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141	Protoporphyrie érythropoïétique : thérapie génique non intégrative par oligonucléotide antisens adressé par peptides bifonctionnels RTf1-CPP / Erythropoietic protoporphyria : non-integrative gene therapy by antisens oligonucleotide addressed by TFR1-CPP bifunctional peptides Mirmiran, Arienne 28 March 2017 (has links) La protoporphyrie érythropoïétique (PPE) est une maladie héréditaire rare caractérisée par un déficit en activité FECH responsable d’une accumulation de PPIX. Elle se manifeste par une photosensibilité très invalidante. Il n’existe pas de traitement efficace pour la PPE. 95 % des malades présentent un allèle FECH hypomorphe (c.315-48C) en trans d'une mutation FECH délétère, ce qui entraine une diminution de l'activité FECH résiduelle dans les érythroblastes en dessous d'un seuil critique d'environ 35 % de l'activité normale. L’allèle hypomorphe (c.315-48C) favorise l'utilisation d'un site cryptique d'épissage situé en -63 de l’intron 3 générant un ARNm FECH incluant une partie de l’intron 3 et possédant un codon stop prématuré. L’ARN est alors dégradé par NMD pendant sa maturation. Nous avons déjà identifié un oligonucléotide antisens (ASO-V1) qui redirige l'épissage vers le site accepteur physiologique de l’intron 3 et augmente la production d’ARN FECH WT. Nous avons développé par ce travail une nouvelle stratégie d’adressage d’ASO-V1 en utilisant des peptides ciblant le récepteur de la transferrine (RTf1) qui est exprimé à un niveau très élevé dans les progéniteurs érythroïdes en différenciation concomitamment à la FECH. Nous avons développé des peptides bifonctionnels à partir des séquences peptidiques ciblant le RTf1 tout en les couplant à des séquences Cell Penetrating Peptide (CPP) qui facilitent la sortie de l’ASO-V1 de la vésicule endosomale. Après la transfection des lignées lymphoblastoïdes de malades PPE par différents nanocomplexes RTf1-CPP/ASO-V1, nous avons pu montrer que plusieurs des peptides bifonctionnels utilisés permettaient une redirection efficace et prolongée de l’épissage cryptique vers l’épissage physiologique exon3-exon4 et que cela permettait une correction des taux d’ARN FECH WT. Nous avons ensuite testé l’effet des nanocomplexes RTf1-CPP/ASO-V1, ex vivo, dans les progéniteurs érythroïdes en différenciation de différents sujets atteints de PPE et nous sommes arrivés à augmenter l’ARN FECH WT et diminuer significativement l’accumulation de la PPIX dans ces cellules par rapport à celles transfectées par des nanocomplexes RTf1-CPP/ASO-Mock. La prochaine étape de notre étude serait d’apporter la preuve de concept, in vivo, dans un modèle murin humanisé de PPE après l'administration de nanocomplexes RTf1-CPP/ASOV1 / Erythropoietic protoporphyria (EPP) is a rare hereditary disease characterized by a deficiency in FECH activity responsible for the accumulation of PPIX. EPP is manifested by a very disabling photosensitivity. There is no effective treatment for EPP. 95% of the patients present a hypomorphic FECH allele (c.315-48C) in trans of a deleterious FECH mutation, resulting in a decrease in residual FECH activity in erythroblasts below a critical threshold of about 35% of normal activity. The hypomorphic allele (c.315-48C) promotes the use of a cryptic splicing site located at -63 of the intron 3 generating a FECH mRNA including a part of the intron 3 and possessing a premature stop codon. The RNA is then degraded by NMD during its maturation. We have previously identified an antisense oligonucleotide (ASO-V1) that redirects splicing to the physiological acceptor site of intron 3 and increases the production of WT FECH mRNA. Here, we developed a new ASO-V1 addressing strategy using transferrin receptor (TRf1) targeted peptides. TfR1 is expressed at a very high level in differentiating erythroid progenitors concomitantly with FECH. We developed bifunctional peptides from peptide sequences targeting TfR1 while coupling them to Cell Penetrating Peptide (CPP) sequences that facilitate the release of ASO-V1 from the endosomal vesicle. We transfected the lymphoblastoid cell lines from EPP patients by different TfR1-CPP/ASO-V1 nanocomplexes and we demonstated that several of the bifunctional peptides allowed an efficient and prolonged redirection of the cryptic splicing towards the exon3-exon4 physiological splicing and the correction of the WT FECH mRNA levels. Then, we tested the effect of TfR1-CPP/ASO-V1 nanocomplexes, ex vivo, in differentiating erythroid progenitors of different EPP subjects and we were able to increase WT FECH mRNA and decrease significantly the accumulation of the PPIX in these cells compared to those transfected by TfR1-CPP/ASO-Scr nanocomplexes. The next step of our study would be to provide a proof of concept, in vivo, in a humanized murine model of EPP after the administration of TfR1-CPP/ASOV-1 nanocomplexes Thérapie génique Protoporphyrie Erythropoïétique Oligonucléotide antisens Peptide cargo RTf1 CPP Gene therapy Erythropoietic protoporphyria Antisense oligonucleotide Peptide cargo TfR1 CPP
142	Cyclic Enzymatic Solid Phase Synthesis of DNA Oligonucleotides on an Epoxide-Activated Resin Khan, Ahmed Mirza 15 May 2008 (has links) Standard chemical DNA synthesis with isotope labels requires expensive reagents; moreover, a large excess of phosphoramadites (typically 50-100 fold) must be used. We developed a process where enzymatic cyclic solid phase synthesis of DNA allows for more economic reagent use. A DNA template was immobilized on an epoxy-activated solid support. This chemistry was chosen because the formed linkage is inert to high pH conditions. High efficiency of the covalent attachment was observed when the reaction was carried out in MgCl2/CAPS buffer. It was found that Mg2+ enables the reaction to be completed over a period of 14 h, compared to 72 h under standard conditions. DNA synthesis was carried in a cyclic fashion on a support bound DNA using Klenow fragment. Cyclic enzymatic DNA synthesis DNA conjugation to resin Labeled DNA oligonucleotide Solid phase synthesis Epoxide-activated resin
143	Encapsulation and controlled release of active DNA from uncrosslinked gelatin microspheres Hardin, James 12 December 2011 (has links) Cancer is a disease that varies dramatically from person to person due to the specifics of the individual's physiology and the source of the cancer. In most cases, the origin of the cancer can be determined but metastasis can lead to tumors anywhere and thus many cancers require treatment of the whole body. Since many of the drugs that are used to treat cancer are toxic to healthy cells as well as cancerous ones, there has been considerable interest in developing ways to convey the drug specifically to the cancer cells with minimal exposure to healthy cells. Colloid drug delivery vehicles have shown considerable progress toward this end, while also reducing degradation of the drug prior to delivery to targeted sites (particularly important for oligonucleotide and protein therapeutics), and controlling release rates. Toward the end of improved drug delivery, this thesis work investigates the encapsulation of DNA in gelatin microspheres (GMS) and the subsequent temperature controlled release of the encapsulated DNA from these GMS. DNA-loaded GMS were then used as templates for colloidal satellite assemblies and the released DNA was shown to competitively displace the original partner strands of immobilized DNA on the surface of the assemblies. To support these investigations, hybridization of DNA at colloidal surfaces was also investigated using in situ measurements and found to significantly deviate from solution behavior. DNA hybridization is of particular interest as means of controlling the functionality of colloidal structures because it is uniquely reversible and tunable as well as biocompatible. Gelatin was chosen as the encapsulation matrix for its superior biocompatibility, convenient gel to liquid phase transition at ~35 oC, and economical availability. Colloids Surface functionality Microfluidic Drug delivery Oligonucleotide Hybridization DNA Microspheres (Pharmacy) Controlled release preparations Microencapsulation In situ hybridization DNA probes
144	Synthesis and evaluation of an [18F]-labelled antisense oligonucleotide as an imaging probe to measure cellular response to radiation therapy Koslowsky, Ingrid L Unknown Date No description available. [18F]fluoride antisense oligonucleotide radiation p21 senescence copolymer borohydride resin 4-[18F]fluorobenzyl-2-bromoacetamide 4-[18F]fluorobenzylamine
145	Nrg1p and Rfg1p in Candida albicans yeast-to-hyphae transition Lacroix, Céline. January 2008 (has links) The ability of Candida albicans to change morphology plays several roles in its virulence and as a human commensal. The yeast-to-hyphae transition is tightly regulated by several sets of activating and repressing pathways. The DNA-binding proteins Rfg1p, Nrg1p and the global repressor Tup1p are part of the repressors found to regulate this morphogenesis. Knowledge of these repressors is based on extrapolations from homology to S. cerevisiae and from expression studies of mutants in inducing conditions, all of which are indirect means of determining a protein's function. We proposed a genome-wide location study of the Nrg1 and Rfg1 transcription factors to obtain direct data to identify their in vivo targets. Our results suggest different avenues for Nrg1p function and a regulation behaviour diverging from the previously suggested model: Nrg1p acts not only as a repressor but also as a transcription activator. Furthermore it regulates its target genes through binding in their coding regions instead binding to the expected regulatory elements on promoters. Morphogenesis. Hyphae -- metabolism. Fungal Proteins. Repressor Proteins. Saccharomyces cerevisiae Proteins.
146	Integrin subunits: expression and function in early development of Strongylocentrotus purpuratus Brothers, M Elizabeth 09 December 2008 (has links) Integrins are heterodimeric transmembrane receptors composed of an α and a β subunit, that are expressed on the surface of all metazoan cells. These bidirectional signaling molecules are involved in many well-known aspects of cell function, although the role of integrins in early embryonic development remains a mystery. The purpose of this study was to characterize S. purpuratus integrins and determine if they are necessary for early embryonic development. Full length cDNA sequences for four incomplete gene predictions, αC, αD, αF, and βD, were determined by amplifying overlapping fragments and sequencing EST clones. Each cDNA has a single open reading frame predicting a protein with canonical integrin features. QPCR results show αC, αD, and βD are expressed in the embryo at relatively constant levels during the first 96 hours of development. αF is expressed in blastulae, during morphogenesis and tissue differentiation, at up to 35 times the levels of mRNA in the egg. Using a morpholino antisense oligonucleotide to block translation of αC results in a higher than normal mortality rate (57.1%) by 24 hours of development and 36.7% of embryos during this period have defects in aspects of cell division. These results indicate that αC is an essential gene for early development and that it may function in coordination of mitosis and cytokinesis. The expression of multiple subunits and the demonstration that αC has an essential role suggests that there are several non-overlapping functions for integrins in early embryonic development. integrin Strongylocentrotus purpuratus sea urchin morpholino antisense oligonucleotide development embryogenesis Quantitative PCR
147	Synthesis and evaluation of an [18F]-labelled antisense oligonucleotide as an imaging probe to measure cellular response to radiation therapy Koslowsky, Ingrid L 11 1900 (has links) Antisense oligodeoxynucleotides (asODNs) show strong binding and high selectivity and can be constructed to recognize specific cellular targets such as gene regulated mRNA. Radiolabelled asODNs have the potential to image gene expression through mRNA targeting and could be a valuable tool in the early assessment of outcome to cancer treatment. We have explored the potential of in vivo imaging of p21 gene expression, using fluorine-18 labelled asODNs ([18F]asODNs) and in vitro techniques, recognizing the relationship between the expression of this gene and resistance of cancer cells to radiation therapy. Radiolabelling of fully phosphorothioated, 20-mer ODNs was performed using the [18F]-labelled prosthetic group, 4-N-[18F]fluorobenzyl-2-bromoacetamide ([18F]FBBA). [18F]FBBA was first synthesized in an automated synthesis unit, resulting in a modest radiochemical yield. Methods to improve the yield were investigated using a metal catalyst-assisted borohydride exchange resin. Alkylation of [18F]FBBA to ODN resulted in radiochemical yields of 40%. Cellular uptake and retention studies were performed in human carcinoma cells expressing p21+/+ (HCT116) and the p21 knock-out cell line, 80S4, using both [18F]-labelled antisense and random sequence ODNs. Nonradioactive FBBA-labelled ODNs were used to evaluate the antisense effectiveness and distribution of the FBBA-modified ODNs. In vitro studies demonstrated that FBBA did not interfere with the antisense effect of ODNs against p21 mRNA; however, the probes required a transfection agent to observe an antisense effect. Cell fractionation studies with [18F]ODNs revealed increasing accumulation of liposome-transfected [18F]asODN in the cytoplasm of HCT116 cells over time. A biocompatible spermine-grafted block copolymer (SP) was subsequently evaluated as a potential vector to improve the delivery of [18F]asODN into cells. SP was shown to direct [F]-labelled ODNs to the cytoplasm, whereas naked [F]ODNs remained sequestered in vesicles, and liposome-transfected [F]ODNs localized mostly in the nucleus. Selective uptake and retention of [18F]asODN was observed in p21+/+ cells only when the probe was transfected with SP. Based on these studies, it can be concluded that [18F]asODNs have the potential to image gene expression, however the focus may need to be directed to find an appropriate vector which can rapidly deliver [18F]-labelled asODNs to the target tissue in vivo. [18F]fluoride antisense oligonucleotide radiation p21 senescence copolymer borohydride resin 4-[18F]fluorobenzyl-2-bromoacetamide 4-[18F]fluorobenzylamine
148	Assay and array technologies for G-protein coupled receptors. Bailey, Kelly January 2009 (has links) The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009 G proteins Receptors.
149	Assay and array technologies for G-protein coupled receptors. Bailey, Kelly January 2009 (has links) The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009 G proteins Receptors.
150	Assay and array technologies for G-protein coupled receptors. Bailey, Kelly January 2009 (has links) The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009 G proteins Receptors.

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