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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.
21

Analysis of HIV-1 variable loop 3-specific neutralizing antibody responses by HIV-2/HIV-1 envelope chimeras

Davis, Katie L. January 2008 (has links) (PDF)
Thesis (Ph.D.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed on June 24, 2009). Includes bibliographical references.
22

Proteomic investigation of the HIV receptors CD4 and DC-SIGN/CD209 membrane protein interactions

Bernhard, Oliver January 2004 (has links)
Zugl.: Sydney, NSW, Univ. of Sydney, Diss., 2004 / Hergestellt on demand
23

Αποτίμηση των καθοριστικών παραγόντων της δομής και της αλληλεπίδρασης πεπτιδικών τμημάτων της HIV-1 gp120 V3 περιοχής και του CCR5 συνυποδοχέα των Τ-λεμφοκυττάρων με χρήση φασματοσκοπίας NMR

Γαλανάκης, Πέτρος 19 January 2011 (has links)
Η παρεμπόδιση της μόλυνσης ενός κυττάρου από τον HIV επιτυγχάνεται ή με αναστολή της αλληλεπίδρασης της ιικής gp120 με τους CD4 υποδοχείς των κυττάρων, είτε παρεμποδίζοντας τη δράση της gp41 ή τέλος αποτρέποντας τη σύζευξη της gp120 με τους CXCR4 και CCR5 υποδοχείς των χημειοκινών. Ο ρόλος όμως των χημειοκινών και των υποδοχέων τους στη διαδικασία μετάδοσης σημάτων, μέσω των οποίων ενεργοποιούνται αποπτωτικοί μηχανισμοί υγιών, μη μολυσμένων από τον HIV κυττάρων, καθιστά την gp120-CCR5/CXCR4 αλληλεπίδραση ιδιαίτερα θελκτικό επιστημονικά στόχο για το σχεδιασμό αναστολέων του κύκλου αναπαραγωγής του ιού. Σύμφωνα με πλήθος ανοσολογικών, φυσικοχημικών και δομικών μελετών η PND V3 περιοχή της gp120 και το εξωκυττάριο αμινο-τελικό πεπτιδικό τμήμα του CCR5 συνυποδοχέα αποτελούν τις κυρίως εμπλεκόμενες περιοχές στην αλληλεπίδραση των δύο πρωτεϊνών. Η μεταβλητότητα της PND V3 ακολουθίας και ο συσχετισμός της με την υιοθετούμενη διαμόρφωση, η σύνδεση της θέσης και του είδους των αμινοξέων με την ένταση της αλληλεπίδρασης και η συνάρτηση του ιικού τροπισμού με τη βιολογικά ενεργή διαμόρφωση των πεπτιδίων αποτελούν θεμελιώδη στάδια στη διαδικασία κατανόησης του μηχανισμού αλληλεπίδρασης της gp120 με τον CCR5 κυτταρικό συνυποδοχέα και των παραγόντων που την καθορίζουν. Προς αυτή την κατεύθυνση εστιάστηκε και το ενδιαφέρον της διατριβής έχοντας ως πρωτογενείς στόχους την αποτίμηση των καθοριστικών παραγόντων της αλληλεπίδρασης χρησιμοποιώντας πεπτιδικά τμήματα των πρωτεϊνών, τον προσδιορισμό του είδους της και την επίλυση της δομής των συγκεκριμένων τμημάτων μέσω Φασματοσκοπίας Πυρηνικού Μαγνητικού Συντονισμού. Όπως ήταν αναμενόμενο για ελεύθερα, μικρά σε μέγεθος μόρια που είναι διαλυμένα σε νερό, τα PND V3 πεπτίδα εμφάνισαν την ιδιότητα της διαμορφωτικής ελευθερίας αλλά παρουσίασαν σημαντικό αριθμό NOE συζεύξεων, γεγονός το οποίο επέτρεψε τη σύγκλισή τους προς μία συγκεκριμένη διαμόρφωση. Η διαμόρφωση τύπου U, η οποία είχε παρατηρηθεί στις κρυσταλλικές δομές συμπλόκων της gp120, διατηρείται ανεξαρτήτως της παρουσίας του CCR5. Τα αποτελέσματα των πειραμάτων της φασματοσκοπίας NMR υποδεικνύουν την ύπαρξη ασθενούς ηλεκτροστατικής αλληλεπίδρασης μεταξύ των PND V3 πεπτιδίων και του CCR5Nt. Η συμμετοχή των πεπτιδικών τμημάτων του CCR5Nt στην αλληλεπίδραση αυξάνει προοδευτικά και φαίνεται να είναι ανάλογη του αριθμού των θετικά φορτισμένων αμινοξέων της ακολουθίας των PND V3 πεπτιδίων και προφανέστατα εξαρτώμενη από την κατιονική τους δύναμη. Τα συμπεράσματα της διατριβής σε συνδυασμό με εκείνα που παράγονται από πλήθος βιολογικών, βιοχημικών και φυσικοχημικών μελετών παράγουν νέα δεδομένα, τα οποία δύναται να χρησιμοποιηθούν στον ορθολογικό σχεδιασμό αναστολέων με αυξημένη συγγένεια δέσμευσης στον συνυποδοχέα CCR5. / The obstruction of a cell infection by HIV is succeeded either by inhibiting the interaction between the viral gp120 and the CD4 cell receptors or by preventing the gp41 action and deterring the conjuction of gp120 with the CXCR4 and CCR5 chemokine receptors. The role that chemokines and their receptors play at the process of signal transmission, through which the apoptotic mechanisms of non HIV infected cells are activated, appoints the gp120-CCR5/CXCR4 interaction as a highly attractive scientific target for the design of HIV-1 life cycle inhibitors. According to numerous immunological, physicochemical and structural studies the PND V3 region of gp120 and the extracellular N-terminal peptide fragment of CCR5 coreceptor constiture the primary regions that are involved in the interactions of occurring between the two proteins. The sequence variation of the PND V3 region and its correlation with the adopted conformation, the dependence of the position and type of amino-acid with the intensity of the interaction and the linkage of viral tropism with the peptides biologically active conformation comprise fundamental stages in the process of understanding the mechanism of gp120 – CCR5 interaction and the elements that designate it. The thesis interest was oriented towards this direction while its primary targets were the evaluation of the interaction determinants by using peptide fragments, the designation of the interaction type and the calculation of the specific peptides structures through the use of Nuclear Magnetic Resonance Spectroscopy. As expected for free peptides in solution, the peptides representing the PND V3 region of gp120 exhibit conformational flexibility, but they exhibited a large number of NOEs which allowed convergence to a specific conformation. The PND V3 peptides retain the U-turn conformation observed in the crystal structures of gp120 complexes independently of CCR5 presence. The interaction of different regions of the CCR5Nt peptide is gradually increasing proportionally to the positive charge increase in the V3 peptides. The data demonstrate that the PND V3 and CCR5Nt peptide sequences have propensities for interaction and that their binding and selectivity is determined by simple electrostatic attraction mechanisms. The thesis conclusions combined to those extracted by many biological, biochemical and physicochemical studies bring forth new data that can be used in the rational design of inhibitors that will exhibit increased binding affinity for CCR5 co-receptor.
24

Determination of gp120 & Trx80 dependent production of hydrogen peroxide in cell free & cell-dependent systems

Alam, Sadaf Sakina January 2009 (has links)
Hydrogen peroxide (H2O2), a reactive oxygen specie (ROS), is most commonly associated with oxidative stress causing cytotoxic effects on living cells. Oxidative stress has been implicated in various conditions including neurodegenerative diseases, autoimmune diseases and cancer. In addition H2O2 is produced as a defense mechanism against pathogens, as being released by activated phagocytes. In recent years, H2O2 has become established as an important regulator of signal transduction in eukaryotic cells. Hydrogen peroxide is generated both intracellularly and extracellularly in response to various stimuli including cytokines and growth factors. There are different mechanisms by which H2O2 is generated, facilitating signal transduction in cells; through NOX-system in miyochondria, via singlet oxygen, receptor/ligand interaction or by redox active metal ions. The HIV glycoprotein 120 (gp120) is associated with HIV dementia and it is known as a neurotoxin that causes neuronal damage. It has been proposed that free radicals may be involved in the pathogenesis caused by gp120. In addition the truncated form of thioredoxin (Trx80) is known to stimulate HIV replication in HIV infected cells, however, the exact mechanism is not known. A possible way both proteins may mediate their activity is by inducing H2O2 production. The aim of this study was to investigate H2O2 production induced by the proteins gp120 and Trx80. In order to detect H2O2 production an assay based on the fluorescent compound Amplex Red, was established. The assay was used to detect H2O2 released by gp120 and Trx80 in a cell-free environment, in a cell-system and in the presence of metal ions (copper ions) with a physiological reductant (ascorbate). We did not detect H2O2 production induced by gp120 and Trx80 respectively, using our assay, however, other ROS such as hydroxyl radicals may have been generated although they were not detectable with our method. Hence, further studies are needed in order to fully understand how gp120 and Trx80 mediate their activity.
25

Mechanisms of HIV-induced peripheral neuropathic pain by focusing on Schwann cell-macrophage interaction / シュワン細胞とマクロファージの細胞間相互作用に着目したHIV誘発末梢神経障害の発症機構に関する研究

Ntogwa, Mpumelelo 23 March 2021 (has links)
京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第23141号 / 薬科博第140号 / 新制||薬科||15(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 金子 周司, 教授 髙倉 喜信, 准教授 中川 貴之 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM
26

HIV-1 gp120 Primes Lymphocytes for Opioid-Induced, β-Arrestin 2-Dependent Apoptosis

Moorman, Jonathan, Zhang, Yi, Liu, Bindong, LeSage, Gene, Chen, Yangchao, Stuart, Charles, Prayther, Deborah, Yin, Deling 01 August 2009 (has links)
The mechanisms by which opioids affect progression of human immunodeficiency virus type 1 (HIV-1) infection are not well-defined. HIV-1 gp120 is important in the apoptotic death of uninfected, bystander T cells. In this study, we show that co-treatment of human peripheral blood mononuclear cells (PBMC) with HIV-1 gp120/morphine synergistically induces apoptosis in PBMC. Co-treatment of murine splenocytes from μ opiate receptor knockout mice with gp120/morphine resulted in decreased apoptosis when compared to splenocytes from wild type mice. Co-treatment of human PBMC or murine splenocytes with gp120/morphine led to decreased expression of β-arrestin 2, a protein required for opioid-mediated signaling. The role of β-arrestin 2 was confirmed in Jurkat lymphocytes, in which 1) over-expression of β-arrestin 2 inhibited gp120/morphine-induced apoptosis and 2) RNA interference of β-arrestin 2 expression enhanced gp120/morphine-induced apoptosis. These data suggest a novel mechanism by which HIV-1 gp120 and opioids induce lymphocyte cell death.
27

HIV Tat Protein Activates Endothelial Cells through NFκB and MAP Kinase Pathways.

Henry, Jason L. 16 August 2002 (has links) (PDF)
HIV infection has been shown to predispose patients to accelerated development of heart disease. One mechanism for this pathology may involve endothelial activation either by HIV itself or by its secreted proteins, gp120 (a viral envelope protein) and tat (a protein that upregulates transcription of viral genes). We have studied the effects of gp120 and tat on signaling and production of inflammatory cytokines by Human Pulmonary Artery Endothelial Cells (HPAEC). HPAEC were stimulated at varying time points with combinations of gp120, tat, and monokines (IL-1β and TNFα). Cell lysate fractions were analyzed for MAP Kinase activity and NFκB activation, and culture supernatants were assayed for inflammatory cytokines (IL-6 and IL-8). The production of IL-6 and IL-8 was significantly enhanced by tat but not by gp120. Both gp120 and tat, however, induced significant morphological changes in HPAEC. The only synergy noted was between high levels of tat and TNFα acting on the production of IL-6. When HPAEC were stimulated with IL-1β and TNFα, peak phosphorylation of p38 MAP Kinase was found at 45 minutes, while NFκB was maximally activated at two hours. Both the ERK1,2 and p38 cascades of MAP Kinase were activated by tat, and an increase in NFκB phosphorylation and translocation were noted. We conclude that the HIV tat protein could be involved in inflammatory changes in endothelium leading to the accelerated development of heart disease in HIV patients.
28

Targeting The CD4 Biniding Site In HIV-1 Immunogen Design

Bhattacharyya, Sanchari 07 1900 (has links) (PDF)
Over three decades have passed since the discovery of HIV-1, yet an AIDS vaccine remains elusive. The envelope glycoprotein of HIV-1 gp120, is the most exposed protein on the viral surface and thus serves as an important target for vaccine design. However, various factors like high mutability of gp120, extensive glycosylation and very high conformational flexibility of gp120 have confounded all efforts to design a suitable immunogen that elicits broad and potent neutralizing antibodies against HIV-1. In Chapter 1, a brief description of the structural organization of HIV-1 along with the progress made and the difficulties encountered in the development of a vaccine are presented. In Chapter 2, the design and characterization of an outer domain immunogen of HIV-1 gp120 is discussed. The outer domain (OD) of the envelope glycoprotein gp120 is an important target for vaccine design since it contains a number of conserved epitopes, including a large fraction of the CD4 binding site. Attempts to design OD based immunogens in the past have met with little success. In this work, we designed an OD immunogen based on the sequence of the HXBc2 strain, expressed and purified it from E. coli (ODEC). The ODEC molecule lacks the variable loops V1V2 and V3 and incorporates 11 designed mutations at the interface of the inner and the outer domains of gp120 to increase solubility. Biophysical studies showed that ODEC is folded and protease resistant while ODEC lacking the designed mutations is highly aggregation prone. In contrast to previously characterized OD constructs, ODEC bound CD4 and the broadly neutralizing antibody b12 with micromolar affinities, but not the non-neutralizing antibodies b6 and F105. Further improvement in the refolding protocol yielded a better structured molecule that bound CD4, b12 and VRC01 with sub-micromolar affinities. In rabbit immunization studies with animals primed with ODEC and boosted with gp120, the sera are able to neutralize Tier I viruses and some Tier II viruses like JRFL and RHPA with measurable IC50s. This is one of the first examples of a gp120 fragment based immunogen which was able to elicit sera that showed modest neutralization of some Tier II viruses. Subsequently amide hydrogen-deuterium exchange studies of ODEC showed that though the molecule is well-folded, it is labile to exchange. This might indicate why ODEC does not elicit high amounts of neutralizing antibodies. In Chapter 3, we report the design and characterization of two smaller fragments of gp120 (b121a and b122a) to target the epitope of the broadly neutralizing antibody b12. The region chosen comprised of a compact beta barrel in the lower part of the outer domain of gp120. Unlike ODEC, the fragments corresponding to these constructs were not contiguous stretches in gp120. Thus we used linkers to connect them. Further, nine designed mutations were introduced at exposed hydrophobic regions of the fragment to increase its solubility. The designed protein fragments were expressed in E. coli in order to prevent glycosylation and consequent epitope masking that might occur if expressed in an eukaryotic expression system. Biophysical studies showed that b121a/b122a are partially folded. Disulfide mapping studies showed that the expected disulfide bridges were formed. The designed immunogens could bind b12, but not the non-neutralizing antibody b6. Sera from rabbits primed with b121a/b122a protein fragments and boosted with full-length gp120 showed broad neutralizing activity against a 20 virus panel including Tier2 and 3 viruses such as PVO4, CAAN, CAP45 and ZM233. Sera from animals that received only gp120 showed substantially decreased breadth and potency. Serum depletion studies confirmed that neutralization was gp120 directed and that a substantial fraction of it was mediated by CD4 binding site (CD4bs) antibodies. The data demonstrate that it is possible to elicit broadly neutralizing sera against HIV-1 in small animals, despite the restricted germline VH gene usage observed so far in broadly neutralizing CD4bs directed antibodies in humans. In Chapter 3, we also discuss design of a new construct b122d, which includes regions corresponding to b121a, but with linker connectivities similar to b122a. It was found to bind b12 with sub-micromolar affinity and also showed proteolytic resistance comparable to b121a. This indicated that though b121a showed better proteolytic resistance than b122a, it bound b12 poorly because one of the linkers might sterically occlude the b12 binding site. As the b12 binding site constructs based on the subtype B HXBc2 sequence elicited neutralizing antibodies, we chose to design similar constructs based on a subtype C sequence. The proteins (Cb122a and Cb122d) were purified from E. coli, characterized and found to bind b12 with micromolar affinity. The new constructs (b122d, Cb122a, Cb122d) will shortly be tested in animal immunizations. Disulfides are known to stabilize proteins by reducing the entropy of the unfolded state. In Chapter 4, we attempted to stabilize b122a by engineering disulfides. The disulfides are expected to rigidify the molecule and possibly improve its ability to elicit neutralizing antibodies. Some of the disulfides tested in b122a were predicted based on stereo-chemical criteria by the program MODIP (Modeling Disulfide Bridges in Proteins), while others were chosen at non-hydrogen bonded positions (NHB) on anti-parallel beta strands, based on earlier studies in the lab. Some of the disulfide mutants showed better binding to b12 and increased protection to enzymatic digestion. These disulfides were subsequently engineered into other b12 binding site constructs, namely b122d, Cb122a and Cb122d and these were biophysically characterized. Amongst the various disulfides that were tested in b122a, the one at 293-448 (according to HxBc2 numbering) was found to improve the binding to b12 by about ~16-fold. Not only did this disulfide improve the binding of b122a to b12, it also showed similar improvement in case of b122d and both the subtype C constructs tested. Moreover, since the position 293-448 is an exposed NHB position of an anti-parallel beta strand, spontaneous formation of the disulfide and the improved binding to b12 for all the proteins tested reinforces the fact that cysteines engineered at such positions leads to formation of a stabilizing disulfide. All the proteins containing the 293-448 disulfide will be used in future for rabbit immunization studies to examine if they elicit better neutralizing antibodies than the parent b122a molecule. As discussed in Chapter 2, ODEC showed a very fast rate of hydrogen exchange, indicating that it is flexible. As the 293-448 disulfide improved the binding of b12 binding site constructs, in Chapter 5, disulfides at exposed NHB positions were introduced in the context of ODEC. Previously engineered inter-domain disulfides have been shown to reduce the conformational flexibility of gp120. The disulfides in the lower beta barrel of the outer domain which harbors the CD4 binding site were found to be monomeric, oxidized and could bind neutralizing CD4bs antibodies better than the WT protein. On the other hand, the disulfides in the upper barrel of the outer domain were aggregated and bound antibodies poorly compared to the WT protein, indicating that this part of the molecule may not be well structured in the fragment. However, there was no significant change in the hydrogen exchange kinetics for these mutants. Mutations in the Phe-43 cavity of gp120 (S375W/T257S) which constrain gp120 in the CD4 bound conformation were also tested in ODEC (ODEC-CF). This protein was found to bind CD4 and VRC01 about 8 and 2 times better respectively than WT ODEC. These improved immunogens will be used shortly in rabbit immunization studies. In an attempt to improve the immunogenicity of the gp120 fragment proteins, b121a, b122a and ODEC were displayed on/conjugated to the surface of Qβ virus like particles in Chapter 6. Exposed single cysteine mutants of these proteins were purified, characterized biophysically and found to have the single cysteine free for conjugation. These were subsequently conjugated to the Qβ virus like particles through click chemistry (carried out in Prof. MG Finn’s lab at TSRI), purified and used for rabbit immunization studies. The gp120 ELISA titers of the elicited sera showed that conjugation may be a better option to display foreign antigens on the surface than genetic fusion. There was no difference in the ELISA titers with and without adjuvant, indicating that the particles are sufficiently immunogenic in themselves. Sera from these studies will be tested in neutralization assays. The overall utility of the particle based display approach will be assessed by comparing neutralization data from particle based immunizations to identical immunizations with unconjugated immunogens. Most HIV-1 broadly neutralizing antibodies are directed against the gp120 subunit of the Env surface protein. Native Env consists of a trimer of gp120:gp41 heterodimers, and in contrast to monomeric gp120, preferentially binds CD4 binding site (CD4bs) directed neutralizing antibodies over non-neutralizing ones. Some cryo-electron tomography studies have suggested that the V1V2 loop regions of gp120 are located close to the trimer interface. To understand this further, in Chapter 7, we have designed cyclically permuted variants of gp120 with and without the h-CMP and SUMO2a trimerization domains inserted into the V1/V2 loop. h-CMP-V1cyc is one such variant where 153 and 142 are the N and C terminal residues of cyclically permuted gp120 and h-CMP is fused to the N-terminus. This molecule forms a trimer under native conditions and binds CD4 and the neutralizing CD4bs antibodies b12 with significantly higher affinity relative to wtgp120. It binds the non-neutralizing CD4bs antibody F105 with lower affinity than gp120. A similar derivative, h-CMP-V1cyc1 bound the V1V2 directed broadly neutralizing antibodies PG9/PG16 with ~20 fold higher affinity compared to wild type JRCSF gp120. These cyclic permutants of gp120 are properly folded and are potential immunogens. The data also support Env models in which the V1V2 loops are proximal to the trimer interface. In Appendix A1, peptide analogs of selected secondary structural elements of gp120 were designed. Some of them were grafted on known scaffold proteins. The synthesized peptides were characterized biophysically. Most of the peptides did not have a well-defined secondary structure, indicating that they are not stable in isolation. Hence they were not pursued for further studies. One helical peptide adopted a significant amount of structure in aqueous buffer and will be shortly conjugated to carrier proteins and used in immunization studies. In Appendix A2, we created error-prone PCR libraries and loop-randomization libraries of b12 binding site constructs and attempted to screen these for better b12 binding using phage-display. However the screening was unsuccessful as the phages showed non-specific binding to b12 antibody. These libraries will be screened in future using yeast display.
29

Identification d'une plante médicinale africaine par le DNA barcoding et étude de composés à activité anti-HIV de cette plante / Identification of an African medicinal plant by DNA barcoding an study of its anti-HIV component

Zheng, Yue 03 December 2015 (has links)
Mon travail de thèse porte sur l'identification d'un arbre médicinal africain par le DNA barcoding et l'étude de composés à activité anti-VIH de cet arbre. Une première analyse de la séquence du marqueur ITS2 déterminée à partir d'ADN extrait de copeaux de bois a suggéré que la plante pourrait appartenir au genre Cassia ou au genre apparenté Senna. En analysant la séquence de ce marqueur ITS2 et aussi celle du trnHpsbA spacer d'une cinquantaine d'espèces des genres Cassia et Senna j'ai pu identifier la plante comme étant Cassia abbreviata. L'alignement de ces séquences m'a permis d'identifier, pour les deux marqueurs,des structures particulières spécifiques aux espèces du genre Cassia, permettant donc de les différencier des espèces du genre Senna. J'ai utilisé ces alignements pour effectuer une étude phylogenetique qui illustre que,pour les deux marqueurs, les Cassia forment en effet un clade bien séparé du clade des Senna qui peut être divisé en plusieurs sous-clades. Dans un deuxième temps j'ai étudié les effets anti-VIH de l'extrait alcoolique ainsi que de 57 composés purifiés obtenus au laboratoire. L'extrait brut ainsi qu'un des composés purifiés, le piceatannol, ont montré un grand spectre d’activités antivirales pour le VIH et le virus de l’herpès. Ils inhibent,à un stade précoce, l'infection par le VIH de lignées cellulaires de référence et d'isolats cliniques, ceci indépendamment de l'utilisation du co-récepteur (IC50: 10.47-40.77 μg/ml, CC50>1000 μg/ml; IC50: 8.04-47.46 μM, CC50>300 μM, respectivement). Ni l'un ni l'autre n'a d'effet sur CD4 et CCR5/CXCR4. L'extrait brut,mais pas le piceatannol, bloque l'interaction CD4-gp120, suggérant que l'extrait brut cible gp120 alors que le piceatannol agit comme un inhibiteur non-spécifique d'attachement du virus. Aussi, dans un modèle in vitro de tract génital femelle, le piceatannol inhibe l'infection de cellules cibles TZM-Bl par le VIH et n'active pas les cellules PBMCs, suggérant qu'il pourrait être un bon candidat comme microbicide. D'autres composés à activité anti-VIH dans l'extrait comportent l'acide oléanolique, l'acide palmitique, la taxifoline, ainsi que troiscomposés dont la structure est en train d'être élucidée. / My thesis project deals with the identification, by DNA barcoding, of an African medicinal plant and the study of anti-HIV compounds from this plant. A first analysis of the ITS2 marker sequence determined from DNA extracted from the wood suggested that the plant could belong to the Cassia or the related Senna genus. A further analysis of ITS2 as well as of trnH-psbA spacer sequences from about 50 species of the two genera allowed me to identify the plant as Cassia abbreviata. The sequence alignments, which reveal unique features present in the Cassia but not the Senna sequences, were used to construct phylogenetic trees showing the clear separation of the species of the Cassia and the Senna genus. The two markers therefore allow a quick discrimination between the species of the Cassia and the Senna genus and appear to be excellent barcode markers for identification of these species. Following the identification of the plant I have tested the crude ethanol extract as well as 57 purified compounds from the plant for an anti-HIV activity. The extract, as well as one of the compounds, namely piceatannol, showed a broad spectrum of antiviral activities for HIV and HSV. They inhibited HIV-1 infection at the early stage against various reference strains and resistant clinical isolates independent of the co-receptor usage (IC50: 10.47-40.77 μg/ml, CC50>1000 μg/ml; IC50: 8.04-47.46 μM,CC50>300 μM, respectively). Neither the crude extract nor piceatannol had an effect on CD4 and CCR5/CXCR4. The crude extract blocked CD4-gp120 interaction while piceatannol did not, indicating that CE may target gp120 and piceatannol may act as a non-specific viral attachment inhibitor. Moreover, piceatannol inhibited HIV infection of TZM-Bl target cells in an in vitro female genital tract model and did not activate PBMCs, suggesting that it may represent a good candidate as microbicide. Other anti-HIV compounds found in Cassia abbreviata include oleanolic acid, palmitic acid, taxifolin and three other compounds the structure of which is presently being elucidated.
30

Étude du rôle des régions variables 4 et 5 dans les changements de conformation de la gp120 du VIH-1

Coutu, Mathieu 02 1900 (has links)
Le VIH infecte les cellules par fusion de sa membrane avec la membrane de la cellule cible. Cette fusion est effectuée par les glycoprotéines de l'enveloppe (Env) qui sont synthétisées en tant que précurseur, gp160, qui est ensuite clivé en gp120 et gp41. La protéine gp41 est la partie transmembranaire du complexe de l'enveloppe et l’ancre à la particule virale alors que la gp120 assure la liaison au récepteur cellulaire CD4 et corécepteur CCR5 ou CXCR4. Ces interactions successives induisent des changements de conformation d’Env qui alimentent le processus d'entrée du virus conduisant finalement à l'insertion du peptide de fusion de la gp41 dans la membrane de la cellule cible. La sous-unité extérieure gp120 contient cinq régions variables (V1 à V5), dont trois (V1, V2 et V3) étant capables d’empêcher l’adoption spontanée de la conformation liée à CD4. Cependant, le rôle de régions variables V4 et V5 vis-à-vis de ces changements de conformation reste inconnu. Pour étudier leur effet, des mutants de l'isolat primaire de clade B YU2, comprenant une délétion de la V5 ou une mutation au niveau de tous les sites potentiels de N-glycosylation de la V4 (PNGS), ont été générés. L'effet des mutations sur la conformation des glycoprotéines d'enveloppe a été analysé par immunoprécipitation et résonance de plasmon de surface avec des anticorps dont la liaison dépend de la conformation adopté par la gp120. Ni le retrait des PNGS de la V4 ni la délétion de V5 n’a affecté les changements conformationnels d’Env tels que mesurés par ces techniques, ce qui suggère que les régions variables V1, V2 et V3 sont les principaux acteurs dans la prévention de l’adoption de la conformation lié de CD4 d’Env. / HIV infects cells by fusing its membrane with the membrane of the target cell. This fusion is performed by the envelope glycoproteins (Env) which are synthesized as a precursor, gp160, which is later cleaved into gp120 and gp41. The transmembrane protein gp41 anchors the envelope complex to the viral particle whereas the gp120 ensures the binding to the cell receptor CD4 and coreceptor CCR5 or CXCR4. These sequential interactions trigger conformational changes on Env that fuel the viral entry process ultimately leading to the insertion of the gp41-derived-fusion peptide into the target cell membrane. The exterior subunit gp120 contains five variable regions (V1 to V5), of which three (V1, V2 and V3) have been shown to restrain the spontaneous sampling of the CD4-bound conformation by gp120. However, the role of variable regions V4 and V5 in these conformational changes remains unknown. To investigate their effect, mutants of the clade B YU2 primary isolate, comprising a deletion of the V5 or mutating all V4 potential N-linked glycosylation sites (PNGS), have been generated. The effect of mutations on the conformation of the envelope glycoproteins was analyzed by immunoprecipitation with conformation-dependent antibodies and surface plasmon resonance. Neither the removal of the V4 PNGS nor the removal of V5 affected Env conformational changes as measured by these techniques. Thus, suggesting that variable regions V1, V2 and V3 are the major players in preventing Env from spontaneously snapping into the CD4-bound conformation.

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