Global ETD Search

201	Fetal programming of renal morphology and function Marchand, Michael C. January 2004 (has links) Previous epidemiological evidence from a number of studies supports the hypothesis that the risk of essential hypertension, coronary heart disease and non-insulin dependent diabetes is, in part, programmed by intrauterine nutritional status. An increasing number of human studies indicate that the developing kidney is particularly vulnerable to the adverse effects of fetal growth retarding influences. In animals growth retarding diets or other insults, which have an impact on the development of cardiovascular functions, also appear to impact upon nephron number. In this study, the feeding of a 9% casein diet to pregnant rats, a mild protein restriction, reduced nephron number in the offspring, which progressively declined with age compared to those exposed to an 1 8% control diet. At weaning low-protein exposed offspring had hypertension and evedence of renal insufficiency. On natural death, the kidneys from aged male rats exposed to both low-protein and control maternal diets had a higher incidence glornerulosclerosis and renal disruption than females. Supplementing the maternal 9% casein diet with 3% glycine, 1.5% urea and 3% alanine in the rat normalised nephron number in the offspring. Only the addition of glycinc in the maternal low- protein diet prevented the appearance of high blood pressure in the offspring. In this study it has been demonstrated that in humans, those of a low birth weight or ponderal index, a marker of fetal undernutrition, had evidence of increased glomerular permeability, but not elevated blood pressure at age 10. This association was not evident at age 12 or in a separate cohort of young adults. It is possible that hypertension and a reduced nephron reserve are not causally associated. The evidence from this thesis suggest that prenatal undernutrition may programme renal structure in later life, but that renal programming is not one of the primary mechanisms leading to hypertension 610
202	Investigations into the pathogenesis of aquatic Streptococcus agalactiae and Streptococcus iniae in Nile tilapia (Oreochromis niloticus) Featherstone, Zoe L. January 2014 (has links) The bacterial pathogens Streptococcus agalactiae and S. iniae have the capacity to infect a wide range of fish species throughout the world, with Nile tilapia (Oreochromis niloticus) being particularly susceptible. Global tilapia aquaculture production was estimated to be 3.5 million tonnes in 2008, and has a significant contribution in the global farmed fish market. Due to their ability to adapt to a wide range of culture systems the commercialisation of tilapia production has occurred in more than 100 countries. However, countries such as China have suffered from severe and extensive outbreaks of streptococcosis in cultured tilapia continuously for many years. Such large-scale outbreaks in China have resulted in a loss of approximately US$0.4 billion in 2011. Fish are permanently exposed to a plethora of pathogens and natural disease outbreaks are complex host-pathogen interactions that seldom involve single pathogen infections. As a consequence, simultaneous infections, alternatively called concurrent or co-infections, are starting to receive interest from aquatic disease researchers. Streptococcus agalactiae and S. iniae infections can both occur in the same geographic area and both S. agalactiae and S. iniae have been found to be present on the same farm in a single disease outbreak. It has been found that a disease outbreak caused by one these pathogens can be followed by another outbreak from the other. These two pathogens have serious effects on the tilapia aquaculture industry yet there is no information regarding S. agalactiae and S. iniae co-infections. Such information would be valuable for understanding epidemiology and the development of improved treatment and control of aquatic streptococcosis infections. The overall aim of this study was to investigate the pathogenesis of S. agalactiae and S. iniae in Nile tilapia. One important aspect of investigating simultaneous infections was to examine if there was any competition or synergy between S. agalactiae and S. iniae in vitro or in vivo. It was found that competition between S. agalactiae and S. iniae in vitro was inconsistent between different experimental systems. Results indicated that there was either no interaction between bacterial species or they coexisted during in vitro competition assays. Whereas, an in vivo model utilising wax moth larvae (Galleria mellonella) suggested that during a simultaneous infection with S. agalactiae and S. iniae the total levels of larval mortality were lower than expected indicating that the pathogens may have interacted with one another in a competitive manner. Investigations were also conducted to identify the expression of virulence factors in vitro for S. agalactiae and S. iniae. Comparisons were then made to ascertain any inter- and intra-species variation. Results demonstrated that both S. agalactiae and S. iniae strains possessed a capsule but varied in their haemolytic activity, blood survival and resistance to complement-mediated killing. These variations suggested that the two bacterial species differed in their mechanisms of pathogenicity where aquatic S. agalactiae strains may initially have a more systemic spread of infection and aquatic S. iniae strains may utilise a more localised spread of infection within the host. This hypothesis was tested through the development of a robust and reliable challenge model for S. agalactiae and S. iniae in Nile tilapia. Through this work it was apparent that fish infected with S. iniae experienced an acute infection with morbidity/mortality occurring 1 – 3 days after exposure. Whereas, the S. agalactiae challenged fish showed a more chronic infection with morbidity/mortality occurring from 1 – 6 days after exposure. Findings clearly demonstrated a more systemic spread of infection during a S. agalactiae challenge with high bacterial loads in all the organs examined. Streptococcus iniae was observed in fewer organs of infected fish and bacterial numbers were substantially lower. Concurrent infections are complex in natural conditions and in experimental studies. As a result a substantial amount of research will be required to fully understand the nature of co-infection with these two streptococci. This study has provided a solid foundation upon which to base future work. 579.3
203	A study of the molecular mechanism of progestin-induced regulation of IL-12 and IL-10 and implications for HIV pathogenesis Louw, Renate 03 1900 (has links) Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Medroxyprogesterone acetate (MPA) and norethisterone (NET) and its derivatives (norethisterone enanthate (NET-EN); norethisterone acetate (NET-A)), designed to mimic the actions of the endogenous hormone progesterone (Prog), are extensively used by women as contraceptives and in hormone replacement therapy (HRT). A number of reports have indicated that these synthetic progestins affect immune function in the female genital tract thereby increasing the risk of acquiring sexual transmitted infections. Despite these findings, very little is known about their mechanism of action at the cellular level, in particular their steroid receptor-mediated effects on cytokine gene expression. In the first part of this thesis, the effect of Prog, MPA and NET-A on the expression of the endogenous pro-inflammatory cytokine gene, interleukin (IL)-12p40, and anti-inflammatory cytokine gene, IL-10, was investigated in a human ectocervical epithelial cell line, Ect1/E6E7. Quantitative realtime PCR (qPCR) showed that all three ligands significantly upregulated the tumor necrosis factor alpha (TNF )-induced IL-12p40 gene expression, while IL-10 gene expression was downregulated. Moreover, by reducing the glucocorticoid receptor (GR) levels with siRNA, these effects were shown to be mediated by the GR. A more detailed investigation into the molecular mechanism of the progestogen-induced upregulation of IL-12p40 gene expression, using chromatin immunoprecipitation (ChIP), siRNA, co-immunoprecipitation and re-ChIP analyses, showed that the progestogen-bound GR is recruited to the CCAAT enhancer binding protein (C/EBP)- regulatory element of the IL-12p40 promoter, most likely via an interaction with the transcription factor C/EBP . Similar experiments for the progestogen-induced downregulation of IL-10 gene expression showed that the progestogen-bound GR is recruited to the signal transducer and activator of transcription (STAT)-3 regulatory element of the IL-10 promoter, most likely via an interaction with the transcription factor STAT-3. The second part of this study elucidated the influence of the HIV-1 accessory viral protein R (Vpr) on progestogen-induced regulation of IL-12p40, IL-12p35 and IL-10 in the Ect1/E6E7 cell line. Results showed that in these cells, the overexpression of Vpr significantly modulated the effects of Prog, MPA and NET-A on the mRNA expression of IL- 12p40 and IL-10, while only the NET-A effect was modulated on IL-12p35. Moreover, reducing the GR protein levels by siRNA suggested that the GR is required by Vpr to mediate its effects. Taken together, these results show that Prog, MPA and NET-A promote the pro-inflammatory milieu in the ectocervical environment, and that during HIV-1 infections, this milieu is modulated. Furthermore, the results suggest that the use of MPA or NET in vivo may cause chronic inflammation of the ectocervical environment, which may have important implications for ectocervical immune function, and hence susceptibility to infections such as HIV-1. / AFRIKAANSE OPSOMMING: Medroksieprogesteroon asetaat (MPA), noretisteroon (NET) en derivate daarvan noretisteroon enantaat (NET-EN); noretisteroon asetaat (NET-A), ontwerp om die funksies van die natuurlike hormone progesteroon (Prog) na te boots, word wêreldwyd deur vroue as voorbehoedmiddels sowel as vir hormoon vervangingsterapie (HVT) gebruik. Daar is verskeie aanduidings dat hierdie sintetiese progestiene die immuunfunksie in die vroulike geslagskanaal kan beïnvloed en ook die moontlike vatbaarheid van seksueel oordraagbare infeksies kan verhoog. Ten spyte hiervan, is baie min bekend oor hulle meganisme van werking op ‘n molekulêre vlak, veral in die besonder hul effek op sitokinien geenuitdrukking. Die effek van Prog, MPA en NET-A op die geenuitdrukking van ’n endogene pro-inflammatoriese sitokinien, interleukin (IL)-12, en ’n anti-inflammatoriese sitokinien, IL-10, asook die onderliggend meganisme van werking, in ’n menslike ektoservikale sellyn, Ect1/E6E7, is in die eerste deel van hierdie studie ondersoek. Kwantitatiewe “realtime” polimerisasie ketting reaksie (PKR) het getoon dat al drie die ligande die tumor nekrosis faktor alfa (TNF- )-geïnduseerde IL-12p40 geenuitdrukking opreguleer en IL-10 geenuitdrukking onderdruk. Verder is gevind dat induksie van IL-12p40 en inhibisie van IL-10 deur Prog, MPA en NET-A deur die glukokortikoïed reseptor (GR) gedryf word, aangesien volledige opheffing van die effekte op hierdie sitokinien gene waargeneem is wanneer die GR proteïen vlakke deur middel van kort inmengende ribonukleïensuur (siRNS) verminder is. 'n Meer beskrywende ondersoek in die molekulêre meganisme is uitgevoer deur gebruik te maak van chromatien immunopresipitasie (ChIP), siRNS, mede-immunopresipitasie en her-ChIP analises. Hierdie resultate het voorgestel dat die progestogeen (Prog en die sintetiese progestiene)-gebonde GR tot die CCAAT verbeterende bindings protein (C/EBP)- regulatoriese element van die IL-12p40 promotor betrek word en dat die transkripsie faktor C/EBP benodig word om transkripsie van die IL-12p40 geen te aktiveer. Met betrekking tot IL-10, het die resultate voorgestel dat die progestogeen-gebonde GR tot die sein transduksie en aktiveerder van transkripsie (STAT)-3 regulatoriese element van die IL-10 promotor betrek word en dat die transkripsie faktor STAT-3 benodig word om transkripsie van die IL-10 geen te onderdruk. Die tweede deel van die studie het die invloed van die MIV-1 aksesorale virale proteïen R (Vpr) op sitokinien geenuitdrukking, spesifiek die progestogeen-geïnduseerde regulering van IL-12p40, IL-10 en IL-12p35, in die Ect1/E6E7 sellyn ondersoek. Resultate het getoon dat ooruitdrukking van Vpr in hierdie sellyn die effekte van Prog, MPA en NET-A op die mRNS uitdrukking van IL-12p40 en IL-10, en slegs die NET-A effek op IL-12p35, aansienlik moduleer. Vermindering van die GR proteïen vlakke deur middel van siRNS het getoon dat Vpr die GR benodig om hierdie veranderinge mee te bring. In samevatting, die resultate van hierdie proefskrif stel voor dat Prog, MPA en NET-A die pro-inflammatoriese milieu in die ektoservikale omgewing bevorder, en dat hierdie milieu gedurende MIV-1 infeksies verander. Verder, die resultate van hierdie studie impliseer dat die gebruik van MPA en NET in vivo nadelige lokale immuunonderdrukkende effekte mag hê wat kan lei tot kroniese inflammasie van die ektoservikale omgewing en ‘n moontlike verhoging in die vatbaarheid van infeksies soos MIV-1. Progestational hormones HIV infections -- Pathogenesis Contraception Glucocorticoid receptors Interleukin 12 Interleukin 10 Dissertations -- Biochemistry Theses -- Biochemistry
204	The application of the fragment-based screening approach to RmlA protein and PA1645 structure Boulkeroua, Wassila Abdelli January 2013 (has links) P. aerguinosa is a serious human bacterial pathogen. This thesis describes attempts to use structural biology to identify new starting points for drugs against P. aerguinosa .A number of fragment-based screening techniques were used in order to identify potential inhibitors to P. aerguinosa RmlA protein, the first enzyme in the L-Rhamnose pathway. A 500 “Rule of 3” Fragment Library (Maybridge) was investigated. The first approach was the application of Differential Scanning Fluorimetry (DSF) approach to detect ligands that bind and stabilize RmlA protein. The stabilisation of RmlA was determined by thermal unfolding in the presence of each of the 500 compounds. 21 of those compounds were found to increase the protein stability. The library was then screened by NMR spectroscopy for binding to RmlA. Two techniques were evaluated STD and WaterLOGSY. 106 compounds gave positive results in both NMR experiments. These hits were then tested by a simple STD competition binding with dTTP, a natural RmlA substrate, in order to identify those binding at the active or allosteric site. 21 out of the 106 compounds were observed to compete with dTTP. The results were compared to the results of the DSF screening. Compounds that tested positive in the dTTP competition binding STD experiment and in the DSF screening were tested for their ability to inhibit RmlA in a biological assay. A coupled enzyme assay was used to monitor RmlA activity. Only one compound, 3-pyridin-3-ylaniline, showed significant inhibition of the enzyme activity. The PA1645 protein from P. aerguinosa has been identified as essential. The protein was overexpressed, purified and crystallised. Data were collected at Diamond on beamline IO3 and phases were determined by S-SAD at a wavelength of 1.6Å. Final coordinates have been deposited in the protein data bank under entry code 2XU8. The structure has 3 molecules in the asymmetric unit. There is some ambiguity as to the validity of the proposed trimeric arrangement, with results from solution and crystal disagreeing. Fragment-based screening approach has been applied to RmlA protein, using the DSF technique, a number of ligand-based NMR experiments and a coupled enzyme biological assay. 3-pyridin-3-ylaniline was the only compound that showed significant inhibition of the enzyme activity. The structure of PA1645 from P. aerguinosa has been solved. This work will help to design new drugs to combat multi-drug resistant P. aerguinosa and MTB. 616.9
205	Genetic and pharmacological approaches to study the role of the polyolpathway enzymes in diabetic and ischemic retinopathy Cheung, Kwok-ho, Alvin, 張國豪 January 2007 (has links) published_or_final_version / abstract / Anatomy / Doctoral / Doctor of Philosophy Polyols. Diabetic retinopathy. Eye - Diseases - Genetic aspects. Eye - Diseases - Pathogenesis. Mice as laboratory animals.
206	Immunoglobulin gene translocations in gastric lymphoma Yip, Bon-ham., 葉邦瀚. January 2006 (has links) published_or_final_version / abstract / Pathology / Master / Master of Philosophy Immunoglobulin genes. Antioncogenes. B cells - Tumors - Genetics.
207	Cellular and molecular pathogenesis of Salmonid alphavirus 1 in Atlantic salmon Salmo salar L Herath, Tharangani K. January 2010 (has links) Salmonid alphaviruses (SAV) are a group of viruses that have recently emerged as a serious threat to the salmonid aquaculture industry in Europe. Over recent years, diseases caused by SAV have severely hampered the Scottish, Irish and Norwegian Atlantic salmon industry, and are considered to be among the major economically important viral diseases affecting the industry at present. Amongst the six subtypes characterised so far, Salmonid alphavirus 1 (SAV1) causes severe pathology in the heart, pancreas and the skeletal muscle of Atlantic salmon leading to death and growth retardation in the affected fish. The biochemical characteristics of the virus and the sequential pathology of the diseases caused by SAV have been described; however the mechanisms responsible for causing the disease and the host defence mechanisms against the virus are poorly defined. This thesis therefore examined the pathogenesis of SAV infection at the cellular and molecular level in vivo in salmon and in vitro in salmonid cells, with a special emphasis on host immune defence mechanisms against the virus. SAV was first isolated from Chinook salmon embryo-214 (CHSE-214) cells in 1995 in Ireland. Several cell lines have since been used to grow the virus. In the present study, three established salmonid cell lines, Chum salmon heart -1 (CHH-1), CHSE-214 and Salmon head kidney -1 (SHK-1) were evaluated for their ability to support the isolation of SAV-1 from infected fish tissue, with CHH-1 cells giving the fastest cytopathic effect (CPE) during primary isolation. The CPE appeared as localised cell-rounding on CHH-1 and CHSE-214 cells, although in SHK-1 cells, the cells were seen to slough off the monolayer relatively later than with the other two cell lines during the infection. The host response to SAV infection was evaluated by experimentally infecting Atlantic salmon parr using a cell culture-adapted virus isolate. A quantitative reverse transcription polymerase chain reaction (qRT-PCR) was developed to examine the virus load in the fish, from which it was found that the highest viral RNA copy number was detected at 5 day post infection (d.p.i), of the 90 day experimental infection period. Characteristic pathological lesions were only seen in the pancreas and the heart but not in the skeletal muscles of the infected fish. A gene expression study using qRT-PCR revealed the rapid induction of interferon (INF) and INF-associated genes in the head kidney of the infected fish compared to the control fish. The Mx protein was found to be highly expressed in the heart and the mucous membranes of infected fish by immunohistochemistry. Interestingly, the pathological changes that were seen occurred some time after the peak expression of genes associated with the INF-1-pathway. When the host-virus interaction of Atlantic salmon infected with SAV was examined using a microarray, a potent first line defence response was observed, together with the signatures of early activation of the adaptive immune response during the initial stages of the infection. Genes associated with transcription, translation and lipid metabolism were significantly differentially expressed in virus infected fish compared to control fish. A large array of antiviral genes was significantly expressed, amongst which were some of the genes also described in mammalian alphavirus infections. Genes associated with apoptosis and anti-apoptosis were also seen to be differentially regulated showing the complexity of the host-virus interaction. Collectively, all of these findings suggest that a non-specific antiviral immune response takes place providing rapid immune protection during the early stages of SAV infection in salmon. In the study on morphogenesis of SAV in salmonid cells using electron microscopy (EM), a rapid internalization of virus into the cells and generation of replication complexes using the secretory pathway of the cell, similar to mammalian alphavirus replication was observed. The mature viruses were released through surface projections, acquiring envelopes from the host cell membrane. From the ultrastructural studies of the salmonid cells infected with SAV, a progressive chromatin marginalisation and condensation could be seen, leading to cellular fragmentation, forming membrane bound apoptotic bodies, characteristic of progressive apoptosis. The activation of caspase-3 in the cytoplasm and genomic DNA damage were also seen in the infected fish cells, indicating that apoptosis is the main cause of cell death during SAV infection. The results of this study have increased our knowledge and understanding of the cellular and molecular mechanisms involved in the pathogenesis of SAV infection, emphasising the importance of the first line defence mechanisms against SAV infection in salmon. This has given an interesting insight into the host mechanisms used to combat the virus during infection, and will undoubtedly be useful for designing new vaccines and management strategies for prevention and control of this important disease 636.089
208	The role of HLA-B27 in the pathogenesis of spondyloarthritis McHugh, Kirsty Anne January 2011 (has links) The Human Leukocyte Antigen (HLA)-B27 is a Major Histocompability Complex (MHC) class I antigen that is strongly associated with development of a group of closely related arthritic diseases, collectively known as the spondyloarthropathies (SpA). However, the mechanism by which HLA-B27 confers this susceptibility is unclear. Studies have shown that HLA-B27 heavy chains can form classical heterotrimers associated with peptide and β2-microglobulin (B27HT), and also non-classical heavy chain homodimers (B27₂). B27₂ assemble intracellularly during maturation and are also expressed at the cell surface following endosomal recycling of B27HT. A pathogenic role for B27₂ has been proposed in two of the current theories of pathogenesis: the B27 homodimer theory and the B27 misfolding and UPR theory. Yet, determinations of the extent, distribution, and triggers of B27₂ expression, as well as the functional consequences of its receptor interactions in AS pathogenesis, have been hampered by the lack of a specific detection reagent. Therefore, to investigate the role of B27₂ in AS, we generated a novel antibody to B27₂ – HD6 – using phage display technology, which binds to in vitro refolded B27₂ but not B27HT complexes by ELISA. This thesis provides evidence that HD6-reactive molecules, which include B27₂, are expressed at the cell surface in both cell lines and in the context of a disease setting. Recognition is B27-specific and strongly correlated with the magnitude of B27 expression, which could account for the lack of staining in some cell subsets. Moreover, staining was comparable in cell lines expressing the disease-associated B27:05 and the less disease-associated subtype B27:09. In addition, I have shown cells expressing physiologic levels of B27, including EBV-transformed BCLs and AS patient PBMCs, are capable of expressing the HD6 epitope upon low pH treatment. Interestingly, these ‘acid-inducible HD6’ molecules were absent from cells lacking a functional PLC. Finally, I have shown that HD6-reactive molecules can derive from pre-existing folding B27 molecules at the cell surface, which may be inhibited by the addition of exogenous B27-binding peptides. These findings are consistent with a mechanism of pathogenesis involving the surface expression and recognition of B27₂ and/or other aberrantly folded forms of B27, as proposed in the homodimer theory. HD6 will be a powerful tool to address the potential pathogenic role of B27₂ in SpA and may additionally have therapeutic potential. 616.723
209	Etude de la différence de susceptibilité des lentivirus de primates aux interférons de type I / Study of the different susceptibility of primate lentiviruses to type I Interferons Cordeil, Stéphanie 11 December 2012 (has links) Les IFN-I (interférons de type I), principalement IFN et , constituent un mécanisme de défense primordial de l’hôte contre les pathogènes. Pourtant, dans le cas du VIH-1 (virus de l’immunodéficience humaine), la relation entre les IFN-I et la réplication virale apparaît plus complexe. En effet, si les IFN-I inhibent la réplication du VIH-1 ex vivo, un état d’hyperactivation permanent de la réponse IFN-I a été récemment associé à la progression vers le SIDA ainsi qu’à une forte virémie chez les patients infectés par le VIH-1. De même, la dérégulation de la réponse IFN-I est un critère déterminant dans l’issue pathogénique de certains modèles d’infection virale chez le singe. Si l’hypothèse du rôle pathogénique des IFN-I s’avère correcte, le VIH-1 pourrait avoir évolué afin de se répliquer même en présence d’une telle réponse, qui semble être au final, plus délétère pour l’hôte que pour le virus. L’objectif de ce travail a été d’évaluer la résistance du VIH-1 aux IFN. Dans ce contexte, le VIH-1 a été comparé au VIH-2 et au SIVmac (virus de l’immunodéficience simienne), virus phylogénétiquement proches mais peu ou pas pathogènes pour l’homme, lors de l’infection de plusieurs types cellulaires tels que des lymphocytes, des macrophages et des cellules dendritiques. En accord avec l’hypothèse initiale de travail, les expériences réalisées ont montré que le VIH-1 est capable de se répliquer dans les cellules primaires prétraitées avec des doses d’IFN comparables à celles mesurées in vivo, alors que la réplication des virus VIH-2/SIVmac est complètement bloquée, même à des concentrations très faibles d’IFN. Ce travail a permis de démontrer que le blocage induit par l’IFN s’exerce au niveau des phases précoces de l’infection et plus précisément à l’étape de la transcription inverse. En effet, les données obtenues suggèrent que l’IFN induit l’expression d’un effecteur cellulaire qui affecte différentiellement la stabilité des complexes viraux, ce qui se traduit par un défaut d’accumulation de l’ADN viral plus important pour le VIH-2 et le SIVmac, que pour le VIH-1. La différence de susceptibilité des lentivirus de primates aux IFN-I pourrait ainsi expliquer en partie, les différents niveaux de réplication de ces virus, associés à leurs degrés de pathogénicité in vivo. / Type I Interferons (IFN-α/β, herein IFNs) provide an important mechanism of defense against pathogens and regulate in a paracrine and autocrine manner both intrinsic and adaptive immune responses. In the case of HIV-1 however, the relationship between IFNs and viral replication appears more complex. Indeed, if IFNs have been described to interfere with HIV-1 at basically all phases of its life cycle ex vivo, an IFN-induced state is linked to AIDS progression and to high viral loads in HIV-1 infected individuals. Similarly, a deregulated and prolonged IFN production/state seems one of the main distinguishing features between pathogenic and non-pathogenic SIV infection in primate animal models, suggesting that a deregulated IFN-state may be more detrimental to the host than to the virus itself in vivo.If this hypothesis is correct and if HIV-1 plays an active role in the perpetration of this antiviral state, it is possible that HIV-1 may have overall evolved to cope with this environment, remaining able to replicate despite it.To determine whether HIV-1 was better armed to replicate in the presence of an IFN-state environment than other primate lentiviruses, we compared HIV-1 to SIVmac and more importantly to HIV-2 that albeit capable of inducing AIDS in humans does so in a much less aggressive manner. In agreement with the initial hypothesis, our results indicate that HIV-1 is better fit to replicate in primary cells in the presence of amounts of IFN comparable to the ones measured in vivo, while the replication of HIV-2/SIVmac viruses is completely blocked even in the presence of low levels of IFN. By decorticating the effects of IFNs on the early and late phases of the viral life cycle in primary macrophages, we show here that the main target of the differential action of IFNs are the early phases of infection. More specifically, with time kinetics that we determine herein, IFNs induce cellular factor/s that differentially affect the stability of pre-reverse transcription complexes of HIV-2, but not of HIV-1. Our results could underlie a different evolutionary adaptation of primate lentiviruses to interferons that might be responsible for their different pathogenicity in vivo. Lentivirus de primate Interférons Pathogenèse lentivirale Macrophages Primate lentiviruses Interferons Lentiviral pathogenesis Macrophages
210	Role of colonic epithelial cells in susceptibility and severity of Citrobacter rodentium infection in mice Gart, Elena Vladimirovna January 1900 (has links) Master of Science / Department of Diagnostic Medicine/Pathobiology / Sanjeev K. Narayanan / Acute diarrhea induced by Escherichia coli is an important illness in humans, especially in children under age of two in developing countries. Citrobacter rodentium is used as murine model for E. coli infection in humans because it causes ultrastructural changes in murine colonic epithelium comparable to lesions produced by enteropathogenic E. coli (EPEC) and enterohemorrhagic E. coli (EHEC). Adult mice of many strains develop self-limiting epithelial hyperplasia when infected, whereas adult C3H and FVB mice are highly susceptible to infection and demonstrate mortality rates between 60 and 100% two weeks after infection. These susceptible strains of mice also have higher bacterial translocation to mesenteric lymph nodes. In mice, the cause of death could be hypovolemia due to dehydration that may occur due to an increase in paracellular permeability as well as dysregulation of apical and basolateral ion transporting proteins. C. rodentium virulence factors resemble those of E. coli and are believed to primarily alter tight junctions of colonic epithelial cells. Effectors delivered via the type III secretory system have been associated with actin condensation and pedestal formation. The exact mechanisms of C. rodentium infection, as well as changes that occur in vitro as well as in the intestine of various strains of mice are not completely understood. This study introduced a new in vitro Ptk6 cell line for C. rodentium infection, which can also serve as a model for EPEC in humans. Effect of C. rodentium on colonic epithelial cells of susceptible and resistant mice was determined in in vivo study. C. rodentium attached to Ptk6 colonic epithelial cells, inducing attaching and effacing (A/E) lesions and loss of monolayer integrity, which charachterizes this cell line as a relevant in vitro model of C. rodentium and EPEC infections. Murine studies revealed that C. rodentium induced more severe disease and 100% mortality in juvenile C3H mice whereas Swiss Webster (SW) mice expressed only moderate morbidity. The colonic lesions and changes in barrier function of colonic epithelium were more prominent in C3H mice. This study determined potential targets in the murine colon that play role the establishment and the outcome of the infection, indicating multifactorial nature of C. rodentium-induced diarrhea. This study identified host factors involved in the initiation of C. rodentium-associated diarrhea and the outcome of infection, which can be useful in developing of novel strategies for preventing and treatment of infectious colitis. Enteropathogenic E. coli infection model C. rodentium susceptibility C. rodentium pathogenesis Microbiology (0410) Molecular Biology (0307)

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