PKB phosphorylation and glucose uptake in adipocytes. These findings suggest nexilin is a negative regulator of IRS1 action on PI3K and insulin-stimulated dissociation of IRS1-nexilin allows the formation of IRS1-PI3K complexes in cytoskeletal-membrane compartments. Nexilin also specifically associates with the PH domain of IRS1, and not IRS2, suggesting a mechanism for signaling specificity of these isoforms.

type 2 diabetes

insulin resistance

0379

0307

Charge Transfer Processes in the Excited Dynamics of II-VI Semiconductor Nanocrystals

Lo, Shun

31 August 2011

In large molecular systems such as DNA, supramolecular complexes and dendrimers, functional groups located at different parts of the molecular structure can act as charge donors or acceptors, and photoinduced intramolecular charge transfer can occur. An analogous scenario can be found in colloidal semiconductor nanocrystals, most evident in type-II heterostructures, where the relative band-alignment of the constituent materials are in a stagger configuration. Such a configuration, provides an energetically favourable situation for an photo-generated electron to be transferred from one material to the other, confining the electron and the hole in different domains of the nanostructure. A less obvious scenario in nanocrystals is when the core is thought of as the donor group, and the surface as the acceptor group. In such a scenario, the localization of electron or hole at surface defect sites, a process that occurs in every nanocrystal, can be thought of as an ``intramolecular" charge transfer. The studies presented in this dissertation are an attempt to further understand charge transfer processes in semiconductor nanostructures, in particular, those occurring within the same nanocrystals. This is carried out by a combination of spectroscopic techniques and modelling. First, time-resolved fluorescence measurements are used to investigated surface trapping/de-trapping dynamics in CdSe and CdSe/CdS/ZnS core/shell/shell quantum dots. A kinetic model, in which trapping/de-trapping is described with Marcus' classical electron transfer theory, is used to analyzed our results, yielding excellent agreement between model and experiment. Second, the influence of temperature and solvent environment in the optical spectra of CdSe/CdTe nanorods are examined. Solvatochromic shifts in these heterostructures are found to be larger than those observed in core-only quantum dots. Finally, ultrafast dynamics and biexciton states in CdSe/CdTe quantum dots are probed using two-dimensional optical spectroscopy. The fine structure of the lowest exciton and biexciton states are calculated for a model system with type-II band-alignment and simulations of 2D spectra are performed.

Nanocrystal

Type-II

Spectroscopy

Charge Transfer

0494

Functional characterization of the US3 serine/threonine kinase during BHV-1 infection

2013 August 1900

Bovine herpesvirus 1 (BHV-1) is a member of the Alphaherpesvirinae subfamily and is the prototype ruminant herpesvirus. BHV-1 causes a number of complications in cattle including upper respiratory tract disorders, conjunctivitis, genital disorders, abortions, and immune suppression. Like all herpesviruses, reactivation from latency can occur throughout the animal’s life. Of particular economic importance is the bovine respiratory disease complex (BRDC) or ‘shipping fever’, in which BHV-1 plays a major role. BRDC is an enormous economic concern as it costs the US cattle industry approximately one billion dollars annually. In order to generate improved gene-deleted vaccines against BHV-1, there is a need to understand the contributions of viral gene products during infection. US3 is a serine/threonine kinase present in BHV-1 and is thought to play major roles during viral infection. As in other herpesviruses, US3 in BHV-1 is expected to phosphorylate several cellular and/or viral proteins. We recently presented evidence that BHV-1 US3 phosphorylates both VP8 and VP22; however, further functional characteristics of BHV-1 US3 during viral infection have not been elucidated. The hypothesis of this project is that the deletion of the US3 gene leads to reduced BHV-1 fitness. To explore this hypothesis, we generated a US3-deleted (ΔUS3) and subsequent US3-rescued (US3R) BHV-1 virus. Using these viral mutants, we characterized the growth properties of the viruses, evaluated the effect of the US3 deletion on major structural BHV-1 proteins, characterized the protein composition of the mature virions, and, identified viral processes that were impaired in the deletion mutant. Initially, the ∆US3 virus was generated through a 3-step PCR strategy which replaced the gene of interest with an antibiotic resistance cassette. Following this, the US3 gene was rescued via a two-step en passant mutagenesis strategy which has been previously used to generate insertions, deletions, and substitutions in herpesvirus-containing bacterial artificial chromosome (BAC) DNA. In vitro characterization of ∆US3 BHV-1 has demonstrated that US3 deletion affects BHV-1 growth characteristics, expression kinetics of major structural proteins, mature virion composition, cell to cell spread, and the subcellular localization of key viral proteins during infection. Growth kinetics of ∆US3 BHV-1 were impaired compared to wild-type (WT) BHV-1, especially at late times post-infection. Plaque sizes formed by ∆US3 BHV-1 were significantly smaller than those formed by either WT or US3R BHV-1, demonstrating that US3 is important for cell to cell spread. The expression kinetics of major structural and regulatory BHV-1 proteins were different between cells infected with ∆US3 or WT BHV-1, and incorporation of these proteins into the mature viruses differed, demonstrating that US3 is instrumental in ensuring proper protein expression and mature virus composition in vitro. Of particular importance, glycoprotein B (gB), was shown to be expressed in higher quantities earlier during infection in the absence of US3, and that this protein was incorporated in significantly higher amounts in mature virions which lacked US3. Qualitative analysis of ∆US3 BHV-1 infected monolayers suggested the abolishment of cell to cell projections characteristic of WT BHV-1 infection. Finally, the disruption of gB in ∆US3 BHV-1 infected cells was confirmed by confocal microscopy and fluorescence-activated cell sorting (FACS) analysis. Through confocal microscopy, evidence was provided that infection with ∆US3 BHV-1 possibly results in earlier expression of gB on the surface of cells and less intracellular accumulation of this protein during late stages of infection. The observed effect on the localization of intracellular gB in ∆US3 BHV-1 infected cells was quantified by flow cytometry. ∆US3 BHV-1 infected cells had approximately 25% higher gB expression on the surface of cells and a corresponding 25% decrease in intracellular gB. Although these differences have not yet been demonstrated to be statistically significant and not confirmed through infection with US3R BHV-1, this suggests that US3 may influence the synthesis and cellular trafficking of gB in vitro.

Les associations de la MT1-MMP avec des protéines des complexes d'adhésion focale

Di Tomasso, Geneviève

03 1900

L'implication des métalloprotéases de la matrice extracellulaire (MMPs) lors de plusieurs étapes de la progression tumorale, telles que l'angiogenèse, l'invasion et la prolifération des cellules tumorales est clairement établie. Une MMP de forme membranaire, la MT1-MMP, est reconnue pour jouer un rôle clé dans ces processus. Elle est responsable de l'activation de la proMMP-2, dégrade plusieurs composantes de la matrice extracellulaire, induit la formation de réseaux de type capillaires, augmente le potentiel migratoire des cellules endothéliales et tumorales et joue un rôle dans la signalisation cellulaire. La surexpression de la MT1-MMP, fréquente chez les cellules cancéreuses, induit des changements dans la morphogenèse, l'adhésion et la migration des cellules, mais le mécanisme impliqué demeure encore mal compris. La kinase d'adhésion focale (FAK), principale protéine responsable de la régénération des complexes d'adhésion focale, est aussi impliquée dans la formation et la progression tumorale. L'objectif de cette étude était de déterminer si la MT1-MMP s'associe à FAK ainsi qu'à d'autres protéines des complexes d'adhésion et de déterminer le rôle que jouent ces associations, particulièrement lors du phénomène de l'angiogenèse. L'approche expérimentale utilise des immunoprécipitations sur des lysats de protéines isolées de lignées cellulaires endothéliales (HUVEC et BAEC). Les données obtenues démontrent une forte association de la MT1-MMP avec FAK, p130cas, Src et vinculine, mais pas avec les protéines actine et paxilline. Ces interactions sont dépendantes de stimulations à la sphingosine-1-phosphate (S1P) et au facteur de croissance de l'endothélium vasculaire (VEGF). Les domaines structuraux de la MT1-MMP nécessaires aux associations dépendent du temps de stimulation des cellules. En effet, la portion catalytique a été trouvée essentielle aux associations décrites lors de stimulations de courtes durées (5 minutes) à la S1P, alors que la portion cytoplasmique semble jouer un rôle prédominant lors de stimulations de 48 heures en présence de sérum et avec surexpression de Src. Il a également été observé que la cavéoline-1 agit comme régulateur négatif de ces associations. En bref, la MT1-MMP s'associe avec plusieurs composantes des complexes d'adhésion focale, ce qui suggère qu'elle permet la régénération de ces structures cellulaires. Le résultat global obtenu, au niveau de la cellule, est une migration cellulaire accrue et une induction de l'angiogenèse chez les cellules endothéliales. En perspective, des études de colocalisation en microscopie sont également envisagées. ______________________________________________________________________________ MOTS-CLÉS DE L’AUTEUR : cancer, angiogenèse, MT1-MMP, complexes d'adhésion focale, cavéoline-1

Cavéoline

Métalloprotéinase matricielle

Métalloprotéase de type membranaire 1

Elevers  koncentrationsförmåga under matematiklektioner på förmiddagar och eftermiddagar

Nasrulla, kawan

January 2011

This project has aim to examine how students experience their concentration ability during mathematics lessons in the mornings and afternoons, and how students’ learning can be in-fluenced by the concentration ability during mathematics lesson in the morning and after-noons respectively? Which role do the methods of learning play in mathematic depending on which time it is carried out during mornings or afternoons with regard to student concentra-tion ability? In order to find out those issues, I used two methods; (interview and observa-tion).Interview with 4 students and 3 teachers and observations of 4 mathematics lessons based on a qualitative method. In order to measure students' concentration ability during ma-thematics education on various times, I distributed questions to 23 students and repeated it during each lesson that I have observed from a quantitative approach in two classes in a sec-ondary school. In the literature I discuss the definition of concentration, and factors affecting the concentration negatively and positively. What is the relationship between concentration, learning and type of activity and how individuals can improve their learning and attention? In addition I studied two earlier studies on the concentration. Survey results show that the con-centration of students seems best in the morning and after lunch in their mathematics lessons and seems the worst before lunch and later in the school day. Generally, the results show that the concentration of students is worse during math lessons in the afternoons. The results also show that fatigue, hunger, advanced data and absent mindedness may affect concentration and learning negatively. The results also show that the activity type has great role in creating or maintaining concentration levels of pupils and the best time for math lessons are in the morn-ing and after lunch.

Attention

learning

activity type

Koncentrationsförmåga

lärande

arbetssätt

Föräldrars upplevelser av att leva med ett barn som har typ 1 diabetes

Montes, Carolina, Olsson, Cecilia

January 2012

Background Type 1 diabetes is a chronically disease that often occurs in early life. In every year around 77.000 children in the world is estimated with type 1 diabetes. When a child gets a chronically disease it affects the whole family, specially the parents who will be the child's caregiver. Aim The aim of this study was to describe parents experiences of living with a child with type 1 diabetes. Method A literature review was carried trough based on 10 qualitative scientific articles. The articles were analyzed and two main themes and seven subthemes emerged. Results All parents experienced that they needed some kind of support particularly early in their illness. They felt it was a big responsibility to take care of their child with diabetes and parents often felt anxiety and fear associated with the disease. Not having constant control over their child the parents experienced as a pain. Increased knowledge and experience contributed the parents to feel security and found it easier to manage their child's illness. Conclusion It's normal for parents of children with a chronical illness to experience different emotions such as anxiety, fear, control needs and guilt. Therefore it's important that health care focuses on supporting and educates parents in caring for their child with diabetes.

Child

Experience

Living

Parent

Type 1 Diabetes