Role of the Cell Adhesion Molecule L1 during Early Neural Development in Zebrafish

Xiang, Wanyi

01 August 2008

The neural cell adhesion molecule L1 is a member of the immunoglobulin superfamily and it mediates many adhesive interactions during brain development. Mutations in the L1 gene are associated with a spectrum of X-linked neurological disorders known as CRASH or L1 syndrome. The objective of this thesis was to use the zebrafish model to investigate the molecular mechanisms of L1 functions and the pathological effects of its mutations. Zebrafish has two L1 homologs, L1.1 and L1.2. Inhibition of L1.1 expression by antisense morpholino oligonucleotides resulted in phenotypes that showed resemblances to L1 patients. However, knockdown of L1.2 expression did not result in notable neural defects. Furthermore, analysis of the expression pattern of L1.1 has led to the discovery of a novel soluble L1.1 isoform, L1.1s. L1.1s is an alternatively spliced form of L1.1, consisting of the first four Ig-like domains and thus a soluble secreted protein. L1.1 morphants exhibited disorganized brain structures with many having an enlarged fourth/hindbrain ventricle. Further characterization revealed aberrations in ventricular polarity, cell patterning and proliferation and helped differentiate the functions of L1.1 and L1.1s. While L1.1 plays a pivotal role in axonal outgrowth and guidance, L1.1s is crucial to brain ventricle formation. Significantly, L1.1s mRNA rescued many anomalies in the morphant brain, but not the trunk phenotypes. Receptor analysis confirmed that L1.1 undergoes heterophilic interactions with neuropilin-1a (Nrp1a). Peptide inhibition studies demonstrated further the involvement of L1.1s in neuroepithelial cell migration during ventricle formation. In the spinal cord, spinal primary motoneurons expressed exclusively the full-length L1.1, and abnormalities in axonal projections of morphants could be rescued only by L1.1 mRNA. Further studies showed that a novel interaction between the Ig3 domain of L1.1 and Unplugged, the zebrafish muscle specific kinase (MuSK), is crucial to motor axonal growth. Together, these results demonstrate that the different parts of L1.1 contribute to the diverse functions of L1.1 in neural development.

zebrafish

neural development

cell adhesion molecule L1

brain ventricle formation

polarity

axonal pathfinding

0317

0487

Small molecule recognition of homopurine nucleic acid structures

Persil Cetinkol, Ozgul

08 July 2008

The thesis topic entitled above involves the use of small molecules as a general means to drive nucleic acid assembly and structural transitions. We have shown that coralyne, a crescent-shaped small molecule, can assemble homo-adenine DNA and RNA sequences into anti-parallel duplexes at neutral pH, a structure containing putative purine-purine (A*A) base pairs that is otherwise unstable. The importance of the structure of the small molecule in the recognition and stabilization of A*A base pairing has been established by experimental evidence. We further provide structural evidence for the putative A*A base pairing that is stabilized by coralyne and molecules of similar size and shape. Our hypothesis that planar molecules that are slightly too large to intercalate Watson-Crick base pairs might intercalate the larger purine-purine base pairs has led to the design of a new class of small molecules that tightly bind purine-purine duplexes with excellent selectively. We have demonstrated that azacyanines can exhibit strong and selective association with a human telomeric sequence that forms a unimolecular G-quadruplex in solution. The synthetic accessibility of azacyanines makes this class of molecules amenable to library preparation for high-throughput screening. Together, the findings reported in this thesis provide further evidence for the robust and versatile nature of selective small molecule recognition of nucleic acids, especially purine-purine duplexes.

Physical characterization

Nucleic acids

Small molecule binding

Assembly

Intercalation

Biomolecules

Nucleic acids

Supramolecular chemistry

Purines

Inelastic collision and three-body recombination

Li, Bo

19 May 2009

The quantum impulse approximation theory has been extended to the inelastic collision. The total inelastic cross sections for the degenerated states with different angular momenta was calculated. It was proved that summing over the transitions from nl to n' and from nl to n'l' would give us the total cross section of transition from n to n'. Rate coefficients were calculated for the common gases in the atmosphere being the third particle. The resonant effect of the rate coefficients had been observed. Recombination coefficients were then calculated in terms of rate coefficients. Previous calculations were carried out in compare with the net rate flow through certain excited levels, which were found to be more stable and reflected a clearer picture of the whole process. Results have been compared with the elastic collision. A dramatic decreasing of rates when temperature increased was also observed. More thermal energy increases the probability of electrons for being re-ionized. Similar calculations had been carried out for the upper atmosphere gases, such as N₂, O₂, CO, CO₂, and H₂O. The recombination coefficients for electron combining with metallic ion Na+ were also calculated.

Three-body recombination

Inelastic collision

Electron

Molecule

Ion recombination

Collisions (Nuclear physics)

Design and Evaluation of Radiolabeled Affibody Tracers for Imaging of HER2-expressing Tumors

Wållberg, Helena

January 2011

The growing understanding of tumor biology and the identification of tumor specificgenetic and molecular alterations, such as the overexpression of human epidermal growthfactor receptor 2 (HER2), opens up for personalization of patient management using targeted therapies. However, this puts stringent demands on the diagnostic tools usedto identify patients that are likely to respond to a particular treatment. Radionuclide molecular imaging is a promising non-invasive method to visualize and characterize the expression of such targets. This thesis, based on five papers, is focused on the development of radiolabeled Affibody molecules for imaging of HER2-expression in malignant tumors. Affibody molecules, which represent a rather novel class of affinity proteins developed by combinatorial protein engineering of the protein A derived Z-domain, display manyfeatures that make them promising tracers for molecular imaging applications. The aim of the work presented here was to further develop the tracer format for improved in vivo properties and flexibility in the choice of radionuclide. In paper I, the development of an assay that enables quantitative studies of the internalization rate and cellular processing of high affinity Affibody molecules is described. The assay was applied to a HER2-binding Affibody variant that was efficiently retained by HER2-expressing cells, although characterized by a slow internalization rate. This may have implications for the choice of label for Affibody molecules since high affinity to the target may be equally, or more, important for good imaging quality than residualizing properties of the radiolabel. In paper II, a HER2-binding Affibody molecule and the monoclonal antibody trastuzumab were labeled with positron emitting 124I, for a head-to-head in vivocomparison of the two tracer formats. The effects of tracer size and presence of an Fc region on the biodistribution profile were investigated. In paper III, a HER2-binding Affibody molecule was site-specifically labeled with radiocobalt and evaluated in vitro and in vivo.A head-to-head in vivo comparison with the well-studied 111In-labeled counterpart was performed, revealing promising potential for the cobalt-labeled molecule as a PET-tracerfor visualization of HER2. Paper IV describes the in vitro and in vivo evaluation of a panel of Affibody molecules with different C-terminal peptide-based chelators for the coordination of 99mTc. Even small changes in the C-terminal sequence had appreciable impact on the biodistribution of the Affibody molecules and by optimizing the design of the chelator, the kidney uptake of 99mTc could be significantly reduced. Finally, in paper V we describe the development of a HER2-targeting Affibody variant equipped with a Sel-tag for site-specific labeling with the short-lived positron emitter 11C. This novel Affibody tracer could be used to image HER2-expressing tumors in vivo within one hour after injection. Taken together, Affibody molecules show great promise as targeting tracers for radionuclide molecular imaging of HER2. Careful design and optimization of the tracer protein is important and can be used to improve the biodistribution and targeting properties of Affibody molecules. / QC 20110922

Affibody molecule

radionuclide molecular imaging

HER2

radiotracer

SPECT

PET

biodistribution

protein engineering

radiolabeling

Proximity Ligation Assays for Disease Biomarkers Analysis

Nong, Rachel Yuan

January 2011

One of the pressing needs in the field of disease biomarker discovery is new technologies that could allow high performance protein analysis in different types of clinical material, such as blood and solid tissues. This thesis includes four approaches that address important limitations of current technologies, thus enabling highly sensitive, specific and parallel protein measurements. Paper I describes a method for sensitive singleplex protein detection in complex biological samples, namely solid phase proximity ligation assay (SP-PLA). SP-PLA exhibited improved sensitivity compared to conventional sandwich immunoassays. We applied SP-PLA to validate the potential of GDF-15 as a biomarker for cardiovascular disease.   Paper II describes ProteinSeq, a multiplexed immunoassay based on the principle of SP-PLA, for parallel detection of 36 proteins using next-generation sequencing as readout. ProteinSeq exhibited improved sensitivity compared to multiplexed sandwich immunoassays, and the potential to achieve even higher levels of multiplexing while preserving a high sensitivity and specificity. We applied ProteinSeq to analyze 36 proteins, including one internal control, in 5 μl of plasma samples in a cohort of patients with cardiovascular disease and healthy controls. Paper III describes PLA-DTM, a strategy for recording all possible interactions between sets of proteins in clinical samples. Individual proteins and their interactions are first encoded to dual barcoded DNA by PLA, and the barcodes are interrogated by a method named dual tag microarray (DTM). We applied the method for studying interactions among protein members of the NFκB signaling pathway. Paper IV describes a novel probing strategy for analyzing individual biomolecules in solution or in situ. The technique employs a new class of probes for unfolding proximity ligation assays - uPLA probes. The probes are designed so that each probe set is sufficient in forming and replicating circular DNA reporter, without interactions among themselves when incubated with the sample. The uPLA probing strategy provides ease in the design of multiple probe sets in parallelized assays while enhancing the specificity of detection. We used the uPLA probes to detect various targets, including synthetic DNA and cancer-related transcripts in situ.

proximity ligation assay

blood biomarkers

protein interactions

pathway analysis

single molecule

next-generation sequencing

Study on Proton-Electron Coupling and Mixed-Conducting Behaviors Based on Metal Dithiolene Complexes / 金属ジチオレン錯体におけるプロトン-電子相関系及びプロトン-電子混合伝導体に関する研究

Kimura, Yojiro

23 March 2022

京都大学 / 新制・課程博士 / 博士(理学) / 甲第23721号 / 理博第4811号 / 新制||理||1689(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授 北川 宏, 教授 吉村 一良, 教授 竹腰 清乃理 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Proton-electron coupling system

Metal dithiolene complexes

Crystal Structure

400

Studies in collisional energy transfer of highly rotationally and vibrationally excited molecules / Trevor C. Brown. / Studies in collisional energy transfer of highly excited molecules.

Brown, Trevor C.

January 1988

Typescript (Processed) / Errata slip inserted. / Spine title: Studies in collisional energy transfer of highly excited molecules. / Bibliography: leaves 143-167. / viii, 169 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis describes the studies made on several unimolecular reaction systems in order to obtain collisional energy transfer information on highly excited polyatomic molecules. Pressure-dependant very low-pressure pyrolysis (VLPP) and infrared multiphoton decomposition (IRMPD) experimental techniques are used. / Thesis (Ph.D.)--University of Adelaide, 1989

541.22 20

Energy transfer.

Rearrangements (Chemistry)

Chemical kinetics.

Electron-molecule collisions.

Flamingo/Starry Night in embryonic abdominal sensory axon development of Drosophila

Steinel, Martin Claus

January 2008

The seven-pass transmembrane atypical cadherin, Flamingo (also known as Starry Night) is evolutionally conserved in both structure and function in vertebrates and invertebrates. It plays important roles during the establishment of planar cell polarity (PCP) of epithelial tissues and during the development of axons and dendrites in both peripheral and central neurons. / This thesis looks at the role of Flamingo/Starry Night in axon growth and guidance in the embryonic abdominal peripheral nervous system (PNS) of Drosophila. It describes the expression pattern of Flamingo in the PNS and its environment. A combination of single cell labelling and immunohistochemical techniques was used to define the effect of mutations in flamingo as well as several genes coding for potential Flamingo interaction partners. Rescue- and over-/mis-expression experiments featuring targeted expression of either a wild type version or mutant versions of flamingo provide information on the cellular and molecular mechanisms by which Flamingo regulates sensory axon development. Loss of Flamingo function results in a highly penetrant axon stall phenotype. Both sensory and motor axons frequently halt their advance early along their normal trajectories. Flamingo appears to mediate an axon growth promoting signal upon contact of sensory growth cones with specific early intermediate targets. Expression of Flamingo in sensory neurons is sufficient to rescue the mutant sensory axon phenotype. This rescue is at least partially independent of most of the extracellular region of the Flamingo protein. While Flamingo was previously found to have homophilic adhesion properties in vitro and appears to function by a homophilic mechanism during the neurite development of several types of neurons, this study supports a heterophilic signalling mechanism by which Flamingo fulfils its role in abdominal sensory axon growth promotion.

SIFT-MS: development of instrumentation and applications.

Francis, Gregory James

January 2007

Data is presented for a range of experiments that have been performed using a selected ion flow tube (SIFT) instrument operated at room temperature (~ 298K) with carrier gas pressures typically in the range of 0.3 – 0.6 Torr. The majority of the experiments discussed are performed on a Voice100 instrument that has not been described in detail previously. The Voice100 is a novel instrument that has been designed particularly for quantitative trace gas analysis using the SIFT-MS technique. A mixture of helium and argon carrier gases are employed in the Voice100 flow tube. By mixing carrier gases, the flow dynamics and diffusion characteristics of a flow tube are altered when compared to classic single carrier gas models. Therefore firstly, optimal flow conditions for the operation of a Voice100 are characterised. The diffusion of an ion in a mixture of carrier gases is then characterised using theoretical models and experimental techniques. This research requires that a new parameter Mp be defined regarding the mass discrimination of an ion in the non-field-free region near the downstream ion sampling orifice. Furthermore, a new method is described for the simultaneous measurement of rate coefficients for the reactions of H₃O⁺.(H₂O)n (n = 1, 2, 3) ions with analytes. Rate coefficients and branching ratios for the reactions of SIFT-MS precursor ions with specific analytes related to four individual applications are presented. For each application, the kinetic parameters are determined so as to facilitate the quantitative detection of the analytes relevant to that application. The GeoVOC application involves the measurement of hydrocarbon concentrations in the headspace of soil and water across a range of humidities. Alkyl esters are investigated to allow for the quantitative detection of each compound in fruits and vegetables. Chemical warfare agents, their surrogates and precursor compounds are studied which allows for the quantitative or semi-quantitative detection of a range of highly toxic compounds. Finally, 17 compounds classified by the US-EPA as hazardous air pollutants are studied that enables SIFT-MS instruments to replicate sections of the TO-14A and TO-15 methods.

Selected Ion Flow Tube

SIFT-MS

Ion-molecule kinetics

Computational Chemistry

Innate immune response in human endothelial cells : characterization and regulation of E-selectin, ICAM-I and cytokine expression and the role of Staphylococcus aureus /

Strindhall, Jan,

January 2003

Diss. (sammanfattning) Linköping : Univ., 2003. / Härtill 4 uppsatser.