The interaction between 6 MV X-rays and p(66)/Be neutrons with spherical gold nanoparticles to induce cellular damage

Engelbrecht, Monique

January 2016

Magister Scientiae (Medical Bioscience) - MSc(MBS) / Despite the advances in therapies such as chemotherapy and radiotherapy, tumours have been shown to be resistant to the treatments. Gold nanoparticles (AuNPs) have been recognized as effective radiosensitizers of low energy (e.g. 200–500 kV) X-rays, leading to the emission of Auger electrons that cause highly localised ionizing damage to cells. Spherical AuNPs were synthesised via the reduction of the chloroaurate ions by sodium citrate. Characterisation of AuNPs involved UV-visible spectrophotometry, zeta (Z) potential, dynamic light scattering (DLS) and polydispersity index (PDI) measurements for determination of surface plasmon resonance (SPR), surface charge and stability, as well as transmission electron microscopy (TEM) for hydrodynamic core sizes, size distribution width and shape of AuNPs. Both the 5 and 10 nm AuNPs were found to be anionic with λmax absorbance of 525 nm and uniform size distribution. DLS measurement at 38.12 nm and 48.50 nm, respectively for 5 nm and 10 nm AuNPs, points to aggregation of the AuNPs. However, TEM measurements confirmed the core size of the 10 nm AuNPs. Non-malignant Chinese hamster ovary (CHO-K1), brain endothelial (BEnd5), breast (MCF-10A), isolated human lymphocytes and malignant breast (MCF-7) cell lines were treated with 50 μg/ml of AuNPs, and irradiated with either 1, 2 or 4 Gy X-rays or 1 or 2 Gy p(66)/Be neutron radiation. The γ-H2AX foci assay, cytokinesis-block micronucleus assay, MTT assay and fluorescence-activated cell sorting (FACS) was used to determine that amount of double stranded breaks (DSBs) in isolated lymphocytes, the presence and number of micronuclei (MNi) within binucleated cells (BNCs), cell viability and cell cycle progression, respectively. Preliminary experiments that established the reliability of the study regarding the induction of DNA damage after the bombardment of AuNPs by scattered low kV X-rays, were carried out on lymphocytes. Combined treatment (AuNPs and radiation) resulted in more endogenous foci in comparison to lymphocytes that were treated with AuNPs only. The CHO-K1 and MCF-7 cells showed higher MNi frequencies after the combination treatment of AuNPs and radiation compared to the number of MNi in samples exposed to AuNPs and radiation separately. The AuNPs alone influenced the cellular kinetics of all cell types. Interaction indices, which is the enhancement factor of AuNPs in combination with radiation, for AuNPs and 6 MV 2 Gy X-rays of 1.6 to 1.7 and 1.3 to 1.4 have respectively been determined for CHO-K1 and MCF-7 cells, whilst that for the other cell types used in the study were not different from Unity. As expected, the interaction indices between AuNPs and p(66)/Be neutrons was lower than the interaction indices after 2 Gy X-rays, as p(66)/Be neutrons interact only with the nuclei of the AuNP's atoms and the X-ray photons interact with the orbital electrons of the atoms of the AuNPs leading to Auger electron emission. The cell viability assay showed that 50 μg/ml of AuNPs had an inhibitory effect on cellular proliferation, in all four cell linnes whereas the lower concentrations (2.5, 5 and 10 μg/ml) had no effect. Results in this study, revealed an increase in the accumulation of CHO-K1 an MCF-7 cells in the G₂/M phase of the cell cycle after being treated with AuNPs followed by X-ray radiation, suggesting that the cells have possibly been sensitised to the damaging effects of radiation. Further studies are required to quantify internalised AuNPs and to then link the possible concentration differences of the AuNPs to differences in radiation damage effects observed for the different cell types.

Gold nanoparticles (AuNPs)

Nanotechnology

Nanoparticles

Breast--Cancer--Treatment

X-rays

Transmission electron microscopy

Electrospinning of Polymeric Solutions Using <i> Opuntia ficus-indica </i> Mucilage and Iron Oxide for Nanofiber Membranes for Treating Arsenic Contaminated Water

Eppili, Venkatesh

29 June 2016

Water is the essential part of every organism and it is also a vital constituent of healthy living and diet. Unfortunately water contamination over the past decade has increased dramatically leading to various diseases. As technology advances, we are detecting many pollutants at smaller levels of concentrations. Arsenic (As) is one of those major pollutants, and Arsenic poisoning is a condition caused due to excess levels of arsenic in the body. The main basis for Arsenic poisoning is from ground water which naturally contains high concentrations of arsenic. A case study from 2007 states that over 137 million people in 70 countries were affected by arsenic poisoning from drinking water [1]. This thesis work is motivated by this study and investigates the fabrication, characterization, and testing of Opuntia ficus-indica mucilage nanofiber membranes formed using a mucilage, polystyrene (PS) and iron oxide (Fe2O3) solution by an electrospinning process. Cactus mucilage is a jelly-like substance, which is extracted from the cactus pad, and is an inexpensive, biodegradable and biocompatible material. It is also an abundant material available in nature. Polystyrene is a synthetic aromatic polymer prepared from monomer styrene. Polystyrene is further dissolved using D-Limonene as a solvent. D-Limonene is a non-toxic solvent and is a citrus extract of orange peelings. In an effort to enhance adsorption capacity for the mucilage nanofiber membranes, iron oxide nanopowder is incorporated into the polymeric solution. A mucilage and polystyrene-iron oxide solution is mixed in different ratios and electrospun to obtain nanofibers. The fibers will be characterized by certain techniques such as Scanning electron microscopy (SEM), contact angle measurements, viscosity and Fourier transform infrared spectroscopy (FTIR). The fibers obtained from mucilage and PS-Fe2O3 will be further tested under Atomic fluorescence spectrometry (AFS) for testing the removal of arsenic from water. Also, a life cycle analysis (LCA) is conducted to evaluate the environmental impacts of the fabrication of the membranes by using SimaPro® software.

Cactus mucilage

Polystyrene

Scanning electron microscopy

Atomic fluorescence spectrometry

Life cycle analysis

Nanoscience and Nanotechnology

Polymer Chemistry

Supramolecular networks as templates for hierarchical assembly on the sub-5 nm scale

Karamzadeh, Baharan

January 2015

In this study, the templating role of bimolecular triple hydrogen bonded honeycomb network consisting perylene-3,4,9,10-tetracarboxydi-imide and melamine is investigated, using scanning tunneling microscopy. Although the stability of the network upon modification is a major obstacle toward higher complexity, three different approaches in this work highlight formation of successful architectures in a sequential way. 1. Insertion of pore modifier star shaped molecules based on tri(phenylene ethynylene)benzene core in the pores to construct a new template. 2. Insertion of iodinated molecules in the pores to study the network as a nanoreactor. 3. Electrochemical deposition of metals in the pores. Self-assembly monolayer of four different molecules based on tri(phenylene ethynylene)benzene core on uniform gold surface revealed different structures. The degree of the order within the structures depends highly on the symmetry of the molecules, and hence asymmetric molecule formed disordered structure. Upon insertion into the pores of the network, one of molecules did not match the pores size, while others fitted and illustrated rotation depending on the strength of their interaction with the network components and the substrate. The rotation is significantly reduced by modifying the molecules. These new architectures are used as templets hosting C₆₀ molecules which resulted in isolated single C₆₀ molecules. Self-assembly of iodinated molecule under different conditions on uniform gold surface leads to formation of different structures including monomers and dimers. Upon thermal treatment on the uniform surface oligomers are formed, whereas for the molecules confined in the pores of the network, the covalent bond formation was limited to dimerisation. Electrochemical copper deposition into the pores of the network under acidic condition (pH = 1 - 2) is not possible because of the stability of the network. However, by increasing pH of the electrolyte (pH = 5 – 7), a bilayer of Cu and anion is formed in the pores of the network, confirmed by scanning tunneling microscopy and X-ray photoelectron spectroscopy.

620.1

Application of Forward Modeling to Materials Characterization

Singh, Saransh

01 August 2017

The four pillars of material science and engineering namely structure, processing, properties and performance form the so-called material paradigm. At the heart of the material paradigm is materials characterization, which is used to measure and identify the relationships. Materials Characterization typically reconstructing the conditions giving rise to a measurement, a classic inverse problem. The solutions of these inverse problems are under or over determined and not unique. The solutions of these inverse problems can be greatly improved if accurate forward models exist for these characterization experiments. In this thesis, we will be focusing of developing forward models for electron diffraction modalities. Specifically, four different forward models for electron diffraction, namely the Electron Backscatter Diffraction, Electron Channeling Patterns, Precession Electron Diffraction and Transmission kikuchi Diffraction modalities are presented. Further, these forward models are applied to important materials characterization problems, including diffraction pattern indexing using the dictionary approach and forward model based orientation refinement. Finally, a novel pole figure inversion algorithm using the cubochoric representation and model based iterative reconstruction is also presented.

Dictionary Indexing

Dynamical Diffraction

Electron Backscatter Diffraction

Electron Channeling Patterns

Electron microscopy

Forward Modeling

Production and evaluation of a TiO2 based 68Ge/68Ga generator

Buwa, Sizwe

January 2014

>Magister Scientiae - MSc / 68Ge/68Ga generators rely on metal oxide, inorganic and organic sorbents in order to prepare radionuclides useful for clinical applications. The requirements for 68Ge/68Ga generators are that the 68Ga obtained from the 68Ge loaded column should be optimally suited for the routine synthesis of 68Ga-labelled radiopharmaceuticals, that the separation of the 68Ga daughter from the 68Ge parent should happen easily, with a high yield of separation, a low specific volume of 68Ga and should not contain trace elements owing to the solubility of the metal oxide sorbent. Beginning with a metal oxide preparation and continuing through recent developments, several approaches for processing generator derived 68Ga have altered the production of 68Ge/68Ga generators. Still, the effects of sorbent modification on the properties of 68Ge/68Ga radionuclide generator systems are not necessarily optimally designed for direct application in a medical context. The objective of this research was to analyze and document characteristics of Titanium Oxide (TiO2) sorbents relevant to processing of a 68Ge/68Ga generator that is able to produce 68Ga eluates that are adequate for clinical requirements. Interest was shown in TiO2 based 68Ge/68Ga generators by a number of overseas companies for tumour imaging using 68Ga-labelled 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA)-conjugated peptides. While a method involving production of the 68Ga radionuclide using TiO2 metal oxide had been published, problems with the production persisted. A method, using TiO2 metal oxide for ion exchange chromatography, was devised in this study to produce the 68Ga radionuclide, with the aim of being adopted for production purposes. The study focuses on the development of a dedicated procedure for the achievement of sufficient 68Ga yield along with low 68Ge breakthrough and low metallic impurities. Literature from 1970 to 2011 was reviewed to assess the radiochemical aspects of the 68Ga production and processing thereof. Various commercially available TiO2 metal oxides were characterized by subjecting the materials to x-ray diffraction (XRD), x-ray fluorescence (XRF) and scanning electron microscopy (SEM) for quantitative and qualitative analysis.

68Ge/68Ga generators

Titanium Oxide (TiO2)

Ion exchange chromatography

Scanning electron microscopy

The effects of Ethanol and Aspalathus linearis on immortalized mouse brain endothelial cells (bEnd5)

Thomas, Kelly Angelique

January 2015

Magister Scientiae (Medical Bioscience) - MSc(MBS) / The blood brain barrier (BBB) is a signaling interface between the blood and the central nervous system (CNS), which prohibits the entry of harmful blood-borne substances into the brain micro-environment, thus maintaining brain homeostasis. The crucial role of the BBB is protecting the CNS, which may adversely be affected by alcohol. The central component of the BBB, endothelial cells (ECs), regulates BBB transport by regulating the permeability both transcellularly and through their paracellular junctions, by structures called tight junctions (TJs) that are composed of proteins. The aim of this study was to investigate the in vitro effects of ethanol (EtOH) and fermented rooibos (Rf) on a monolayer of bEnd5 mouse brain ECs, by determining the effects of EtOH and Rf on bEnd5 (i) cell viability (ii) cell proliferation (iii) rate of cell division (iv) cell toxicity (v) claudin-5 transcription (vi) permeability across a monolayer of bEnd5 ECs and (vii) morphology, for a selected experimental timeline of 24, 48, 72, and 96hrs. We then investigated if the simultaneous exposure of Rf and EtOH could reverse or alleviate the EtOHinduced effects on the bEnd5 ECs. EtOH metabolism induces oxidative stress and results in a range of adverse physiological effects. Aspathalus linearis (rooibos) contains many phenolic compounds, of which the main antioxidant activity is attributed to aspalathin. Our underlining hypothesis is that the antioxidants in an aqueous rooibos extract may therefore protect against the potential oxidant damaging effects of alcohol on the BBB. Cells were exposed for 24hrs to selected concentrations of EtOH (25mM and 100mM), a concentration of Rf containing equivalent of 1.9nM aspalathin, and the combinations of EtOH and Rf. Cell viability and cell toxicity was determined, while cell proliferation and rate of cell division was estimated using the trypan blue exclusion assay. Real time quantitative PCR was implemented to quantify claudin-5 transcription, normalized against housekeeping genes, GAPDH and HPRT. Transepithelial electrical resistance (TEER) was measured using the Ohm Millicell-electrical resistance system, while bEnd5 monolayer morphology was analysed using the Zeiss scanning electron microscope. Both concentrations of EtOH led to an overall decrease in cell viability, and a decreased number of live cells across 72hrs. Consistent with this, EtOH resulted in increased cell toxicity across the 96hr experimental timeframe and a diminished rate of cell division. The transcription of claudin-5 in bEnd5 ECs exposed to 25mM and 100mM EtOH varied dramatically across the 96hr timeframe. While 25mM EtOH resulted in an overall decrease in TEER, cells exposed to 100mM EtOH only decreased TEER between 48 and 96hrs. Morphologically, both concentrations of EtOH led to compromised paracellular spaces as endorsed by high definition SEM analysis. The administration of Rf on its own resulted in an initial decrease in viability, followed by recovery between 72 and 96hrs. Exposure to Rf diminished live cell numbers at 72 and 96hrs, accompanied by a compromised rate of cell division and an overall increase in cell toxicity. In addition, Rf down-regulated claudin-5 transcription across the course of the experiment, particularly between 24 and 48hrs. In alignment with this, Rf also led to an increase in BBB permeability from 24 to 96hrs. However, SEM studies were not able to discriminate any differences between control and Rf treated cells. Our study showed that the BBB could be protected against the adverse effects of EtOH, and this at the plasma concentration induced by 500ml’s of Rooibos tea. The simultaneous exposure of Rf and EtOH was able to negate the effects of EtOH on cell viability, cell proliferation, and cell toxicity but exacerbated the effects of EtOH on claudin-5 transcription and paracellular permeability. Morphologically, co-exposure with Rf only reversed the effects of 25mM EtOH while exacerbating the effects of 100mM EtOH at 96hrs. In conclusion, EtOH was shown to be detrimental to the integrity of bEnd5 ECs, and the addition of a minuscule quantity of t h e Rf extract was able to partially alleviate excess ROS-induced effects. / National Research Foundation (NRF)

Ethanol

Aspalathin

Scanning electron microscopy

mRNA transcription

Rooibos

Blood-brain barrier

Efavirenz pre-formulation study : selection of a cyclodextrin inclusion complex or co-crystal complex for tabletting

Rafieda, Ali Mohamed Omar

January 2015

>Magister Scientiae - MSc / Efavirenz is a non-nucleoside reverse transcriptase inhibitor used as an anti-retroviral for the treatment of human immunodeficiency virus (HIV) type I. It is classified as a class IΙ drug under the Biopharmaceutical Classification System (BCS) and exhibits a low solubility (aqueous solubility of 9.0 μg/ml) and high permeability (variable oral bioavailability). This study aims to choose a pre-formulation protocol with the best efavirenz derivative in literature between co-crystals and CD inclusion complexes. Upon selection of the efavirenz derivative, the complications of both small scale and large scale laboratory pre-formulation production is highlighted for formulation of a tablet dosage form. Numerous variables were selected for the pre-formulation protocol. Physical, chemical, pharmacological, pharmaceutical and economical variables were investigated. Citric acid monohydrate (CTRC) was chosen as the best co-former for a co-crystal while hydroxypropyl-beta-cyclodextrin (HP-β-CD) was selected as a host for an inclusion complex. Pharmaceutically, the angle of repose, Carr’s index, Hausner’s ratio, moisture content, disintegration time, hardness/resistance to crush, manufacturing process problems and particle size of the CTRC and HP-β-CD were all evaluated. The CTRC was ultimately selected for formulation of a tablet. The preparation of small laboratory scale of EFA/CTRC co-crystal was successfully achieved after several attempts. The large laboratory scale of EFA/CTRC was prepared under various environmental seasons which were indicated as batches 1-6 for purposes of this study. Characterization of the large laboratory scale EFA/CTRC co-crystals was performed by scanning electron microscopy (SEM), hot-stage microscopy (HSM), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA) and by physical inspection (i.e. season, texture, colour, shape and particle size) of the EFA/CTRC product. Batch 1 and 2 were prepared during the summer season. The SEM analysis showed that the particles were needle-like shaped. The thermal analysis values of batch 1 by HSM, DSC and TGA results were 123 °C, 119 °C and 1.68 % of mass loss, respectively. In batch 2, morphology results by SEM revealed spikes of irregular and agglomerated particles. Batch 2 melted at 123 °C and a small unmelted quantity was observed at 143 °C. The DSC and TGA (mass loss) analysis were 118 °C and 0.75 % respectively. The hardness test of EFA/CTRC tablet prepared in batch 2 was extremely hard hence failed the disintegration test. The EFA/CTRC prepared in batches 3, 4 and 5 was during the winter season which is associated with high humidity and wet weather conditions. The SEM, DSC, TGA results were significantly different from the previous batches. The SEM morphology was highly irregular particles for batch 3, clustered and randomly size particle for batch 4 and irregular, needle-like, spikes and spherical shaped particles for batch 5, respectively. The thermal results HSM, DSC and TGA confirmed the presence of moisture in the prepared EFA/CTRC products. The HSM melting point results of batches 3, 4 and 5 were 123 °C, 115 °C and 121 °C, respectively. The DSC results of 110 °C, 105 °C and 118 °C were observed for batches 3, 4 and 5 respectively. The mass loss i.e. TGA results for batches 3, 4 and 5 were 1.178%, 1.5 % and 2.235 % respectively. In batch 6, EFA/CTRC was prepared using a different commercial batch of EFA and CTRC. The SEM results indicated the formation of needle-like and clustered particles. The values obtained from HSM, DSC and TGA results were 124 °C, 114 °C and 0.54 % in mass loss. The physical appearance of EFA/CTRC prepared from batch 1 and 2 were white in colour while batch 3, 4, 5 and 6 of the prepared EFA/CTRC was pink in colour. The physical appearance of the individual batches differed but the identity of the sample remained intact implying the same pharmacological effects with differing pharmaceutical properties impacting the dosage form preparation.

Efavirenz

Co-crystallization

Cyclodextrin inclusion

Scanning electron microscopy

Hot-stage microscopy

Advanced Ti – based AB and AB2 hydride forming materials

Davids, Wafeeq

January 2011

Doctor Scientiae / Ti – based AB and AB₂ hydride forming materials have shown to be very promising hydrogen storage alloys due to their reasonable reversible hydrogen storage capacity at near ambient conditions, abundance and low cost. However, these materials are not used extensively due to their poor activation performances and poisoning tolerance, resulting insignificant impeding of hydrogen sorption. The overall goal of this project was to develop the knowledge base for solid-state hydrogen storage technology suitable for stationary and special vehicular applications focussing mainly on Ti – based metal hydrides. In order to accomplish this goal, the project had a dual focus which included the synthesis methodology of Ti – based AB and AB₂ materials and the development of new surface engineering solutions, based on electroless plating and chemical vapour deposition on the surface modification of Ti – based metal hydride forming materials using Pd-based catalytic layers. TiFe alloy was synthesised by sintering of the Ti and Fe powders and by arc-melting. Sintered samples revealed three phases: TiFe (major), Ti₄Fe₂O, and β-Ti. Hydrogen absorption showed that the sintered material was almost fully activated after the first vacuum heating (400 °C) when compared to the arc-melted sample requiring several activation cycles. The increase in the hydrogen absorption kinetics of the sintered sample was associated with the influence of the formed hydrogen transfer catalyst, viz. oxygen containing Ti₄Fe₂O₁₋ₓ and β-Ti, which was confirmed by the XRD data from the samples before and after hydrogenation. The introduction of oxygen impurity into TiFe alloy observed in the sintered sample significantly influenced on its PCT performances, due to formation of stable hydrides of the impurity phases, as well as destabilisation of both β-TiFeH and, especially, γ-TiFeH₂. This finally resulted in the decrease of the reversible hydrogen storage capacity of the oxygen-contaminated sample. TiFe alloy was also prepared via induction melting using graphite and alumo-silica crucibles. It was shown that the samples prepared via the graphite crucible produced TiFe alloy as the major phase, whereas the alumo-silica crucible produced Ti₄Fe₂O₁-x and TiFe₂ as the major phases, and TiFe alloy as the minor one. A new method for the production of TiFe – based materials by two-stage reduction of ilmenite (FeTiO₃) using H₂ and CaH₂ as reducing agents was developed. The reversible hydrogen absorption performance of the TiFe – based material prepared via reduction of ilmenite was 0.5 wt. % H, although hydrogen absorption capacity of TiFe reported in the literature should be about 1.8 wt. %. The main reason for this low hydrogen capacity is due to large amount of oxygen present in the as prepared TiFe alloy. Thus to improve the hydrogen absorption of the raw TiFe alloy, it was melted with Zr, Cr, Mn, Ni and Cu to yield an AB₂ alloy. For the as prepared AB₂ alloy, the reversible hydrogen sorption capacity was about 1.3 wt. % H at P=40 bar and >1.8 wt.% at P=150 bar, which is acceptable for stationary applications. Finally, the material was found to be superior as compared to known AB₂-type alloys, as regards to its poisoning tolerance: 10-minutes long exposure of the dehydrogenated material to air results in a slight decrease of the hydrogen absorption capacity, but almost does not reduce the rate of the hydrogenation. Hydrogen storage performance of the TiFe-based materials suffers from difficulties with hydrogenation and sensitivity towards impurities in hydrogen gas, reducing hydrogen uptake rates and decreasing the cycle stability. An efficient solution to this problem is in modification of the material surface by the deposition of metals (including Palladium) capable of catalysing the dissociative chemisorption of hydrogen molecules. In this work, the surface modification of TiFe alloy was performed using autocatalytic deposition using PdCl₂ as the Pd precursor and metal-organic chemical vapour deposition technique (MO CVD), by thermal decomposition of palladium (II) acetylacetonate (Pd[acac]₂) mixed with the powder of the parent alloy. After surface modification of TiFe – based metal hydride materials with Pd, the alloy activation performance improved resulting in the alloy absorbing hydrogen without any activation process. The material also showed to absorb hydrogen after exposure to air, which otherwise proved detrimental.

Scanning electron microscopy

solid-state hydrogen storage technology

Liquid hydrogen

Hydrogen--Storage

Electrospun nanofibers as solid phase extraction sorbents and support for alkylphenols colorimetric probes

Tancu, Yolanda

January 2014

The thesis reports on fabricating alternative solid phase extraction (SPE) sorbents and colorimetric probes based on electrospun nanofibers for alkylphenols (APs). Hydroxyl methylated styrene [poly(co-styrene-CH₃OH)] and 3-oxobutanoate styrene [poly(co-styrene-OCOCH₃COCH₃)] copolymers were synthesized and fabricated into sorbent materials by electro-spinning/spraying. The fabricated morphologies consisting of bead free fibers, beaded fibers and particles were evaluated as SPE sorbents using batch experiments. Electropun fibers proved to be better sorbents as they exhibited extraction efficiency that exceeded 95% compared to 60% for beaded fibers and 40% for particles. In view to reduce sample and solvent volumes, smooth fibers were packed into pipette tips as SPE devices that yielded quantitative recoveries of APs from spiked wastewater samples. Recoveries ranged from 70% to 125% with LOD of 0.008, 0.01 and 0.1 μg mL⁻¹ for 4-tert octylphenol (4-t-OP), 4-octylphenol (4-OP) and 4-nonylphenol (4-NP) respectively, when using high performance liquid chromatography-fluorescence detector (HPLC-FLD). Furthermore, amino functionalised polydiacetylene polymers (PDAs), citrate capped gold (AuNPs) and silver nanoparticles (AgNPs) were evaluated as colorimetric probes for visual detection of APs. In colloidal studies, AuNPs probe showed a colour change from wine red to green upon introduction of analyte. UV-vis spectroscopy revealed the shifting of the surface plasmon resonance (SPR) peak from 525 nm to 729 nm induced by aggregation of AuNPs. For AgNPs probe, a colour change was observed from yellowish green to brown. Transmission electron microscopy (TEM) studies showed growth of AgNPs. A presumed oxidation of the analyte, forming an absorbing compound at 279 nm in both AgNPs and PDAs probes was also observed. For PDAs probe the colour change was from purple to pink. Concentrations as low as 30 μg mL⁻¹ were detectable in all colloidal based probes. Further colorimetric investigations were conducted with electrospun AuNPs-nylon 6 fiber mat. A colour change from purplish red to navy blue at concentrations of 1000 μg mL⁻¹ was observed. Electrospun AgNPs –nylon 6 fiber mat did not show a distinct colour change. High resolution scanning electron microscopy (HRSEM) revealed the analyte inducing the assembly of AuNPs and AgNPs as they covered the surface of the nanofiber mat. Electrospun nanofibers are a platform for analysis and thus tuning their chemistry will lead to sensitive and selective methods

Nanofibers

Electrospinning

Extraction (Chemistry)

Sorbents

Phenols

Colorimetry

Transmission electron microscopy

High resolution spectroscopy

Anatomical Characterization of the Type-1 cannabinoid receptors in specific brain cell populations of mutant mice / Caractérisation anatomique des récepteurs cannabinoïdes de type 1 dans des populations de cellules cérébrales spécifiques de souris mutantes.

Gutierrez Rodriguez, Ana

02 December 2016

Dans cette thèse l’expression du récepteur CB1 dans l’hippocampe de souris mutantes ré-exprimant spécifiquement le gène spécifiquement dans certains types cellulaires du cerveau tels que : les neurones glutamatergiques du télencéphale dorsal, et les neurones GABAergiques a été analysé. De plus, dans le but de connaître la distribution anatomique exacte des récepteurs CB1 astrogliaux par rapport aux synapses excitatrices et inhibitrices, j’ai étudié l’expression des récepteurs CB1 dans les astrocytes de souris exprimant le récepteur CB1 seulement dans les astrocytes et une souris mutante ciblée pour exprimer la protéine cytoplasmique hrGFP diffusible dans les cellules astrogliales, ce qui permet une meilleure détection des prolongements astrocytaires. Les conclusions de ce travail de thèse sont les suivantes : la distance la plus commune entre le récepteur CB1 astroglial et la synapse la plus proche est de 400 à 800 nm. La majorité des synapses entourées par des astrocytes immunopositifs pour le récepteur CB1 dans l’hippocampe, est de nature excitatrice. Les souris mutantes ré-exprimant le récepteur CB1 caractérisées dans ce travail de thèse montrent : 1) l’expression du récepteur CB1 dans différents types cellulaires, 2) la réexpression est limitée à une population neuronale particulière ou aux astrocytes, 3) les niveaux endogènes de récepteurs CB1 sont maintenus dans les différents types cellulaires ré-exprimant le récepteur CB1. De façon générale, ces résultats nous montrent que les souris mutantes ré-exprimant le récepteur CB1 sont d’excellents outils pour l’étude fonctionnelle et translationnelle sur le rôle de ce récepteur dans le cerveau sain ou pathologique. / The Cannabinoid Type I receptor protein (CB1) expression in the hippocampus of rescue mice modified to express the gene exclusively in specific brain cell types: such as dorsal telencephalic glutamatergic neurons, or GABAergic neurons have been analyzed. Furthermore, aiming at knowing the exact anatomical distribution of the astroglial CB1 receptors with respect to the excitatory and inhibitory synapses, the CB1 receptor expression in astrocytes of mouse expressing CB1 receptor only in astrocytes and mutant mouse expressing the protein hrGFP into astrocytes (that allows for better detection of the astrocytic processes) have been also investigated. The results showed that the majority of the hippocampal synapses surrounded by CB1 receptor immunopositive astrocytes in the 400-800 nm range are of excitatory nature. Moreover, the CB1 receptor rescue mutant mice characterized in this Doctoral Thesis have proven 1) to express CB1 receptors in specific brain cell types; 2) the re-expression is limited to the particular brain cell populations; 3) the endogenous levels of CB1 receptors are maintained in the brain cell types re-expressing the receptor. Which makes this mutant mice excellent tools for functional and translational investigations on the role of the CB1 receptors in the normal and diseased brain.

Système endocannabinoïde

Synapses

Microscopie électronique

Hippocampe

Souris mutantes

Endocannabinoid system

Synapses

Electron microscopy

Hippocampus

Mutant rodents