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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Polimorfismo do RRE e ResistÃncia aos Antirretrovirais do VÃrus da ImunodeficiÃncia Humana e Efeito CitopÃtico e Replicativo In vitro da Enfuvirtida no CÃdon 36 do VÃrus Modificado pNL4-3 / Polymorphism of RRE and Antiretroviral Resistance from Human Immunodeficience Virus and Citopathic Effect and Replication In vitro of Enfuvirtide in CODON 36 from Modified Virus pNL4-3

Melissa Soares Medeiros 18 November 2011 (has links)
nÃo hà / IntroduÃÃo: Rev Responsive Element (RRE) à uma molÃcula RNA responsÃvel pelo transporte do mRNA viral do HIV-1 do nÃcleo para o citoplasma da cÃlula CD4, atravÃs da via RRE-Rev, essencial para a replicaÃÃo viral. As mutaÃÃes de resistÃncia a Enfuvirtida sÃo primariamente localizadas no perÃmetro de 10 aminoÃcidos do HR1, regiÃo correspondente no RRE. Caracterizar o RRE poderà fornecer uma nova abordagem terapÃutica para a terapia do HIV. Objetivos: Sequenciar e caracterizar o RRE da gp41 para avaliar sua variabilidade e correlaÃÃo com parÃmetros laboratoriais em sequÃncias de pacientes infectados pelo HIV-1 que receberam terapia antirretroviral ou virgens. Em estudo in vitro avaliar a mutaÃÃo 36D na presenÃa de Enfuvirtida. Metodologia: 62 amostras de pacientes com HIV-1 do Cearà foram coletadas e 35 sequÃncias de RRE foram obtidas e distribuÃdas em trÃs grupos para fins de anÃlise comparativa: N (virgens de terapia), T (uso de antirretroviral sem inibidor de fusÃo) e F (uso de antirretroviral associados a Enfuvirtida). SequÃncias obtidas foram alinhadas com o banco de dados de Los Alamos para HIV usando HIV BLAST Search. Estudo in vitro utilizou dois vÃrus de laboratÃrio pNLA-3 (36D e 36G) observando citopatogenicidade e proliferaÃÃo na presenÃa de doses crescentes de Enfuvirtida. Resultados: A anÃlise filogenÃtica demonstrou alta prevalÃncia do HIV-1 subtipo B (97,2%). Observou-se aumento da resposta imunolÃgica no grupo T (71,5%) comparado ao F (2,98%). MutaÃÃes mais comuns e polimorfismos do Grupo N foram Q32L (41,6%), N42S (8,3%), R46K (33,3%), L54M (41,6%); no grupo T: Q32R (8,3%), R46K (25%), L54M (33,3%); e no grupo F: Q32L (18,2%), G36D (9,1%), V38A (9,1%), N42S (27,3%), N42T (9,1%), R46K (27,3%), L54M (45,4%), K77R (54,5%). TrÃs amostras demonstraram mutaÃÃes de resistÃncia significativas para os inibidores de fusÃo. AnÃlise dos sÃtios primÃrios de ligaÃÃo do RRE observou presenÃa de mutaÃÃo 28A em 27,2% e 8,3% nos grupos F e N respectivamente, e 27S em 8,3% no grupo T. Houve pressÃo seletiva da regiÃo HR1 do HIV-1 de pacientes usando antirretroviral, independente da exposiÃÃo à Enfuvirtida. NÃo houve diferenÃa estatÃstica significativa nas curvas de p24 do vÃrus 36D comparado com 36G, independente de concentraÃÃes de T20 (p>0.05). Observou-se menor formaÃÃo de sincÃcio, com diminuiÃÃo da capacidade fusogÃnica, sem impacto na infectividade. ConclusÃo: O estudo definiu as mutaÃÃes e polimorfismos mais prevalentes no CearÃ, sugerindo alta preservaÃÃo nas regiÃes de sÃtio primÃrio de ligaÃÃo do Rev-RRE. Evidenciou baixo perfil de resistÃncia a Enfuvirtida em regimes com falha utilizando esta medicaÃÃo. Detectou-se pressÃo seletiva no HR1 do HIV-1 de pacientes em uso de Antirretroviral, independente de exposiÃÃo à Enfuvirtida. Evidenciado in vitro menor formaÃÃo sincicial no vÃrus 36D, com diminuiÃÃo na atividade fusogÃnica, mantendo infectividade. / Introduction: Rev Responsive Element (RRE) is a RNA molecule responsible to mRNA from HIV-1 virus nuclear transportation to cytoplasm through RRE-Rev pathway, essential to virus replication. Enfuvirtide resistance mutations are primary located in a perimeter of 10 amino acids of HR1, a corresponded region of RRE. Characterize RRE should provide a new approach for HIV therapy. Objectives: Sequence and characterize RRE from gp41 to evaluate variability and correlate with laboratory parameters in sequences from HIV-1-infected patients, which were receiving regimens including Enfuvirtide, naÃve or rescue therapy. Also evaluated mutation G to D at codon 36 in the presence of fusion inhibitor (enfuvirtide). Methods: Sixty-two samples from HIV patients in Ceara/Brazil were collected and Thirty-five RRE sequences and clinical follow-up were analyzed, distributed into three groups: N (naÃve therapy), T (treated patients with rescue regimens) and F (rescue regimens containing Enfuvirtide). Sequences obtained were aligned with Los Alamos HIV sequence database by using the HIV BLAST Search. Culture Study was performed using two different pNLA-3 (36D and 36G) with increasing amounts of enfuvirtide. Results: A phylogenetic analyses demonstrated higher prevalence of HIV-1 subtypes B (97.2%). An increased immunology response was observed in CD4 count higher on group T (71.5%) compared with F (2.98%). Group N most common mutations and polymorphisms were Q32L (41.6%), N42S (8.3%), R46K (33.3%), L54M (41.6%); group T: Q32R (8.3%), R46K (25%), L54M (33.3%); and group F: Q32L (18.2%), G36D (9.1%), V38A (9.1%), N42S (27.3%), N42T (9.1%), R46K (27.3%), L54M (45.4%), K77R (54.5%). Three samples demonstrated significant resistance mutations to fusion inhibitors. Analysis of RRE nucleotide primary sites observed mutation 28A in 27.2% and 8.3% on groups F and N respectively, and 27S in 8.3% on group T. There was selective pressure on HR1 region from HIV-1 patients using antiretroviral, independent of enfuvirtide exposure. There was no statistical difference between p24 curves of virus 36D compared with 36G, independent of T20 concentrations (p>0.05). It was observed less syncytial formation in 36D virus, with diminished fusogenic activity besides keeping infectivity. Conclusions: This study defined most prevalent RRE polymorphisms in Ceara/Brazil and suggests highly preserved regions primary sites to Rev connection. Observed a low resistance profile to enfuvirtide in failing regimens with this drug. Selective pressure on HR1 region in failed regimens with out fusion inhibitors was detected. A less syncytial formation in 36D virus with diminished fusogenic activity was detected.
2

Molecular Studies involving the Rev Protein of Caprine Arthritis Encephalitis Virus and Visna Virus.

Graves, Bridget Michele 01 December 2001 (has links)
Caprine Arthirtis Encephalitis Virus (CAEV) and Visna Virus are two viruses of the lentivirus family. They encode three structural genes (gag, pol, and env) and two regulatory genes (rev and tat). The Rev protein regulates Gag, Pol and Env expression by transporting their mRNAs to the cytoplasm by binding to the RRE (Rev Response Element) found on their mRNAs. Previous studies have indicated that Rev may be toxic to transfected cells, overexpression of exogenous RREs or a better binding RRE can inhibit Rev activity and Rev-C (CAEV Rev) can trans-activate RRE-V (Visna Virus RRE). To test these possibilities FACS analysis, RNA binding assays, cotransfections, and SELEX were done. The results indicated that Rev is not acutely toxic to cells, inhibition of Rev activity could not be achieved by making a better binder or through expression of exogenous RREs, and Rev-C can trans-activate RRE-V implicating conservation of Rev/RRE interactions in lentiviruses.
3

Structure and Energetics of RNA - Protein Interactions for HIV RREIIB Targeting Zinc Finger Proteins.

Mishra, Subrata H 01 July 2008 (has links)
RNA - protein interactions constitute a vital part of numerous biochemical processes. In the HIV life cycle, the interaction of the viral protein Rev and the Rev Responsive Element (RRE), a part of unspliced HIV RNA, is crucial for the propagation of infectious virions. Intervention of this interaction disrupts the viral life cycle. Rev - RRE interaction initially occurs at a high affinity binding site localized to a relatively small stem loop structure called RREIIB. This binding event has been well characterized by a variety of biochemical, enzymatic and structural studies. Our collaborators have previously demonstrated the efficacy of zinc finger proteins, generated by phage display, in the specific targeting of RREIIB. We have shown that the binding of these zinc finger proteins is restricted to the bulge in stem loop IIB that Rev also targets. Currently these proteins bind RREIIB with dissociation constants in the nanomolar range. We have employed a wide assortment of biophysical techniques such as gel shift assays, circular dichroism, isothermal titration calorimetry and NMR structural studies to further investigate this interaction. Several mutants of the zinc finger protein and the RNA were also studied to delineate the parts of the protein secondary structure as well as the role of specific side chains in this interaction. We have generated a solution structure of the RREIIBTR RNA bound zinc finger protein, ZNF29G29R, which displayed the highest affinity to this RNA. This has allowed us to shed further light on the molecular basis of this RNA - protein interaction and provides input for further refinement in our structure guided phage display.
4

In vitro and in vivo studies of DNA cleavage and targeted cleavage of HIV REV response element RNA by metallopeptides

Jin, Yan 14 September 2006 (has links)
No description available.
5

Characterization of the Caprine Arthritis Encephalitis Virus (CAEV) Rev N-Terminal Elements Required for Efficient Interaction With the RRE

Abelson, Michelle L., Schoborg, Robert V. 01 March 2003 (has links)
The Caprine Arthritis Encephalitis Virus (CAEV) genome encodes three structural (gag, pol, and env) and three accessory (rev, tat, and vif) genes. The Rev-C protein regulates Gag, Pol and Env expression by transporting their mRNAs to the cytoplasm. Rev trans-activation requires binding of Rev to an RNA structure called the Rev Response Element (RRE-C). Previous mutational analyses have shown that two domains of Rev are required for its function. The basic domain mediates RRE binding and multimer formation, and the nuclear export signal (NES) mediates trans-activation. Preliminary experiments demonstrate that Rev-C N-terminal deletion mutants bind the RRE less avidly than does wildtype Rev. As a result, it was hypothesized that an additional domain located in the N-terminal exon of Rev-C was required for optimal RRE binding. To test this hypothesis, Rev-C alanine scanning mutants were generated and in vitro RRE binding assays were performed. Alteration of Rev-C amino acids K13, E14, N15, V19, T20, M21 and R27 dramatically decreased affinity for RRE-C. These data demonstrate that Rev-C N-terminal amino acids are required for optimal RRE-C binding and suggest that a third functional domain exists within the N-terminus of Rev-C.
6

Functionalizing Branched Peptides with Unnatural Amino Acids Toward Targeting HIV-1 RRE RNA and Microbials

Wynn, Jessica Elaine 29 August 2016 (has links)
The interaction of the protein Rev with Rev Response Element (RRE) RNA is critical to the HIV-1 life cycle as this complex is required for the export of singly-spliced and unspliced mRNAs from the nucleus to the cytoplasm. Disruption of this interaction is considered to be a powerful strategy towards the development of HIV-1 therapeutics. Therefore, we have developed several branched peptide libraries containing unnatural amino acids to target the high-affinity binding site of RRE RNA (RRE IIB), with the idea that branching in peptides can provide multivalent contacts with folded RNA structures and boost binding affinity and selectivity for the target. Unnatural amino acids were incorporated into the library design to encourage non-canonical interactions with the RNA and to improve proteolytic stability. The on-bead high-throughput screening of our first branched peptide library (46,656 sequences) against HIV-1 RRE RNA generated hit peptides with binding affinities in the low micromolar range. We demonstrated that branching in the peptide is required for efficient binding and selectivity towards the RNA, and that the peptides bind a large surface area of RRE IIB. Introduction of boronic acids into branched peptides boosted selectivity of the peptides for RRE IIB, and proved to be a novel and tunable mode of binding towards RNA. Additionally, we revealed that these branched peptide boronic acids (BPBAs) were cell permeable and non-toxic. One BPBA (BPBA3) bound RRE IIB selectively and was able to inhibit HIV-1 replication in vitro, revealing enzymatic cleavage of the RNA upon binding. A second generation BPBA library that introduced acridinyl lysine as an intercalator (4,096 sequences) was screened against RRE IIB. Several hit compounds bound in the low nanomolar regime, and a significant number of compounds inhibited HIV-1 replication in vitro. These BPBAs were also found to severely inhibit the microbial growth of bacteria and fungus, with MICs as low as 1 µg/mL against Staphylococcus aureus, Candida albicans, and Escherichia coli. These compounds were also found to significantly inhibit biofilm formation and growth, and were non-hemolytic. High-throughput screening of a third generation BPBA library containing all unnatural amino acids (46,656 sequences) revealed several hits that bound RRE IIB RNA in the nanomolar range. Sequence motifs present in the hit peptides suggested that the location and composition of amino acids within the branched peptide structure were important for recognizing the RNA target. In particular, lead compounds 2C5 and 4B3 demonstrated selectivity towards RRE, and footprinting experiments combined with SHAPE experiments revealed different interactions of the peptides with the RNA Toxicity assays revealed no impact on cell viability for the majority of hit sequences tested up to 100 µM, and several compounds also demonstrated inhibition of HIV-1 replication. / Ph. D.
7

Risikoprädiktion für sehr frühen Reinfarkt, Tod und Progression nach ischämischem Schlaganfall / Risk prediction of very early recurrence, death and progression after acute ischaemic stroke

Maier, Ilko 20 January 2014 (has links)
No description available.
8

Branched Peptides Targeting HIV-1 RRE RNA and Structure-Activity Relationship Studies of Spinster Homolog 2 Inhibitors

Peralta, Ashley N. 08 June 2020 (has links)
Binding of the Rev protein with Rev Response Element (RRE) RNA present in singly- and unspliced mRNA transcripts is necessary for the replication of HIV-1. This interaction transports the mRNA transcripts from the nucleus to the cytoplasm for translation of the necessary structural and enzymatic proteins for the newly budding virus as well as for providing its genetic material. Given the high rate of mutation in HIV-1, the highly conserved and pertinent RRE RNA is of high interest for pharmaceutical intervention. Consequently, a branched peptide library containing unnatural amino acids was developed to target RRE RNA with the goal of increasing stability, potency, selectivity, and in vivo activity for RRE RNA. An unnatural amino acid branched peptide library (46,656 sequences) was synthesized and screened against RRE IIB and several hits in the sub-micromolar regime were found. A number of hits demonstrated selectivity in the presence of other RNAs in addition to two hits, 4A5 and 4B3, significantly inhibiting HIV-1 growth in vitro. These peptides inhibited HIV-1 replication in a concentration dependent manner and were demonstrated to be non-toxic. Further analysis of 4A5 and 4B3 via footprinting and SHAPE-MaP experiments determined that these peptides blocked binding of Rev through binding at the primary and secondary binding sites of RRE RNA. Sphingosine 1-phosphate (S1P) is a signaling molecule that plays a role in various biological processes including immunity, neurogenesis, and angiogenesis. The role S1P plays is largely determined by its location, in which Spinster homolog 2 (spns2) and mfsd2b are the two known transporters. The two transporters exist in different cell types and cellular localizations, with spns2-produced S1P being responsible for trafficking of lymphocytes. As such, spns2 has become of interest for therapeutic targeting in autoimmune and inflammatory diseases. To validate spns2 as a target in pharmaceutical intervention, a series of spns2 inhibitors were developed. A screening of a library of inhibitors found that compound SLP7120922 demonstrated inhibition of spns2 transport activity. The design, synthesis, and biological evaluation of inhibitors based on SLP7120922 is described. Modifications to the lipophilic tail region were performed with one compound 4.40f discovered to be potent, minimally toxic, and active in vivo. A series of modifications to the head region were then conducted that evaluated linear head derivatives with alkyl-, amide-, and amino acid-based groups. A number of compounds are reported that demonstrate good in vitro activity and minimal toxicity with two compounds, 4.48b and 4.52c, showing favorable in vivo activity in mice. / Doctor of Philosophy / Human immunodeficiency virus (HIV-1) has a high rate of mutation, which commonly leads to the need for many types of medications throughout the lifetime of a patient. In order to design a therapeutic that the virus has a low chance of growing resistance to, a target needs to be chosen with a low mutation rate. One such target is the Rev Response Element (RRE) RNA and it is necessary for the virus to replicate. A protein named Rev binds to RRE RNA in order for RRE to carry out its pertinent function. To block this function we have chosen branched peptides to target the RNA. Peptides are made of the same building blocks of proteins, but are much shorter than proteins. The peptides described here are made up of modified building blocks, called unnatural amino acids. This work describes the generation of an unnatural amino acid branched peptide library and how it was screened in order to find branched peptides that bind RRE RNA. Many peptides were found to bind RRE RNA but two in particular, 4A5 and 4B3, were the best binders that inhibited HIV-1 growth. The remainder of the work describes how these peptides bind to RRE RNA, while demonstrating that they are non-toxic and bind HIV-1 in a concentration dependent manner. A transporter protein termed Spinster homolog 2 (spns2) transports a signaling molecule known as sphingosine 1-phosphate (S1P). For our immune system to function properly, spns2 has to transport S1P to the appropriate places to signal to immune cells. Unfortunately, this is a problem in autoimmune and inflammatory diseases, such as multiple sclerosis, due to these diseases having an overactive immune system. A potential way to treat these diseases would be by inhibiting spns2. This work describes the design, synthesis, and biological evaluation of spns2 inhibitors. Many compounds were found to inhibit spns2 to a degree, but three compounds, in particular, show potent and effective inhibition in mice.
9

Targeting HIV-1 RNAs with Medium Sized Branched Peptides Featuring Boron and Acridine-Branched Peptide Library Design, Synthesis, High-Throughput Screening and Validation

Zhang, Wenyu 14 April 2014 (has links)
RNAs have gained significant attention in recent years because they can fold into well-defined secondary or tertiary structures. These three dimensional architectures provide interfaces for specific RNA-RNA or RNA-protein interactions that are essential for biological processes in a living system. These discoveries greatly increased interest in RNA as a potential drug target for the treatment of diseases. Two of the most studied RNA based regulatory systems are HIV-1 trans-activating response element (TAR)/Tat replication pathway and Rev response element (RRE)/Rev export pathway. To efficiently target TAR and RRE RNA, we designed and synthesized three generations of branched peptide libraries that resulted in medium sized molecules. The first generation of BPs were discovered from screening a one-bead one-compound library (4,096 compounds) against HIV-1 TAR RNA. One peptide FL4 displayed a binding affinity of 600 nM to TAR RNA, which is tighter than its native protein counterpart, Tat. Biophysical characterization of these BP demonstrated that "branches" in BPs impart multivalency, and they are cell permeable and non-toxic. The second generation peptides were discovered from an on-bead high-throughput screening of a 3.3.4 branched peptide boronic acids (BPBAs) library that bind selectively to the tertiary structure of RRE IIB. The library comprised of 46,656 unique sequences. We demonstrate that our highest affinity BPBA (BPBA1) selectively binds RRE IIB in the presence of competitor tRNAs as well as against six RRE IIB structural variants. Further, we show that the boronic acid moieties afford a novel binding mode towards RNA that is tunable; their Lewis acidity has critical effects on binding affinity. In addition, biophysical characterizations provide evidence that "branching" in these peptides is a key structural motif for multivalent interactions with the target RNA. Finally, RNA footprinting studies revealed that the BPBA1 binding site encompasses a large surface area that spans both the upper stem as well as the internal loop regions of RRE IIB. BPBA1 is cell permeable and non-toxic. In the next generation of branched peptides, a 3.3.4 branched peptide library composed of 4,096 unique sequences that featured boronic acid and acridine moieties was designed. We chose acridine as the amino acid side chain due to its potential for π-stacking interaction that provides high binding affinity to RNA target. The library was screened against HIV-1 RRE IIB RNA. Fifteen peptides were sequenced and four contained acridine alone and/or in conjunction with boronic acid moieties displayed dissociation constants lower than 100 nM. The ribonuclease protection assays of A7, a sequence that contains both boronic acid and acridine residues, showed a similar protection pattern compared to previous peptide BPBA1, suggesting that the 3.3.4 branched peptides shared similar structural elements and contacted comparable regions of the RRE IIB RNA. The results from this research indicated that "branching" in peptides imparts multivalent interactions to the RNA, and that functional groups such as boronic acid and acridine are key structural features for efficient binding and selectivity for the folded RNA target. We demonstrated that the branched peptides are cell permeable and non-toxic. / Ph. D.
10

Extrapolation vectorielle et applications aux équations aux dérivées partielles

Duminil, Sébastien 06 July 2012 (has links) (PDF)
Nous nous intéressons, dans cette thèse, à l'étude des méthodes d'extrapolation polynômiales et à l'application de ces méthodes dans l'accélération de méthodes de points fixes pour des problèmes donnés. L'avantage de ces méthodes d'extrapolation est qu'elles utilisent uniquement une suite de vecteurs qui n'est pas forcément convergente, ou qui converge très lentement pour créer une nouvelle suite pouvant admettreune convergence quadratique. Le développement de méthodes cycliques permet, deplus, de limiter le coût de calculs et de stockage. Nous appliquons ces méthodes à la résolution des équations de Navier-Stokes stationnaires et incompressibles, à la résolution de la formulation Kohn-Sham de l'équation de Schrödinger et à la résolution d'équations elliptiques utilisant des méthodes multigrilles. Dans tous les cas, l'efficacité des méthodes d'extrapolation a été montrée.Nous montrons que lorsqu'elles sont appliquées à la résolution de systèmes linéaires, les méthodes d'extrapolation sont comparables aux méthodes de sous espaces de Krylov. En particulier, nous montrons l'équivalence entre la méthode MMPE et CMRH. Nous nous intéressons enfin, à la parallélisation de la méthode CMRH sur des processeurs à mémoire distribuée et à la recherche de préconditionneurs efficaces pour cette même méthode.

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