255 resultados para INFECTIVITY
Resumo:
Certain fungi have been found frequently as saprophytes in areas containing large amounts of bird excreta. These fungi have the ability to survive, multiply, and cause disease once they have entered a host. Two of these are Crypto-coccus neoformans and Histoplasma capsulatum. Both may easily become airborne and be disseminated throughout an area by the prevailing winds. C. neo-formans is commonly isolated from the excreta of pigeon habitats, and in turn has been associated with clinical cases of cryptococcosis, while blackbird roosts, harboring H. capsulatum, have been responsible for several outbreaks of histoplasmosis. When either of these fungi have become established in nature, the sites may become foci for infection and epidemics may occur if the sites are disturbed. This has led to investigation of these organisms with respect to: 1) the frequency of isolation of H. capsulatum from the soil beneath blackbird roosts in a histoplasmosis endemic area; 2) the infectivity of undisturbed roosts positive for H. capsulatum; and 3) the effectiveness of chemical decontamination of areas containing C. neoformans or H. capsulatum.
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This theoretical study proposes a reflection on the intrinsic resistance of the subclass Coccidia, particularly the genus Cryptosporidium, considered to be potential pathogens for immunocompromised patients, and the implications for nursing practice. Currently, the international and national guidelines support the chemical disinfection of digestive system endoscopes after their cleansing as a safe and effective procedure. However, studies show that microorganisms of the subclass Coccidia, namely Cryptosporidium, responsible for enteric infection, are more resistant than mycobacteria and are not inactivated by high-level disinfectants, except for hydrogen peroxide 6% and 7.5%, which are not currently available in Brazil. We conclude that the legislation should include this agent among test microorganisms for approving high-level disinfectants. Health authorities should make efforts to ensure that healthcare institutions have access to effective disinfectants against Cryptosporidium.
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The innate immune response of insects is one of the factors that may dictate their susceptibility to viral infection. Two immune signaling pathways, Toll and JAK-STAT, and the RNA interference (RNAi) pathway are involved in Aedes aegypti responses against dengue virus (DENV), however natural differences in these antiviral defenses among mosquito populations have not been studied. Here, two field Ae. aegypti populations from distinct ecological environments, one from Recife and the other from Petrolina (Brazil), and a laboratory strain were studied for their ability to replicate a primary isolate of dengue virus serotype 2 (DENV-2). Virus infectivity and replication were determined in insect tissues collected after viral exposure through reverse-transcription real time PCR (RT-PCR). The expression of a transcript representing these defense mechanisms (Toll, JAK-STAT and RNAi) in the midgut and fat body was studied with RTPCR to evaluate variations in innate immune mechanisms possibly employed against DENV. Analyses of infection rates indicated that the field populations were more susceptible to DENV-2 infection than the lab strain. There were distinct expression patterns among mosquito populations, in both control and infected insects. Moreover, lower expression of immune molecules in DENV-2-infected insects compared to controls was observed in the two field populations. These results suggest that natural variations in vector competence against DENV may be partly due to differences in mosquito defense mechanisms, and that the down-regulation of immune transcripts after viral infection depends on the insect strain. (C) 2012 Elsevier B.V. All rights reserved.
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Background: Parasites of the Leishmania genus alternate between the flagellated extracellular promastigote stage and intracellular amastigotes. Here we report the characterization of a Leishmania isolate, obtained from a cutaneous leishmaniasis patient, which presents peculiar morphological features. Methods: The parasite was cultured in vitro and characterized morphologically using optical and electron microscopy. Identification was performed based on monoclonal antibodies and internal ribosomal spacer typing. In vitro macrophage cultures, murine experimental models and sand fly infections were used to evaluate infectivity in vitro and in vivo. Results: The isolate was identified as Leishmania (Viannia) braziliensis. In the atypical promastigotes grown in culture, a short flagellum surrounded or interrupted by a protuberance of disorganized material was observed. A normal axoneme was present close to the basal body but without elongation much further outside the flagellar pocket. A disorganized swelling at the precocious end of the axoneme coincided with the lack of a paraflagellar rod structure. The isolate was able to infect macrophages in vitro, induce lesions in BALB/c mice and infect Lutzomyia longipalpis. Conclusions: Notwithstanding the lack of an extracellular flagellum, this isolate infects macrophages in vitro and produces lesions when inoculated into mice. Moreover, it is able to colonize phlebotomine sand flies. Considering the importance attributed to the flagellum in the successful infection and survival of Leishmania in the insect midgut and in the invasion of macrophages, these findings may bring new light into the infectious mechanisms of L. (V.) braziliensis.
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TSSA (trypomastigote small surface antigen) is a polymorphic mucin-like molecule displayed on the surface of Trypanosoma cruzi trypomastigote forms. To evaluate its functional properties, we undertook comparative biochemical and genetic approaches on isoforms present in parasite stocks from extant evolutionary lineages (CL Brener and Sylvio X-10). We show that CL Brener TSSA, but not the Sylvio X-10 counterpart, exhibits dose-dependent and saturable binding towards non-macrophagic cell lines. This binding triggers Ca2+-based signalling responses in the target cell while providing an anchor for the invading parasite. Accordingly, exogenous addition of either TSSA-derived peptides or specific antibodies significantly inhibits invasion of CL Brener, but not Sylvio X-10, trypomastigotes. Non-infective epimastigote forms, which do not express detectable levels of TSSA, were stably transfected with TSSA cDNA from either parasite stock. Although both transfectants produced a surface-associated mucin-like TSSA product, epimastigotes expressing CL Brener TSSA showed a similar to 2-fold increase in their attachment to mammalian cells. Overall, these findings indicate that CL Brener TSSA functions as a parasite adhesin, engaging surface receptor(s) and inducing signalling pathways on the host cell as a prerequisite for parasite internalization. More importantly, the contrasting functional features of TSSA isoforms provide one appealing mechanism underlying the differential infectivity of T. cruzi stocks.
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BACKGROUND AND PURPOSE Independent studies in experimental models of Trypanosoma cruzi appointed different roles for endothelin-1 (ET-1) and bradykinin (BK) in the immunopathogenesis of Chagas disease. Here, we addressed the hypothesis that pathogenic outcome is influenced by functional interplay between endothelin receptors (ETAR and ETBR) and bradykinin B2 receptors (B2R). EXPERIMENTAL APPROACH Intravital microscopy was used to determine whether ETR/B2R drives the accumulation of rhodamine-labelled leucocytes in the hamster cheek pouch (HCP). Inflammatory oedema was measured in the infected BALB/c paw of mice. Parasite invasion was assessed in CHO over-expressing ETRs, mouse cardiomyocytes, endothelium (human umbilical vein endothelial cells) or smooth muscle cells (HSMCs), in the presence/absence of antagonists of B2R (HOE-140), ETAR (BQ-123) and ETBR (BQ-788), specific IgG antibodies to each GPCRs; cholesterol or calcium-depleting drugs. RNA interference (ETAR or ETBR genes) in parasite infectivity was investigated in HSMCs. KEY RESULTS BQ-123, BQ-788 and HOE-140 reduced leucocyte accumulation in HCP topically exposed to trypomastigotes and blocked inflammatory oedema in infected mice. Acting synergistically, ETAR and ETBR antagonists reduced parasite invasion of HSMCs to the same extent as HOE-140. Exogenous ET-1 potentiated T. cruzi uptake by HSMCs via ETRs/B2R, whereas RNA interference of ETAR and ETBR genes conversely reduced parasite internalization. ETRs/B2R-driven infection in HSMCs was reduced in HSMC pretreated with methyl-beta-cyclodextrin, a cholesterol-depleting drug, or in thapsigargin-or verapamil-treated target cells. CONCLUSIONS AND IMPLICATIONS Our findings suggest that plasma leakage, a neutrophil-driven inflammatory response evoked by trypomastigotes via the kinin/endothelin pathways, may offer a window of opportunity for enhanced parasite invasion of cardiovascular cells.
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Four glycoproteins (gD, gB, gH, and gL) are required for herpes simplex virus (HSV) entry into the cell and for cell-cell fusion in transfected cells. gD serves as the receptor-binding glycoprotein and as the trigger of fusion; the other three glycoproteins execute fusion between the viral envelope and the plasma or endocytic membranes. Little is known on the interaction of gD with gB, gH, and gL. Here, the interactions between herpes simplex virus gD and its nectin1 receptor or between gD, gB, and gH were analyzed by complementation of the N and C portions of split enhanced green fluorescent protein (EGFP) fused to the glycoproteins. Split EGFP complementation was detected between proteins designated gDN + gHC, gDN + gBC, and gHN + gBC + wtgD, both in cells transfected with two or tree glycoproteins and in cells transfected with the four glycoproteins, commited to form syncytia. The in situ assay provides evidence that gD interacts with gH and gB independently one of the other. We further document the interaction between gH and gB. To elucidate which portions of the glycoproteins interact with each other we generated mutants of gD and gB. gD triggers fusion through a specialised domain, named pro-fusion domain (PFD), located C-terminally in the ectodomain. Here, we show that PFD is made of subdomains 1 and 2 (amino acids 260–285 and 285–310) and that each one partially contributed to herpes simplex virus infectivity. Chimeric gB molecules composed of HSV and human herpesvirus 8 (HHV8) sequences failed to reach the cell surface and to complement a gB defective virus. By means of pull down experiments we analyzed the interactions of HSV-HHV8 gB chimeras with gH or gD fused to the strep-tag. The gB sequence between aa residues 219-360 was identified as putative region of interaction with gH or critical to the interaction.
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Herpes simplex virus 1 (HSV-1) infects oral epitelial cells, then spreads to the nerve endings and estabilishes latency in sensory ganglia, from where it may, or may not reactivate. Diseases caused by virus reactivation include mild diseases such as muco-cutaneous lesions, and more severe, and even life-threatening encephalitis, or systemic infections affecting diverse organs. Herpes simplex virus represents the most comprehensive example of virus receptor interaction in Herpesviridae family, and the prototype virus encoding multipartite entry genes. In fact, it encodes 11-12 glycoproteins and a number of additional membrane proteins: five of these proteins play key roles in virus entry into subsceptible cells. Thus, glycoprotein B (gB) and glycoprotein C (gC) interact with heparan sulfate proteoglycan to enable initial attachment to cell surfaces. In the next step, in the entry cascade, gD binds a specific surface receptor such as nectin1 or HVEM. The interaction of glycoprotein D with the receptor alters the conformation of gD to enable the activation of gB, glycoprotein H, and glycoprotein L, a trio of glycoproteins that execute the fusion of the viral envelope with the plasma membrane. In this thesis, I described two distinct projects: I. The retargeting of viral tropism for the design of oncolytic Herpesviruses: • capable of infecting cells through the human epitelial growth factor receptor 2 (HER2), overexpressed in highly malignant mammary and ovarian tumors and correlates with a poor prognosis; • detargeted from its natural receptors, HVEM and nectin1. To this end, we inserted a ligand to HER2 in gD. Because HER2 has no natural ligand, the selected ligand was a single chain antibody (scFv) derived from MAb4D5 (monoclonal antibody to HER2), herein designated scHER2. All recombinant viruses were targeted to HER2 receptor, but only two viruses (R-LM113 and R-LM249) were completely detargeted from HVEM and nectin1. To engineer R-LM113, we removed a large portion at the N-terminus of gD (from aa 6 to aa 38) and inserted scHER2 sequence plus 9-aa serine-glycine flexible linker at position 39. On the other hand, to engineer R-LM249, we replaced the Ig-folded core of gD (from aa 61 to aa 218) with scHER2 flanked by Ser-Gly linkers. In summary, these results provide evidence that: i. gD can tolerate an insert almost as big as gD itself; ii. the Ig-like domain of gD can be removed; iii. the large portion at the N-terminus of gD (from aa 6 to aa 38) can be removed without loss of key function; iv. R-LM113 and R-LM249 recombinants are ready to be assayed in animal models of mammary and ovary tumour. This finding and the avaibility of a large number of scFv greatly increase the collection of potential receptors to which HSV can be redirected. II. The production and purification of recombinant truncated form of the heterodimer gHgL. We cloned a stable insect cell line expressing a soluble form of gH in complex with gL under the control of a metalloprotein inducible promoter and purified the heterodimer by means of ONE-STrEP-tag system by IBA. With respect to biological function, the purified heterodimer is capable: • of reacting to antibodies that recognize conformation dependent epitopes and neutralize virion infectivity; • of binding a variety cells at cell surface. No doubt, the availability of biological active purified gHgL heterodimer, in sufficient quantities, will speed up the efforts to solve its crystal structure and makes it feasible to identify more clearly whether gHgL has a cellular partner, and what is the role of this interaction on virus entry.
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Parapoxvirus (PPV) are member of a genus in the family poxviridae which currently encompasses four species: the prototype orf virus (OV), bovine papular stomatitis virus (BPSV), pseudocowpox virus (PCPV) and parapoxvirus of New Zealand red deer (PVNZ). PPVs cause widespread, but localized diseases of small and large ruminants and they can also be transmitted to man. Knowledge of the molecular biology of PPV is still limited as compared to orthopoxviruses, especially vaccinia virus (VACV). The PPV genome displays a high G+C content and relatively small size for poxvirus. Coventional electron microscopy displays PPV virions with ovoid shape and slightly smaller in size than the brickshaped orthopoxviruses. The most striking feature, which readily enables identification of PPV, is a tubule-like structure that surrounds the particle in a spiral fashion. PPV genome organization and content is very similar to that of other poxviruses, the central region contain 88 genes which are present in all poxviruse, in contrast the terminal regions are variable and contain a set of genes unique to the genus PPV. Genes in the near-terminal regions of the genome are frequently not essential for growth in cultured cells encoding factors with important roles in virushost interactions including modulating host immune responses and determining host range. Recently it was suggested that the open reading frames (ORFs) 109 and 110 of the OV genome have a major role in determining species specificity during natural infection in sheep and goats. This hypothesis is based on the analysis of a few number of sequences of different sheep and goats viral isolates. PPV replicate into the cytoplasm of infected cells and produce three structurally different infectious particles: the intracellular mature virions (IMV), intracellular enveloped virions (IEV) and the extracellular enveloped virions (EEV). The vaccinia A33R and A34R hotologue proteins encoded by the ORFS 109 and 110 are expressed in the envelope of the IEV and EEV. The F1L immunodominant protein of orf virus is the major component of the surface tubule structure of the IMV and can post-translationaly insert into membranes via Cterminal, hydrofobic anchor sequence like its orthologue VACV H3L protein. Moreover the F1L protein binds to glycosaminoglycans on the cell surface and has an important role in IMV adsorption to mammalian cells. In this study we investigated the morphogenesis of the PPV through the construction of a mutant virus deleted of the F1L protein. A study of the deleted virus life cycle was conducted in different type of cells and its morphology was observed with electron microscopy. It was demonstared that F1L protein have important role in morphogenesis and infectivity. Moreover it is essential to determine the spiral fashion of the tubule like structure of the virion surface. Some pathogenetic aspects of the PPV infection were studied, in particular the protein implicated in the host range were analysed in detail. An experimental infection with OV and PCPV was conducted in goats and sheep. After infection, the severity of the lesions were comparable in both the animal species. The OV did not result in severe disease neither in sheep nor in goats, suggesting that host factors, rather than virus strain characteristics, may play an important role in the pathogenesis of the Parapoxvirus infections. The PCPV failed to produce any lesion in both sheep and goats, ruling out the possibility of any recombination between PCPV and OV during natural infection in these animal species. The phylogenetic analysis of the ORFs 109 and 110 from several goats and sheep viral isolates showed a clustering based on the antigenic content of the protein that was independent from species and geographic origin.
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Zusammenfassung:Im Infektionszyklus des Hepatitis-B-Virus spielt das große L-Hüllprotein mit seiner einzigartigen PräS1-Domäne eine zentrale Rolle. Es vermittelt die Bindung und Aufnahme in die Leberzelle, die Verpackung der Nukleokapside in die Virushülle, die Regulation der cccDNA-Amplifikation und eine transkriptionelle Aktivierung in der Wirtszelle. Zur Erfüllung seiner vielfältigen Aufgaben benötigt das L-Protein Unterstützung durch Wirtzellfaktoren, von denen einige im Rahmen dieser Untersuchung durch Verwendung von PräS1-Konstrukten als Fängerproteine im Hefe-Zwei-Hybrid-System identifiziert wurden. Mehrere Klone, die im Hefe-Zwei-Hybrid-Test mit dem C-terminalen PräS1-Fängerprotein (Aminosäure 44-108) isoliert worden waren, enthielten Teile der cDNA von gamma2-Adaptin, einem mutmaßlichen Mitglied der Clathrin-Adaptor-Proteine. Diese sind für intrazelluläre Membrantransportprozesse mittels clathrinumhüllter Vesikel verantwortlich. Unter den interagierenden Klonen, die mit dem N-terminalen Konstrukt des L-Proteins (Aminosäure 1-70) isoliert worden waren, befand sich überproportional häufig eine cDNA, die der schweren Kette H4 der Inter-Alpha-Trypsin-Inhibitor-Familie homolog war. H4 besitzt vermutlich bei der 'Akute-Phase-Reaktion', die Entzündungen folgt, und bei der Stabilisierung der extrazellulären Matrix physiologische Bedeutung. Weitere Klone kodierten für die Serinprotease C1r. Diese ist Bestandteil des C1-Komplex, der ersten Komponente des klassischen Komplementsystems. Die Spezifität der Bindung zwischen den positiven Klonen und der PräS1-Domäne wurde in weiteren biochemischen Interaktionstests bestätigt, sodaß H4, C1r und gamma2-Adaptin als Wirtszellfaktoren in der Physiologie des Hepatitis-B-Virus wahrscheinlich eine Rolle spielen.Abstract:Little is known about host cell factors necessary for hepatitis B virus assembly and infectivity. Central to virogenesis is the large L envelope protein that mediates hepatocyte receptor binding, envelopment of viral capsids, regulation of supercoiled DNA amplification and transcriptional transactivation. To assess its multiple functions and host-protein assistance involved, we here initiated a yeast two-hybrid screen using the L-specific preS1 domain as bait to screen a human liver cDNA library for L-interacting proteins. One of the most prominent cDNAs interacting with aminoacid sequence 44-108 of L-protein encodes for gamma2-adaptin, a novel clathrin adaptor-related protein responsible for protein sorting and trafficking. Among the clones interacting with the N-terminal construct of L-protein (aminoacid sequence 1-70), a frequently isolated cDNA corresponds to the gene for inter-alpha-trypsin family heavy chain H4, likely to be involved in acute inflammatory phase response and stabilization of extracellular matrices. Some other interacting clones were found to carry the cDNA for the serine protease C1r, a subunit of the C1 complex which initiates the classical complement cascade. The specificity of the interaction between the positive clones and the preS1 domain was further confirmed in independent biochemical experiments. Taken together, the results suggest a role for H4, C1r and gamma2-adaptin as host-cell factors in L-mediated process of viral biogenesis and/or pathogenesis.
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Die Rolle der DNA-Bindungsdomäne der Kapsidproteine L1 und L2 humaner Papillomviren (HPV) wird bezüglich der in vitro DNA-Verpackung kontrovers diskutiert und ist für die in vivo DNA-Verpackung noch ungeklärt. Ich konnte zeigen, dass die L1 Proteine der HPV Typen 16, 18 und 33 DNA binden, nicht aber das HPV33 L2 Protein. Die DNA-Bindungsdomäne habe ich auf die letzten sieben Aminosäuren des Carboxyterminus eingegrenzt. In Funktionsanalysen zeigte ich, dass die DNA-Bindungsdomäne des L1 Proteins für den Einschluss von Markerplasmid DNA in Kapside in einem in vivo Ansatz essentiell ist, nicht aber für eine in vitro DNA-Verpackung. Das L2 Protein, das in Kapside eingebaut wurde, denen die L1 DNA-Bindungsdomäne fehlte, konnte die DNA-Verpackung nicht aufrechterhalten.Zusätzlich habe ich die Infektiösität in vitro und in vivo hergestellter DNA-haltiger Kapside (Pseudovirionen) verglichen. Dabei konnte ich zeigen, dass in vivo gewonnene Pseudovirionen, die DNA in Form von Chromatin enthalten, bis zu fünffach infektiöser sind als Pseudovirionen, die in vitro hergestellt wurden und histonfreie DNA enthalten. Biochemische und strukturelle Unterschiede konnten zwischen den zwei Arten von Pseudovirionen nicht festgestellt werden. Chromatin scheint demzufolge die Infektiösität der Pseudovirionen zu verstärken.
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As proviral human immunodeficiency virus type 1 (HIV-1) DNA can replenish and revive viral infection upon attivation, its analysis, in addition to RNA viral load, could be considered a useful marker during the follow-up of infected individuals, to evaluate reservoir status, especially in HAART-treated patients when RNA viral load is undetectable by current techniques and the antiretroviral efficacy of new, more potent therapeutic regimens. Standardized methods for the measurement of the two most significant forms of proviral DNA, total and non-integrated, are currently lacking, despite the widespread of molecular biology techniques. In this study, total and 2-LTR HIV-1 DNA proviral load, in addition to RNA viral load, CD4 cell count and serological parameters, were determined by quantitative analysis in peripheral blood mononuclear cells (PBMC) in naïve or subsequently HAART-treated patients with acute HIV-1 infection in order to establish the role of these two DNA proviral forms in the course of HIV infection. The study demonstrated that HAART-treated individuals show a significant decrease in both total and 2-LTR circular HIV-1 DNA proviral load compared with naïve patients: these findings confirm that HIV-1 reservoir decay correlates with therapeutic effectiveness. The persistence of small amounts of 2-LTR HIV-1 DNA form, which is considered to be a molecular determinant of infectivity, in PBMC from some patients demonstrates that a small rate of replication is retained even when HAART is substantially effective: HAART could not eradicate completely the infection because HIV is able to replicate at low levels. Plasma-based viral RNA assays may fail to demonstrate the full extent of viral activity. In conclusion, the availability of a new standardized assay to determine DNA proviral load will be important in assessing the true extent of virological suppression suggesting that its quantification may be an important parameter in monitoring HIV infection.
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In 99,7% aller Zervixkarzinome kann die DNA humaner Papillomviren (HPV) nachgewiesen werden, die somit den Hauptauslöser für eine der häufigsten Krebserkrankungen bei Frauen weltweit darstellen. HPV16 ist verantwortlich für etwa 50% aller Zervixkarzinome. Für die Infektion von Zellen mit HPV16 ist die Interaktion mit Heparansulfatproteoglykanen der Zelloberfläche essentiell. Um Aminosäuren auf der Oberfläche des majoren Kapsidproteins L1 von HPV16 zu identifizieren, die zu dieser Interaktion beitragen, wurden im Rahmen dieser Arbeit zahlreiche Punktmutanten hergestellt und analysiert. Der Austausch der drei Lysine K278, K356 und K361 zu Alaninen führte zu signifikant verminderter Zell-, Heparin- und Heparansulfatbindung, die noch weiter reduziert wurde, wenn zwei oder drei der Lysine gleichzeitig mutiert waren. Auch die Infektiosität der mutanten Pseudovirionen war stark beeinträchtigt, die Trippelmutante zeigte nur noch 5% Infektiosität. Diese Ergebnisse demonstrieren, dass die drei Lysine gemeinsam die Bindestelle für Heparansulfate bilden. Ihr Austausch zu Argininen beeinflusste die Infektiosität der Partikel hingegen nicht, was bestätigt, dass die Interaktion mit Heparansulfaten von der positiven Ladungsdichte abhängt und nicht sequenzspezifisch ist. Die drei Lysine befinden sich auf der Spitze des HPV16-Kapsomers in einer flachen Tasche, die aufgrund ihrer Struktur bereits früher als potentielle Rezeptorbindestelle vorgeschlagen wurde. Fab-Fragmente des bindungsneutralisierenden Antikörpers H16.56E, dessen Epitop in direkter Nachbarschaft der Lysine liegt, inhibierten die heparansulfatvermittelte Zellbindung viraler Partikel. Auch Epitope anderer bindungsneutralisierender Antikörper befinden sich in der Nähe. Dies untermauert die Hypothese, dass die Lysine K278, K356 und K361 die Heparansulfatbindestelle von HPV16 bilden. Der Austausch von Threoninen, die genau zwischen den Lysinen liegen, hatte keine Auswirkung auf Bindung der Partikel und Infektiosität. Sie könnten jedoch durch die Bildung von Wasserstoffbrücken die Bindung an Heparansulfat stabilisieren. Die Bedeutung der Lysine K278, K356 und K361 bei der primären Interaktion von HPV16 mit Heparansulfaten konnte durch die Computersimulation der Interaktion der Virusoberfläche mit einem Heparinmolekül bestätigt werden. Des Weiteren konnten Anforderungen ermittelt werden, die eine solche Interaktion an das Heparinmolekül stellt. Weiterhin zeigten die Ergebnisse dieser Arbeit, dass basische Aminosäuren in der interkapsomeren Grube nicht an der primären Zellbindung an Heparansulfate beteiligt zu sein scheinen, aber eine Rolle bei sekundären Interaktionen mit der Zelloberfläche spielen könnten.
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Das minore Kapsidprotein L2 humaner Papillomviren wird im Laufe des HPV-Lebenszyklus zweimal in den Zellkern importiert und akkumuliert dort an den Nukleären Domänen 10 (ND10). Der erste Kernimport erfolgt in der frühen Phase der Infektion zusammen mit der Virus-DNA. Für den Zusammenbau von Virionen wird neu synthetisiertes L2-Protein ein weiteres Mal in den Kern transportiert. Im Rahmen dieser Arbeit konnte die Domäne von L2 identifiziert werden, die für den Kernimport von HPV16 L2 absolut notwendig ist. Dabei gelang es diesen Bereich auf 25 Aminosäuren einzuengen. Sowohl während der frühen Phase der Infektion als auch während der Morphogenese scheint die zentrale, basische Aminosäureregion 291-315 (mNLS) hauptverantwortlich für die Interaktion mit Kernimportrezeptoren zu sein. Möglicherweise leisten dabei flankierende Sequenzen einen Beitrag zur Stabilisierung der notwendigen Konformation. Des Weiteren gelang die Identifizierung der Aminosäuren, die für die Funktionalität des mNLS essentiell sind. Hierbei handelt es sich um ein zentrales Arginin-Motiv, bestehend aus vier dicht beieinander liegenden Argininen, dessen Mutation den Kernimport von L2 während Infektion und Morphogenese verhindert. Untersuchungen mit HPV16 und HPV18 L2-Proteinen verdeutlichten, dass es möglicherweise ein universelles Motiv zu sein scheint und in verschiedenen HPV-Typen konserviert ist. Flankiert wird dieses Arginin-Motiv von konservierten Serinen und Threoninen. Wie die Analyse von Punktmutationen zeigte, sind diese Aminosäuren für den Kernimport von L2 ohne Bedeutung. Interessanterweise verhinderte aber die Mutation TS295/6A die Kolokalisation von L2 mit ND10 im Zellkern. L2wt rekrutiert den transkriptionellen Regulator Daxx. Auch diese Funktion ging bei der Mutante TS295/6A verloren. Diese Ergebnisse zeigen, dass nicht nur die ND10-Lokalisationsdomäne (AS 390-420) in L2 sondern auch weitere Aminosäuren oder Domänen für die Assoziation mit ND10 und die Rekrutierung von Daxx verantwortlich sein könnten. Auf der Suche nach zellulären Faktoren, die eine Rolle im mNLS-vermittelten Kernimport spielen, wurde zunächst die Bedeutung von Hsc70 untersucht. Während der Morphogenese maskiert Hsc70 den C-Terminus von L2 und verhindert damit unerwünschte Interaktionen mit Mikrotubuli im Zytoplasma. Es existieren aber weitere noch unbekannte Hsc70-Bindedomänen in L2, die möglicherweise den Kernimport ebenfalls beeinflussen können. Wie die Untersuchungen deutlich machten, ist der zentrale, basische Bereich von L2 aber nicht mit Hsc70 assoziiert und der mNLS-vermittelte Kernimport findet unabhängig von Hsc70 statt. In einem siRNA-Screen wurde anschließend die Rolle von Karyopherinen während der Infektion untersucht. Sowohl Kapß2-siRNA als auch Kapß3-siRNA waren in der Lage unabhängig voneinander die Infektion von HPV16-Pseudovirionen zu reduzieren. Für beide Karyopherine konnte in der Vergangenheit in vitro die Interaktion mit HPV16 L2 nachgewiesen werden. Das L2-Protein ist das einzige virale Protein, das während der Infektion die Virus-DNA in den Kern begleitet (Day et al., 2004). Demzufolge ist es auch das einzige virale Protein, das mit Importinen während der Infektion interagiert. Möglicherweise sind also beide Karyopherine in der Lage sein L2 während der Infektion in den Kern zu importieren. Abschließend wurden Präzipitationsversuche durchgeführt, die zur Identifizierung möglicher Bindungspartner des mNLS führen sollten. In diesen Versuchen konnte eine erhöhte Bindungsaffiniät zu den beiden Importinen Kapß1 und Kapß2 festgestellt werden. Möglicherweise ist das L2-Protein mit seiner mNLS in der Lage mehrere Importrezeptoren zu binden und für den Kernimport zu nutzen. Eines dieser Importine ist Kapß2. Dieser Importrezeptor scheint sowohl bei der Infektion als auch während der Morphogenese den Kernimport von L2 durch die Bindung an das mNLS zu vermitteln.
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Il lavoro svolto durante questa tesi di dottorato pone le basi per lo sviluppo di nuove biotecnologie della micorrizazione di piante forestali con tartufi pregiati ed in particolare con Tuber magnatum. Durante questa tesi è stato possibile isolare e mantenere in coltura pura il micelio di T. magnatum, ad ottenere e descrivere le sue micorrize e quelle di altri tartufi “bianchi” (T. oligospermum, T. borchii) e a seguire l’evoluzione del micelio nel suolo utilizzando la tecnica della real time PCR. Sono stati disegnati primer specie specifici in grado di identificare T. oligospermum ed è stata verificata la possibiltà di utilizzare questi primers in PCR multiplex con quelli specifici di T. magnatum e di T. borchii già presenti in bibliografia, al fine di “scovare” sia frodi nella commercializzaione degli ascomi sia eventuali contaminazioni nelle piante micorrizate. Per migliorare lo sviluppo miceliare di tartufo abbiamo si è cercato di migliorare il mezzo nutritivo per la crescita del micelio utilizzando: fonti di carbonio diverse, estratti radicali di nocciolo e singole frazioni separate dagli stessi. Infine sono stati sviluppati protocolli di crioconservazione per miceli di tartufo. Gli estratti radicali sono in grado di stimolare le crescita miceliare del tartufo modello T. borchii e dimodificarne la morfologia ifale. Questo risultati sono stati confermati anche dall’aumento dell’espressione di geni CDC42 e Rho-GDI, due geni legati alla crescita apicale polarizzata delle ife dei funghi filamentosi. Inoltre è stato dimostrato che il mantenimento in coltura per numerosi anni dei miceli di tartufo provoca una perdita della capacità d’infettare le radici delle piante e quindi il loro potenziale utilizzo sia a scopo sperimentale sia a scopo colturale. Questo pone in risalto l’importanza della conservazione a lungo termine del materiale biologico a disposizione ed è stato dimostrato che la crioconservazione è applicabile con successo anche alle specie del genere Tuber.
