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Spécificité et inhibition des interactions protéine-protéine : Exemples d'approchesLugari, Adrien 08 April 2011 (has links)
L’identification de molécules organiques capables de moduler des interactions protéine-protéine (PPIs) est longtemps restée un domaine peu exploité par la recherche pharmaceutique privée comme académique. Cependant, le développement de méthodologies innovantes pour l’étude des PPIs et la validation récente de ce type d’inhibiteurs dans des essais précliniques, démontrent que les PPIs constituent une nouvelle source de cibles importantes. Les composés capables de moduler ces interactions représentent une nouvelle classe d’outils prometteurs, tant en recherche fondamentale qu’en thérapeutique. Elles peuvent aider à différencier les multiples fonctions portées par une même protéine, à replacer la protéine dans une cascade de réactions, ainsi qu’à disséquer et reconstituer des réseaux de signalisations protéiques. Ces molécules permettront également de faire émerger de nouvelles familles d’agents pharmacologiques actifs dans diverses pathologies.Mon travail de thèse s'est projeté dans l'avenir de la recherche biomédicale, en ciblant les interactions protéine-protéine. J’ai pu durant mon doctorat mettre en œuvre plusieurs méthodologies pour étudier et caractériser des interactions protéiques afin de développer des inhibiteurs de ces interactions. J’ai ainsi pu travailler sur l’optimisation d’un composé inhibiteur de l’interaction de la protéine virale Nef VIH-1 avec les domaines SH3 des Src kinases, le composé DLC27. J’ai également pu mettre en évidence la pertinence biologique de ce composé, qui cible un mode d’interaction unique, ou très rare, au niveau cellulaire en étudiant l’interaction avec les domaines SH3 de deux protéines, ALIX (ALG2-Interacting Protein X) et la sous-unité p85 de la PI3K (phosphatidylinositol 3-kinase).J’ai également pu caractériser la surface et le mode d’interaction de protéines virales impliquées dans le complexe de réplication du virus du SRAS (Syndrome Respiratoire Aigu Sévère). Cette étude tend à montrer que la protéine virale nsp10 agit comme une plateforme de reconnaissance pour ses partenaires, les protéines virales nsp14 et nsp16. Ces interactions permettent l’activation ou l’augmentation des activités respectives de nsp16 et nsp14 et jouent un rôle au niveau de la réplication virale. Suite à l’identification d’un ‘point chaud’ d’interaction, le résidu Tyr96 à la surface de nsp10, nous avons mis en évidence la première famille de molécules inhibitrices du complexe nsp10-nsp14 en couplant des méthodes informatiques (in silico) à des criblages expérimentaux. Ces molécules pourraient être utilisées comme antiviraux ou servir d’outils pour la recherche, en permettant par exemple de mieux comprendre et d’élucider les mécanismes moléculaires impliqués dans la réplication du virus du SRAS et des coronavirus en général. / Protein-protein interactions (PPIs) participate in and regulate almost all essential cellular functions. As a consequence, they are frequently involved in various pathologies (going from cancer development to viral replication and host cell infection) but their study remains a challenge.Thus understanding those interactions as well as finding small drug candidates able to modulate them, a field of research not currently fully developed, appear as the future of the healthcare industry.In this context, I chose to learn different techniques to study PPIs that are usually employed in academic (IMR laboratory, CNRS, France) or corporate environments (Genentech, USA). Moreover, I also worked on the development of small organic inhibitors of PPIs coupling in silico methodologies (chemo-informatics, Drug Design) to biological and structural validations.During my PhD, I could manage and work on different projects involving the study of PPIs involved in cancer signaling pathways as well as the development of potent antiviral drugs targeting the HIV and SARS viruses.My organizational, personal and scientific skills as well as the practical experience I developed on various techniques (from cell biology to biophysics, structural biochemistry and Drug Design), make me feel confident on the management of PPIs drug discovery projects.I am thus able to efficiently work on, and manage, the study of protein-protein interactions in various pathologies as well as the development of potent PPIs inhibitors, that will be a major breakthrough for Biotech/Pharma companies in the coming years.
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Étude de l'action sur l'épissage de protéines nucléaires se liant à la région de l'ARN du virus VIH-1 contenant le site d'épissage A7 et role de ces protéines sur d'autres sites accepteurs d'épissage de VIH-1 / Study of regulation of alternative splicing of HIV-1 RNA virusSanterre, Maryline 10 November 2010 (has links)
L'épissage est une étape clef de la multiplication du VIH-1. Par utilisation de 4 sites donneurs et 8 sites accepteurs d'épissage, plus de 40 ARNm différents sont produits. Une approche protéomique nous a permis d'identifier de nouvelles protéines interagissant avec la région de l'ARN viral contenant le site A7. Nous avons démontré l'interaction directe avec l'ARN viral de 5 des protéines identifiées (nucléoline, hnRNP A1/B, hnRNP H et hnRNP K). Nous avons montré que hnRNP K a plusieurs sites de fixation dans la région du site A7 et que hnRNP A1et hnRNP K se lient de façon coopérative. Nous avons montré un effet inhibiteur de hnRNP K sur l'épissage au site A7. Comme la protéine hnRNP A1 est un régulateur négatif de plusieurs sites accepteurs d'épissage (A1, A2, A3, A7), nous avons testé si la protéine hnRNP K pouvait renforcer l'inhibition à ces sites. En fait, hnRNP K active l'épissage in vitro des introns entre le site donneur D1 et les sites accepteurs A1, A2 et A3. Nous avons montré que la protéine hnRNP K renforce fortement l'activité de ASF/SF2 au site A2, ce qui indique que selon le contexte, la protéine hnRNP K peut être activatrice ou inhibitrice de l'épissage du VIH-1. J'ai observé de plus que la surexpression de la protéine hnRNP K dans des cellules HeLa, transfectées avec le plasmide p PSP contenant le virus VIH-1 dépourvu de ses capacités d'encapsidation, produit un changement très marqué de l'épissage alternatif de l'ARN PSP, ce qui confirme la forte influence de hnRNP K sur l'épissage alternatif du VIH-1. L'augmentation de la concentration cellulaire de hnRNP K dans les cellules HeLa conduit aussi à une diminution de la protéine virale Nef. La protéine hnRNP K intervient donc non seulement dans la régulation du site A7, mais aussi dans celle de la majorité des sites d'épissage régulés de l'ARN du VIH. L'action de cette protéine sur plusieurs des sites d'épissage montre que la protéine hnRNP K est probablement un régulateur général de l'épissage de VIH-1 / HIV-1 pre-mRNA splicing depends upon 4 donor and 8 acceptor sites, which are used in combination to produce more than 40 different mRNAs. To further characterize nuclear factors involved in these processes, we purified RNP complexes formed by incubation of SLS2-A7 transcripts in HeLa cell nuclear extracts by affinity chromatography to identify new associated proteins. We showed that, in addition to the well known hnRNP A1 inhibitor of site A7, nucleolin, hnRNP H and hnRNP K interact directly with SLS2-A7 RNA. We demonstrated that hnRNP K has multiple binding sites in the vicinity of site A7 and that binds cooperatively to hnRNP A1 to the A7 RNA region and limits the A7 utilization in vitro. As hnRNP A1 is a negative regulator of several HIV-1 splicing sites (A1, A2, A3), we tested whether hnRNP K may also reinforce hnRNP A1 inhibition at these sites. Surprisingly, hnRNP K activated in vitro splicing of the D1-A1, D1-A2 and D1-A3 introns. Interestingly, hnRNP K was found to reinforce strongly the ASF/SF2 activity at site A2, which indicates that depending on the splicing site hnRNP K can be a splicing activator or inhibitor. To test how hnRNP K influences the relative utilization of HIV-1 splicing sites in cellulo, we used plasmid p PSP containing all the HIV-1 splicing sites and tested the effect of over-expression in HeLa cells on alternative splicing of the PSP RNA. Doubling the amount of hnRNP K in HeLa cells led to a drastic change of the PSP RNA alternative splicing, which confirms the strong influence of hnRNP K on alternative splicing. Moreover, increase of cellular concentration of hnRNP K strongly decrease the viral Nef protein production. hnRNP K protein affects A7 splicing regulation but also regulates the majority of regulated splicing sites of HIV. By extension of the study of hnRNP K effect to other HIV-1 splicing sites, we discovered that hnRNP K is a general regulator of HIV-1 splicing
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La protéine Nef du VIH-1 altère la fonction de Lck dans les thymocytes de souris transgéniquesGuertin, Joël 04 1900 (has links)
La protéine Nef du VIH-1 joue un rôle important dans la pathogenèse du VIH-1 en modulant les voies de signalisation de la cellule hôte. La signalisation par le TcR est essentielle à la sélection positive pour générer les cellules simples positives (SP) CD4+ et simples positives (SP) CD8+, processus largement dépendant de l’activité de la Src kinase Lck et de son habileté à lier la queue cytoplasmique des corécepteurs CD4 et CD8. Nous avons précédemment trouvé que l’expression de Nef dans le VIH ou VIS peut induire une sévère déplétion des thymocytes et une baisse d’expression du corécepteur CD4 à la membrane. Nous avons également montré que Nef bloque la génération des thymocytes doubles positifs (DP) CD4+ CD8+ en plus d’altérer la transition des cellules DP vers CD4+ SP. Par contre, ce phénotype est récupérable par plusieurs approches dont le croisement d’une souris transgéniques exprimant Nef avec une souris exprimant la forme constitutivement active de Lck Y505F. Les résultats indiquent que la maturation des cellules CD4+ est altérée par le dysfonctionnement de la signalisation CD4-Lck. Toutefois, les mécanismes moléculaires par lesquels Nef contribue au bloc de la génération des cellules CD4+ dans le thymus demeurent très imprécis.
Dans cette étude, en utilisant des approches biochimiques et de microscopie confocale, nous avons trouvé que les thymocytes transgéniques Nef+ expriment plus de Lck que les thymocytes Nef-. Malgré cette augmentation, une partie significative de Lck est incapable d’atteindre la membrane plasmique. Cette fraction était significativement accumulée dans un compartiment intracellulaire des thymocytes transgéniques exprimant Nef. Également, en utilisant la technique d’essai kinase in vitro, nous avons trouvé que l’activité kinase de Lck est significativement augmentée dans les thymocytes transgéniques mais demeure stable suite à une stimulation par un α-CD3ε + α-CD4. Également, comparativement aux thymocytes Nef-, la kinase Lck dans les thymocytes transgéniques était résistante à la dégradation suite à une stimulation. En examinant le statut de c-Cbl, le principal régulateur négatif de Lck, nous avons montré que c-Cbl colocalise faiblement avec Lck, malgré son hyperphosphorylation constitutive. Ceci pourrait expliquer l’échec de la dégradation de Lck. En plus, nous avons trouvé que suite à une stimulation par un α-CD3ε + α-CD4, la phosphorylation de Zap-70 en tyrosine 493 par Lck est diminuée, résultant d’une importante baisse de l’activité kinase de Zap-70 et d’un bloc des premiers évènements de la voie de signalisation par le TcR. Ces données indiquent que la signalisation CD4-Lck est interrompue par la présence de Nef. / HIV-1 Nef protein plays an essential role in the HIV-1 pathogenesis by modulating the host signaling transduction pathways. TcR signalling is important for the thymic selection process to CD4 and CD8 single positive T cells and is greatly dependent on the activity of Src kinase Lck and its ability to bind to CD4 and CD8 cytoplasmic tail. We previously found that expression of HIV or SIV Nef can induce severe thymocytes depletion and downregulation of CD4 expression in Nef+ mice. We also recently showed that Nef blocks generation of double positive thymocytes and impairs DP to CD4+ SP T cells transition. The reversal of this phenotype was accomplished by several approaches, among them by crossing Nef+ mice with mice expressing constitutively active Lck Y505F. These results imply that the maturation of CD4+ T cells is disrupted due to impairment of Lck-mediated CD4 receptor signaling. However, the molecular mechanisms by which Nef contributes to the impairment in thymic CD4 generation remains largely unclear.
In this study, using confocal microscopy and biochemical approaches, we found that Nef+ thymocytes express more Lck than the Nef- control. Despite of this increase, a significant portion of Lck molecules were unable to reach to the plasma membrane. It was significantly accumulated in the intracellular endosomal compartment of the Nef+ thymocytes. Moreover, using IVKA we found that the activity of Lck is significantly increased in Nef+ thymocytes but was not further increased upon stimulation by α-CD3ε, α-CD4 or α-CD3ε + α-CD4. Moreover, compared to Nef- controls, Lck kinase in Nef+ thymocytes was resistant to degradation upon stimulation. Examining the status of c-Cbl, the main negative regulator of Lck, showed that c-Cbl localized with Lck poorly, despite his constitutive hyperphosphorylation. This explains the failure of Lck degradation. In addition, we found that upon stimulation, Zap-70 phosphorylation at tyrosine 493 by Lck is decreased, resulting by a decrease of Zap-70 kinase activity and TcR proximal event block. These data indicate that CD4-Lck signaling was interrupted by the presence of Nef.
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La protéine Nef du VIH-1 altère la fonction de Lck dans les thymocytes de souris transgéniquesGuertin, Joël 04 1900 (has links)
La protéine Nef du VIH-1 joue un rôle important dans la pathogenèse du VIH-1 en modulant les voies de signalisation de la cellule hôte. La signalisation par le TcR est essentielle à la sélection positive pour générer les cellules simples positives (SP) CD4+ et simples positives (SP) CD8+, processus largement dépendant de l’activité de la Src kinase Lck et de son habileté à lier la queue cytoplasmique des corécepteurs CD4 et CD8. Nous avons précédemment trouvé que l’expression de Nef dans le VIH ou VIS peut induire une sévère déplétion des thymocytes et une baisse d’expression du corécepteur CD4 à la membrane. Nous avons également montré que Nef bloque la génération des thymocytes doubles positifs (DP) CD4+ CD8+ en plus d’altérer la transition des cellules DP vers CD4+ SP. Par contre, ce phénotype est récupérable par plusieurs approches dont le croisement d’une souris transgéniques exprimant Nef avec une souris exprimant la forme constitutivement active de Lck Y505F. Les résultats indiquent que la maturation des cellules CD4+ est altérée par le dysfonctionnement de la signalisation CD4-Lck. Toutefois, les mécanismes moléculaires par lesquels Nef contribue au bloc de la génération des cellules CD4+ dans le thymus demeurent très imprécis.
Dans cette étude, en utilisant des approches biochimiques et de microscopie confocale, nous avons trouvé que les thymocytes transgéniques Nef+ expriment plus de Lck que les thymocytes Nef-. Malgré cette augmentation, une partie significative de Lck est incapable d’atteindre la membrane plasmique. Cette fraction était significativement accumulée dans un compartiment intracellulaire des thymocytes transgéniques exprimant Nef. Également, en utilisant la technique d’essai kinase in vitro, nous avons trouvé que l’activité kinase de Lck est significativement augmentée dans les thymocytes transgéniques mais demeure stable suite à une stimulation par un α-CD3ε + α-CD4. Également, comparativement aux thymocytes Nef-, la kinase Lck dans les thymocytes transgéniques était résistante à la dégradation suite à une stimulation. En examinant le statut de c-Cbl, le principal régulateur négatif de Lck, nous avons montré que c-Cbl colocalise faiblement avec Lck, malgré son hyperphosphorylation constitutive. Ceci pourrait expliquer l’échec de la dégradation de Lck. En plus, nous avons trouvé que suite à une stimulation par un α-CD3ε + α-CD4, la phosphorylation de Zap-70 en tyrosine 493 par Lck est diminuée, résultant d’une importante baisse de l’activité kinase de Zap-70 et d’un bloc des premiers évènements de la voie de signalisation par le TcR. Ces données indiquent que la signalisation CD4-Lck est interrompue par la présence de Nef. / HIV-1 Nef protein plays an essential role in the HIV-1 pathogenesis by modulating the host signaling transduction pathways. TcR signalling is important for the thymic selection process to CD4 and CD8 single positive T cells and is greatly dependent on the activity of Src kinase Lck and its ability to bind to CD4 and CD8 cytoplasmic tail. We previously found that expression of HIV or SIV Nef can induce severe thymocytes depletion and downregulation of CD4 expression in Nef+ mice. We also recently showed that Nef blocks generation of double positive thymocytes and impairs DP to CD4+ SP T cells transition. The reversal of this phenotype was accomplished by several approaches, among them by crossing Nef+ mice with mice expressing constitutively active Lck Y505F. These results imply that the maturation of CD4+ T cells is disrupted due to impairment of Lck-mediated CD4 receptor signaling. However, the molecular mechanisms by which Nef contributes to the impairment in thymic CD4 generation remains largely unclear.
In this study, using confocal microscopy and biochemical approaches, we found that Nef+ thymocytes express more Lck than the Nef- control. Despite of this increase, a significant portion of Lck molecules were unable to reach to the plasma membrane. It was significantly accumulated in the intracellular endosomal compartment of the Nef+ thymocytes. Moreover, using IVKA we found that the activity of Lck is significantly increased in Nef+ thymocytes but was not further increased upon stimulation by α-CD3ε, α-CD4 or α-CD3ε + α-CD4. Moreover, compared to Nef- controls, Lck kinase in Nef+ thymocytes was resistant to degradation upon stimulation. Examining the status of c-Cbl, the main negative regulator of Lck, showed that c-Cbl localized with Lck poorly, despite his constitutive hyperphosphorylation. This explains the failure of Lck degradation. In addition, we found that upon stimulation, Zap-70 phosphorylation at tyrosine 493 by Lck is decreased, resulting by a decrease of Zap-70 kinase activity and TcR proximal event block. These data indicate that CD4-Lck signaling was interrupted by the presence of Nef.
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Planar Nef polyhedra and generic higher-dimensional geometrySeel, Michael. Unknown Date (has links) (PDF)
University, Diss., 2001--Saarbrücken.
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The mechanism of HIV-1 Nef-mediated downregulation of CD4Chaudhuri, Rittik January 2010 (has links)
Nef, an accessory protein of HIV-1, is a critical determinant of viral pathogenicity. The pathogenic effects of Nef are in large part dependent on its ability to decrease the amount of CD4 on the surface of infected cells. Early studies suggested that Nef induces downregulation by linking the cytosolic tail of CD4 to components of the host-cell protein-trafficking machinery. However, the specific sorting pathway that Nef uses to modulate CD4 expression remained uncertain. According to one model, Nef was thought to interfere with the transport of newly synthesized CD4 from the TGN to the cell-surface. Another model claimed that Nef facilitated the removal of CD4 from the plasma membrane. The primary goal of this thesis was to determine which of these models was correct. To accomplish this objective, a novel Nef-CD4 system was developed in Drosophila S2 cells. Nef was not only able to downregulate human CD4 in S2 cells, but it did so in a manner that was phenotypically indistinguishable from its activity in human cells. An RNAi screen targeting protein-trafficking genes in S2 cells revealed a requirement for clathrin and the clathrin-associated, plasma membrane-localized AP-2 complex in the Nef-mediated downregulation of CD4. In contrast, depletion of the related AP-1 and AP-3 complexes, which direct transport from the TGN and endosomes, had no effect. The requirement for AP-2 was subsequently confirmed in a human cell line. Yeast three-hybrid and GST pull-down assays were then used to demonstrate a robust, direct interaction between Nef and AP-2. This interaction was found to depend on a [D/E]xxxL[L/I]-type dileucine motif, located in the C-terminal loop of Nef, that is essential for CD4 downregulation. While mapping the binding site of AP-2 on Nef, a second determinant of interaction in the C-terminal loop was identified. Mutation of this motif, which conforms to a consensus [D/E]D diacidic sequence, prevented Nef from binding to AP-2 and down-regulating CD4. However, the same mutations did not affect the ability of Nef to interact with either AP-1 or AP-3, providing further evidence that these complexes are not required for the modulation of CD4 expression. Additional experiments indicated that the Nef diacidic motif most likely binds to a basic patch on AP-2 α-adaptin that is not present in the homologous AP-1 γ and AP-3 δ subunits. As with the Nef diluecine and diacidic motifs, the α-adaptin basic patch was shown to be necessary for CD4 downregulation. Moreover, all three of these motifs were needed for the cooperative assembly of a CD4-Nef-AP-2 tripartite complex, which was observed here for the first time using a yeast four-hybrid system. The data in this thesis uniformly support an endocytic model of Nef-mediated CD4 downregulation. Indeed, there is now strong evidence that Nef simultaneously binds CD4 and AP-2, thereby connecting the receptor to the cellular endocytic machinery and promoting its rapid internalization from the plasma membrane. In addition, the identification of novel motifs required for this process has provided new insights on endocytosis, and may facilitate the development of pharmacological inhibitors of Nef function.
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Sam68, Stress Granules, and translational control of HIV-1 nef mRNAHenao-Mejia, Jorge Alejandro 23 June 2009 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / More than 20 million people have died of AIDS since the early eighties, while nearly 34 millions are currently infected with the HIV. Anti-retroviral therapy (ART) directed at key viral enzymes has changed AIDS from uniformly fatal to a manageable chronic disease. However, ART-associated drug resistance and toxicity have posed a great challenge for long-term management of the disease and have called for development of new therapeutics. In this study, we focused on the viral factor Nef and the host factor Sam68. Nef is a major pathogenic viral determinant for HIV-1, and no therapeutics have been targeted to this factor. Sam68 is indispensible for HIV-1 propagation. We revealed that Sam68 variants were very potent in preventing Nef expression. We found that these effects were associated with their ability to form a macromolecular structure called stress granules (SG). In addition, we demonstrated that these variants bound to nef mRNA in a sequence-specific manner. Furthermore, we showed that these variants co-localized with nef mRNA in SG. Importantly, we validated these findings in the context of HIV-1 infection of its natural target cells and found significant loss of Nef function in these cells. Taken together, these results demonstrate that SG induction and nef mRNA sequestration account for translational suppression of Nef expression and offer a new strategy for development of anti-HIV therapeutics.
Sam68 is implicated in a variety of other important cellular processes. Our findings that Sam68 variants were able to induce SG formation prompted us to investigate whether wild-type Sam68 was also recruited to SG. We found that Sam68 was increasingly recruited into SG under oxidative stress, and that its specific domains were involved. However, Sam68 knockdown had no effects on SG assembly, suggesting that Sam68 is not a constitutive component of SG assembly. Lastly, we demonstrated that Sam68 complexed with TIA-1, an essential SG component. Taken together, these results provide direct evidence for the first time that Sam68 is recruited into SG through complexing with TIA-1, and suggest that SG recruitment of Sam68 and ensuing changes in Sam68 physiological functions are part of the host response to external stressful conditions.
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Establishment of the shadowgraphy-setup for the measurements of non-equilibrium fluctuationsZapf, Daniel, Köhler, Werner 11 July 2022 (has links)
No description available.
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Antiviral activity and retroviral counteraction of SERINC genesBertelli, Cinzia 04 November 2021 (has links)
SERINC5 is a restriction factor for retroviruses, antagonized by Nef of primate lentiviruses, by glycoGag of Moloney Murine Leukaemia Virus (MoMLV) and by S2 of Equine Infectious Anaemia virus (EIAV). In addition, SERINC5 sensitizes HIV-1 to neutralizing antibodies (nAbs) targeting the MPER in gp41. However, since the identification of SERINC5 as an inhibitor of retrovirus infectivity, many features of the host factor await clarification, notably the molecular mechanisms of restriction and viral counteraction. Furthermore, SERINC5 cellular role beyond restriction is still obscure. This thesis explores multiple aspects of the mutual antagonism governing the SERINC5 interplay with retroviruses. We first describe a contribution towards the determination of the structure of SERINC5 and the identification of the determinants crucial for antiviral activity, virus sensitization to neutralization and counteraction by retroviruses. By performing a structure-based mutagenesis screening, we identified SERINC5 ECL3, ECL5 and the interface between subdomains as regions essential for inhibition of HIV-1 infectivity and virus sensitization to 4E10 and 2F5 nAbs. The simultaneous impairment of both SERINC5 antiviral effects indicates that they are mechanistically related and support the hypothesis of a SERINC5-mediated impairment of the envelope glycoproteins. We included a comparative analysis of the antiviral activity of human SERINC paralogs and their sensitivity to retroviral counteraction. It has been previously established that SERINC3 inhibits HIV-1 infectivity less potently than SERINC5, while SERINC2 has no antiviral effects. We report here that similarly to SERINC3, SERINC1 is endowed with a modest antiviral activity; in contrast, SERINC4 severely inhibits HIV-1 infectivity, despite being poorly expressed. Irrespectively of their antiretroviral potency, all SERINC proteins are incorporated into virus particles. Interestingly, we observed that virion-associated SERINC2 is specifically cleaved by the viral protease, but proteolysis does not explain the lack of antiretroviral effects. Furthermore, SERINC5 and SERINC2 have different glycomic profiles, but diverse post-translational modification is irrelevant for their opposite activity against HIV-1. In addition, we reported that human SERINCs are differently targeted by retroviral counteracting factors, with SERINC5 being the paralog most efficiently downregulated, while SERINC1 being completely resistant. A cysteines cluster within ICL4 emerged as the major determinant of SERINC5 responsiveness to different nef alleles, while it proved irrelevant for internalization by MoMLV glycoGag and EIAV S2, indicating that diverse retroviral counteractors likely target the host factor differently. Though SERINC5 ICL4 harbours multiple motifs governing SERINC5 sensitivity to antagonization, insertion of this loop within SERINC2 was not enough to transfer susceptibility to Nef activity, suggesting that the overall conformation of the protein is essential for downregulation by Nef. Importantly, the cysteine stretch within ICL4 is palmitoylated, suggesting that this modification may be important for counteraction by the lentiviral factor. SERINC5 and CD4 downregulation by Nef are functionally related, as they both require AP-2 mediated endocytosis. However, regions in Nef selectively governing SERINC5 internalization are unknown. We reported here that Phe90 within Nef αA-helix genetically uncouples the activities on SERINC5 and CD4, being selectively involved in SERINC5 downregulation. In parallel, we explored SERINC5 antagonization by different glycoGag alleles and observed that the ability to target the host factor is not conserved across divergent γ-retroviruses. Finally, we observed that HIV-1 may evade SERINC5 restriction by direct cell-to-cell infection, suggesting that the host factor may have a broader role in retroviral spreading, requiring the evolution and the conservation of active viral counteraction. To this end, we preliminary investigated a positive contribution of SERINC5 to intracellular signalling.
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Modelling Low Dimensional Neural Activity / Modellering av lågdimensionell neural aktivitetWärnberg, Emil January 2016 (has links)
A number of recent studies have shown that the dimensionality of the neural activity in the cortex is low. However, what network structures are capable of producing such activity is not theoretically well understood. In this thesis, I discuss a few possible solutions to this problem, and demonstrate that a network with a multidimensional attractor can give rise to such low dimensional activity. The network is created using the Neural Engineering Framework, and exhibits several biologically plausible features, including a log-normal distribution of the synaptic weights. / Ett antal nyligen publicerade studier has visat att dimensionaliten för neural aktivitet är låg. Dock är det inte klarlagt vilka nätverksstrukturer som kan uppbringa denna typ av aktivitet. I denna uppsats diskuterar jag möjliga lösningsförslag, och demonstrerar att ett nätverk med en flerdimensionell attraktor ger upphov till lågdimensionell aktivitet. Nätverket skapas med hjälp av the Neural Engineering Framework, och uppvisar ett flertal biologiskt trovärdiga egenskaper. I synnerhet är fördelningen av synapsvikter log-normalt fördelad.
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