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Conception, caractérisation et évaluation in vivo d'un vaccin nanoparticulaire anti-VIH et optimisation de sa biodisponibilité par un hydrogel thermosensible / Design, characterization and in vivo evaluation of an anti-HIV nanoparticle vaccine and optimization of its bioavailability by a thermosensitive hydrogelPhelip, Capucine 11 December 2018 (has links)
Les connaissances actuelles indiquent la nécessité d’induire une réponse immunitaire à large spectre et notamment des anticorps multifonctionnels pour protéger de l’infection par le VIH. Les approches vaccinales traditionnelles n’étant pas capables d’induire d’anticorps neutralisants à large spectre (bNAbs) suffisamment puissants contre le VIH-1, des stratégies alternatives sont étudiées afin d’induire ces bnAbs. Les avancées majeures concernent le développement de (i) glycoprotéines d’enveloppe optimisées comme immunogène, (ii) vecteurs transportant et présentant l’immunogène de manière efficace et (iii) la forme galénique permettant d’augmenter la durabilité de la réponse protectrice. Dans ce contexte, l’objectif de ce doctorat est d’évaluer les réponses immunitaires induites par des nanoparticules biodégradables fonctionnalisées avec des glycoprotéines d’enveloppe du VIH et d’optimiser la libération prolongée in vivo de l’immunogène. Dans un premier temps, nous avons comparé plusieurs glycoprotéines et sélectionné une glycoprotéine d’isolat primaire optimisée (SOSIP BG505) pour ses capacités à s’adsorber de manière stable à la surface des nanoparticules biodégradables, tout en exposant les épitopes de neutralisation, et capable d’induire in vivo une réponse immunitaire systémique. Nous avons ensuite conçu un hydrogel thermosensible à base de poloxamers capable d’incorporer ces nanoparticules tout en gardant leur stabilité colloïdale et analysé leur biodistribution par imagerie corps entier chez la souris. L’injection par voie sous cutanée de cet hydrogel permet d’induire une réponse immunitaire humorale forte, stable et des IgGs de forte affinité. Cette nouvelle formulation, innovante et simple à mettre en place, apparait comme une nouvelle stratégie de vaccination applicable à de nombreuses pathologies virales nécessitant l’induction d’anticorps neutralisant de forte affinité et à large spectre / Current knowledge indicates the need to induce a broad-spectrum immune response including multifunctional antibodies to protect against HIV infection. As traditional vaccine approaches are not capable of inducing potent broad-spectrum neutralizing antibodies (bNAbs) against HIV-1, alternative strategies are being investigated to induce these bnAbs. Major advances include the development of (i) optimized envelope glycoproteins as immunogens, (ii) efficiently carrying and immunogenic carriers, and (iii) the dosage form that would increase the durability of the protective response. In this context, the objective of this PhD is to evaluate the immune responses induced by biodegradable nanoparticles functionalized with HIV envelope glycoproteins and to optimize the in vivo sustained release of the immunogen.First, we compared several glycoproteins and selected an optimized primary isolate glycoprotein (SOSIP BG505) for its ability to be adsorbed to the surface of biodegradable nanoparticles, while exposing neutralization epitopes, and capable of inducing a systemic immune response in vivo. We then designed a thermosensitive, poloxamers-based hydrogel, capable of incorporating these nanoparticles while maintaining their colloidal stability and we have analyzed their biodistribution by whole-body imaging in mice. The subcutaneous injection of this hydrogel makes it possible to induce a strong, stable humoral immune response with high affinity IgGs. This new formulation, innovative and easy to implement, appears as a new vaccination strategy applicable to many viral diseases requiring the induction of high affinity neutralizing antibodies and broad spectrum
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Design and Characterization of HIV-1 ENV Derived ImmunogensPurwar, Mansi January 2016 (has links) (PDF)
The Human Immunodeficiency Virus (HIV) is a member of the retroviridae family from lentivirus genus which primarily infects CD4+ T cells and also to lesser degree monocytes, macrophages, and dendritic cells causing progressive failure of the immune system, ultimately leading to development of acquired immunodeficiency syndrome (AIDS). Currently ~ 37 million people are infected with HIV-1 with approximately 2 million new infections occurring every year (UNAIDS, 2016). Developing safe, effective, and affordable vaccines to prevent HIV infection is the best hope for controlling the HIV/AIDS pandemic. Envelope glycoprotein (Env) on the HIV-1 virion surface is synthesized as a single precursor protein gp160 which is cleaved by furin to form the gp120 and gp41 subunits. gp41 is inserted into the membrane, while gp120 remains non-covalently associated with the ectodomain of gp41 to form a trimer of heterodimers. gp120 binds to the CD4 receptor on CD4+ T cells, which triggers a series of conformational changes leading to the exposure of co-receptor binding sites on gp120. Subsequent binding to the co-receptor (CXCR4 or CCR5) on T-cells initiates fusion of cellular and viral membranes via gp41 subunit. The envelope glycoprotein gp120, on the virion surface is the most accessible component of HIV-1 to the host immune system, and the target of most of the neutralization response. However, the virus has evolved many efficient ways to escape this immune surveillance. Extensive glycosylation of gp120 is one way by which it masks critical neutralization epitopes and the presence of immunodominant long variable loops focuses the immune response away from conserved regions. Certain conserved epitopes are cryptic and get exposed only after gp120 binds to its receptor. Also gp120 and gp41 are highly flexible molecules, attached in a non-covalent fashion to form a trimer of heterodimers, leading to inherent metastability of the Env. This results in exposure of a large number of non-native conformations to the immune system and thus minimizes elicitation of neutralizing antibodies. Despite these defense mechanisms, about 20-30% of HIV-1 patients do generate a broad neutralization response. Although these bNAbs and their epitopes have been identified, eliciting similar bNAbs through immunization is challenging. Monomeric gp120 when used as an immunogen elicits non neutralizing antibodies. This indicates that the epitopes of bNAbs are not present in the right conformation on this molecule. A rational design approach which focuses the immune response towards specific epitopes targeted by bNAbs is required, with the aim to maximize the exposure of conserved neutralization epitopes and to simultaneously ensure minimal exposure of variable non neutralizing epitopes. This can likely be achieved either by
(a) stabilization of native Env trimers, or/and by (b) protein fragment design. Chapter 1 gives a brief description of HIV-1 virus. Structural features of the Env protein are described along with epitopes targeted by various bNAbs. Various strategies employed towards structure based vaccine design are discussed. One of the strategies towards rational vaccine design is using protein fragment based approaches. Grafting epitopes onto heterologous scaffolds is a promising approach which can provide more structural stability to the epitope, helps focus immune
response on the epitope of interest and can be employed in a prime boost strategy for immunization studies. In a scaffold based approach we used crystal structure information of gp120 in complex with bNAb b12 to define the epitope of this antibody. In Chapter 2 we use this epitope information to graft the epitope on an unrelated scaffold protein to design unique epitope scaffolds. We report a computational strategy to graft the discontinuous epitope of b12 antibody onto different scaffold proteins. Our strategy focuses on identifying the best match of the target scaffold to the query protein so as to cause the least structural disturbance in the scaffold protein. The best hits were screened for binding to b12 using Yeast Surface Display (YSD). Random mutant libraries were also generated to screen for better b12 binders using YSD. We further characterized a few of these epitope scaffolds after purifying them from bacterial systems. One of the epitope scaffolds 1mkh_E2 bound to b12 with a KD value of 7.5µM. 2bodx_03, an unoptimized epitope scaffold reported previously (Azoitei et al, 2011) binds b12 with a KD value of 300μM. Thus our epitope scaffold 1mkh_E2 shows reasonable binding to b12 without any optimization. We are currently purifying other b12 epitope scaffolds and will be characterizing them for binding to b12.
We have previously used a protein minimization strategy to design fragments of gp120, called b122a and b121a comprising a compact beta barrel on the lower part of the outer domain in order to focus the immune response towards the b12 epitope. (Bhattacharyya et al, 2013). These were bacterially expressed, found to be partially folded, however, could bind the broadly neutralizing antibody b12 with micromolar affinity. In rabbit immunization studies sera obtained following four primes with the b122a fragment protein and two boosts with full-length gp120 showed broad neutralization of a panel of multiple viruses across different clades (Bhattacharyya et al, 2013). In the present work, These designs were further stabilised by introducing various disulphides. One of the disulphide mutants b122a1-b showed better binding to b12 compared to b122a and increased protection to protease digestion. However these are partially structured as assessed by CD. In Chapter 3 we attempted to evolve stabilized versions of b122a1-b by using a genetic selection based on antibiotic resistance described previously (Foit et al, 2009). We were successfully able to show an in-vivo stability difference between b122a and b122a1-b. From the library generated in the background of b122a1-b using random mutagenesis, a few apparently stabilized mutants were isolated. Most of these mutations were hydrophobic to polar substitutions at exposed positions while a few of the mutations were substitutions with similar side chain chemistry as in wildtype. In future studies we will measure mutant stabilities and binding affinity to b12. A set of similar fragment immunogens were also designed based on subtype C CAP210 gp120 sequences. In Chapter 4 we describe various immunization studies comprising of different sets of b12 epitope based fragment immunogens. In one study we displayed some of these immunogens on Qβ VLPs. In another study, we tested subtype C based fragment immunogens. The humoral immune response was probed in terms of generation of antibodies against the immunogens using ELISA. Neutralization activity of the sera was measured in a standard TZM-bl assay. Sera raised against these particles in rabbit immunization studies could neutralize Tier1 viruses across different subtypes. The group primed with particles displaying b122a1-b and the group primed with b122a conjugated to particle in the presence of adjuvant contained significantly higher amounts of antibodies directed towards the CD4bs than sera from the group primed with empty particles and boosted with gp120. This study demonstrates the overall utility of the particle based display approach. In
immunization studies with subtype C derived fragment immunogens as primes, no significant neutralization was seen even for Tier 1 viruses. In this study, the group primed and boosted with full length gp120 performed better than other groups suggesting that antibodies elicited against regions present in these subtype C priming immunogens are non-neutralizing.
One of the rational vaccine design strategies is by stabilization of native Env trimers. In previous studies, a disulfide bond was engineered between gp120 and gp41 of Env to stabilize the interactions (SOS gp140). An I559P mutation was also introduced to stabilize the native gp41 conformation in the context of disulfide engineered Env (SOSIP gp140). The purified, soluble SOSIP gp140 immunogens were trimeric and cleaved properly and are believed to be one of the closest mimics of native Env trimers. However, these immunogens have so far failed to elicit broad neutralizing responses. In Chapter 5, we use structural information derived from high resolution atomic structure of native like cleaved gp140 BG505-SOSIP, to provide an alternate strategy to form uncleaved trimeric gp140s by cyclic permutation to design molecules that mimic cleaved trimers. The structure reveals that the gp41 C-terminus is in very close proximity (~8Å) to the N-terminus of gp120 from an adjacent subunit. We have designed a cyclic permutant of gp140 from JRFL strain where the gp41 C terminus is now connected to the gp120 N-terminus with a short linker. This novel connectivity results in preservation of the native gp41 N-terminus along with a much shorter linker length than in conventional gp140. This might promote trimer folding and stabilization because of the resulting decreased magnitude of conformational entropy change during folding. The structure also reveals that the gp120 C-terminus is close to the trimer axis, and due to cyclic permutation, this becomes the new C-terminus of gp140. To further stabilize the trimeric form, we have attached a foldon trimerization domain at the C terminus. The protein has been expressed and purified from mammalian cells. The protein exists primarily as a trimer in solution as assessed by SEC-MALS. It shows better binding to broadly neutralizing antibody b12 when compared to b6, a non-neutralizing antibody. Further biophysical characterization of the protein is in progress.
We have previously described design of a bacterially expressed outer domain derivative of gp120 (ODEC) that had V1/V2 and V3 loops deleted and bound CD4 (Bhattacharyya et al, 2010). To improve the initial ODEC design, three different rational design strategies were used. In the first approach, residue frequency based methods were used to design a construct named ODECConsensus. In another approach, a cyclic permutant of ODEC (CycV4OD) was designed with new N and C termini in the flexible V4 loop. In the third approach the bridging sheet (BS) region was deleted from ODEC to form ODECΔBS. In Chapter 6 we have used hydrogen deuterium exchange-mass spectrometric analysis (HDX-MS) to study conformational flexibility of these fragment immunogens. These studies revealed that all the three immunogens show reduced conformational flexibility compared to ODEC. 5-7 protons remain protected up to 2 hours whereas for ODEC, exchange completes at 20 minutes. This reduced flexibility correlates with 6-20 fold tighter VRC01 binding relative to ODEC. In rabbit immunizations, all three constructs elicit significant gp120 titers as early as week 6 in the absence of any gp120 boost whereas ODEC shows significant gp120 titers only after two gp120 boosts. Week 24 sera elicited after immunization with ODECΔBS, ODECConsensus and CycV4OD boosted with gp120 show neutralization of multiple Tier 1 viruses from subtype B and C, whereas corresponding ODEC immunized animals failed to show a neutralizing response. This study demonstrates that reduced conformational flexibility correlates with better antigenicity and an improved immunogenicity profile for these fragment immunogens. Also we have used HDX-MS studies to one of the stem based HA fragment immunogen pH1HA10-foldon described previously (Mallajosyula et al, 2014) to do peptide finger printing and find regions of protein showing increased protection to hydrogen deuterium exchange and thus derive some structural insights about this trimeric fragment immunogen. Peptide mapping experiments show that the HA stem fragment peptides are exchanging rapidly with more than 90% exchange completing by 30 s for most of the peptides. The well folded foldon trimerization domain peptide shows a very slow exchange profile. A few of the HA peptides exchange slowly with 1-2 protons exchanging after 30 s. Fast exchange seen for this fragment immunogen may be due to truncation of the stem region leading to greater solvent accessibility of the trimer interface.
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Har marknaden klimatångest? : En studie om hur svenska aktiemarknaden reagerade på släppet av FN:s klimatrapport sommaren 2021Aasen, Simon, Skogli, Karin January 2022 (has links)
FN:s klimatpanel Intergovernmental Panel on Climate Change (IPCC) publicerade i Augusti 2021 en rapport som har uppmärksammats som en “kod röd” för mänskligheten i kampen mot klimatförändringar. Tidigare forskning visar att klimat- och miljöevent kan ge en avvikelseavkastning för hållbara investeringar. Dock saknas en liknande studie på den svenska aktiemarknaden och vi undersöker i denna studie om publiceringen av IPCC-rapporten 2021 hade en påverkan på avkastningen på Stockholmsbörsen. Vi genomför en eventstudie för att se marknadsreaktionerna för hela börsen, samt för aktier med höga respektive låga ENV-score (miljöbetyg). Inga signifikanta resultat kunde observeras och tolkningen görs att den svenska aktiemarknaden inte reagerade på publiceringen av IPCC-rapporten. / The United Nations Intergovernmental Panel on Climate Change (IPCC) released a report on climate change in August of 2021. The report has been seen as a "code red" for humanity's fight against climate change. Previous research shows that climate and environmental events can result in abnormal stock returns for sustainable investments. However, a similar study is missing for the Swedish market and in this study we investigate if the publication of the report from IPCC 2021 had an impact on the return on the Stockholm Stock Exchange. We conduct an event study to see the stock market reactions for the entire stock exchange, as well as for sustainable and less sustainable stocks. No significant results could be observed and we therefore conclude that the Swedish stock market did not react to the release of the IPCC report.
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Impact du petit inhibiteur temsavir sur la conformation des glycoprotéines d’enveloppe du VIH-1Boutin, Marianne 05 1900 (has links)
Un obstacle important dans l’éradication du virus de l’immunodéfience humaine (VIH-1) est
l’établissement de réservoirs viraux où le virus reste à l’état latent ainsi que l’absence de vaccin
efficace. Bien que les molécules antivirales actuelles permettent d’augmenter l’espérance de vie
des personnes vivant avec le VIH-1 (PLWH) ainsi que de diminuer la réplication virale chez cellesci,
elles ne contribuent pas à l’élimination de ces réservoirs. La hausse de résistance envers ces
molécules inhibitrices nécessite le développement constant de nouvelles molécules. L’une d’entre
elles, temsavir (BMS-626529), est un nouvel inhibiteur d’attachement approuvé par la FDA depuis
2020. Sa cible, la glycoprotéine d’enveloppe (Env), est le seul antigène viral présent à la surface
des cellules infectées et des virions, représentant donc la cible idéale des anticorps. L’Env mature
se trouve sous forme d’hétérodimère (gp120 et gp41) suite au clivage de son précurseur gp160.
Temsavir lie sous la boucle β20-β21 de la gp120 et prévient donc, par compétition, l’interaction
entre l’Env et le récepteur CD4 de l’hôte. En plus de son rôle en tant qu’inhibiteur d’attachement,
temsavir permet de stabiliser le trimère dans sa conformation dite «fermée». Un ancien analogue
de temsavir, BMS-806, a montré réduire l’addition de glycans ainsi que de diminuer le clivage du
précurseur gp160. Nos études démontrent que temsavir possède également un impact sur ces
mécanismes impliqués dans la maturation et la flexibilité de l’Env de plusieurs souches du VIH-1.
De ce fait, nous avons investigué l’effet de cette altération sur la conformation des différentes Env.
Nos observations montrent que l’effet de temsavir sur le clivage protéolytique est associé à une
diminution de la reconnaissance de l’Env par des anticorps ciblant différentes régions de celle-ci.
Cette modification de la reconnaissance de l’Env est également associée à l’efficacité de la réponse
cytotoxique cellulaire dépendante des anticorps (ADCC) à éliminer les cellules infectées. Les
résultats présentés dans ce mémoire, notamment l’effet de temsavir sur la conformation de l’Env,
devrait être considéré lors du développement d’immunothérapies ciblant le réservoir viral. / An important obstacle in the eradication of the human immunodeficiency virus (HIV-1) is the
establishment of viral reservoirs where the virus remains in a latent state and the absence of a potent
vaccine. Although current antiretroviral molecules increase the life expectancy of people living
with HIV-1 (PLWH) as well as reduce viral replication, they do not contribute to the elimination
of these reservoirs. Also, the increase in drugs resistances towards these inhibitory molecules
requires the constant development of new molecules. One of them, temsavir (BMS-626529), is a
new attachment inhibitor approved by the FDA since 2020. Its target, the envelope glycoprotein
(Env), is the only viral antigen present at the surface of infected cells and virions and thus, is also
the main target of antibodies. This mature Env consists of three gp120-gp41 heterodimers after the
proteolytic cleavage of its gp160 precursor. Temsavir binds under the β20-β21 loop of gp120 and
prevents the interaction between Env and the host CD4 receptor. In addition to its role as an
attachment inhibitor, temsavir stabilizes the trimer in its "closed" conformation. A previous analog
of temsavir, BMS-806, has been shown to affect the addition of glycans as well as the cleavage of
the gp160 precursor. Our studies demonstrate that temsavir also has an impact on these mechanisms
involved in the maturation and flexibility of Env of several strains of HIV-1. Therefore, we
investigated the effect of this alteration on the conformation of different Env. Our observations
showed that the effect of temsavir on proteolytic cleavage is associated with a decrease in Env
recognition by antibodies targeting different regions of Env. This modification in Env recognition
also appears to be associated with the efficacy of antibody to mediate potent antibody-dependent
cellular cytotoxicity (ADCC) against infected-cells. The results presented in this master thesis,
should be considered when developing immunotherapies aimed at targeting the viral reservoir in
Fostemsavir-treated individuals.
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Einfluss posttranslationaler Modifikationen auf die Funktion des Prototyp Foamy Virus HüllproteinsLüftenegger, Daniel 11 April 2008 (has links) (PDF)
Die Familie der Retrovirinae wird in zwei Unterfamilien untergliedert, die Orthoretrovirinae und die Spumaretrovirinae. Foamyviren stellen aufgrund einiger besonderer Eigenschaften die einzigen Vertreter dieser Unterfamilie, die sie als Bindeglied zwischen den Retroviren und den Hepadnaviren erscheinen lassen. So erfolgt beispielsweise die reverse Transkription des viralen Genoms nicht erst nach Eintritt in die Zielzelle, sondern, anders als bei Orthoretroviren, bereits in der Produzentenzelle noch während oder kurz nach der Morphogenese. Diese Eigenschaft teilen Foamyviren mit den Hepadnaviren ebenso wie die obligate Koexpression der Kapsidproteine mit den viralen Hüllproteinen für die Freisetzung von Viruspartikeln. Im Gegensatz zu Orthoretroviren sind Foamyviren folglich nicht in der Lage virusähnliche Partikel (VLP) zu sekretieren und die spezifische Funktion des PFV Env Proteins kann nicht durch heterologe Hüllproteine übernommen werden. Die Synthese des PFV Env Vorläuferproteins erfolgt am rER, wobei es eine Typ III Membrantopologie erhält, mit sowohl dem N- als auch dem C-Terminus im Zytoplasma. Während des Transports des Proteins zum Ort der Partikelknospung, wird es posttranslational im Golgi-Apparat, oder dem trans-Golgi Netzwerk, durch Furin oder eine Furin-ähnliche Protease in drei partikelassoziierte Untereinheiten prozessiert. Eine Partikelassoziation retroviraler Signalpeptide ist bislang nur für Foamyviren nachgewiesen worden, genauso wie eine essentielle Rolle dieses Proteins bei der Interaktion zwischen dem
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Characteristics of human immunodeficiency virus type-1 envelope at infection and reinfection in a cohort of Kenyan women /Chohan, Bhavna H. January 2007 (has links)
Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 132-154).
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Designing immunogens to elicit broadly reactive neutralizing antibodies to the HIV envelope /Derby, Nina Rafterman, January 2007 (has links)
Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 155-209).
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Human immunodeficiency virus type I (HIV-1) envelope evolution and the relationship to neutralizing antibodies /Blay, Wendy Marie, January 2006 (has links)
Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 115-136).
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Wood Conservation at the Gray Fossil Site in Northeastern TennesseeMadsen, Owen, Widga, Chris 01 January 2020 (has links)
The Gray Fossil Site in northeastern Tennessee preserves materials from a 5-million-year-old ecosystem, including wood from nearby trees. When excavated, the wood is saturated due to a modern local high water table. Moisture in the wood prevents further dendroecological research, which would provide important, annual-scale climate information from tree rings visible in the wood. In order to analyze climate-sensitive wood variables, wood samples must be dried with minimal cracking prior to further research. To test the best method for drying wood samples, a variety of methods were studied. Cotton string, wrapped firmly around a sample, and a sandbox, comprised of a sample surrounded equally on all sides by sand within a five gallon container, were both be used to test the effects of minimizing expansion and contraction during drying. A vacuum oven, a microwave, and a refrigerator were used to monitor the rate at which the wood dries under different temperature conditions, and a control sample was dried in a fume hood as a comparison. An alcohol replacement test provided data on the rate of non-water evaporation. Drying methods were evaluated by measuring the drying speed of each sample and the degree of visible surface cracking. Of the methods tested, wrapping wood samples in cotton string at an even pressure, then allowing the sample to dry in a fume hood is the best practice for drying the wood from the Gray Fossil Site. The string resulted in the least cracking, and one of the shorter drying times without destroying the sample, as the vacuum oven and microwave tests did. This work not only provides a comparison of standard drying methods for saturated fossils of the non-wood varieties, but lays the groundwork for further studies examining the wood, tree rings, and climate at the Gray Fossil Site.
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HIV-1 EVOLUTION: ROLE OF DIVERSITY AND FITNESS—IMPLICATIONS FOR THE EPIDEMICNankya, Immaculate Lillian 30 July 2010 (has links)
No description available.
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