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The Global ETD Search service is a free service for researchers
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Showing 1 to 10 of 13 (0.038 seconds)Spelling suggestions: "subject:"immunology -- 3research."" "subject:"immunology -- 0research.""
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STUDIES ON THE RELATIONSHIP OF IMMUNE INDUCTION OF INTERFERON AND CELL-MEDIATED IMMUNITYWallen, William Charles, 1943- January 1972 (has links)
No description available.
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Interferon induction by Diplococcus pneumoniae in miceCarpenter, Dell Ronkowski, 1930- January 1971 (has links)
No description available.
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Immunological response of Leptospira pomona bacterin in laboratory animalsMurti, Gadde Satyanarayana. January 1959 (has links)
Call number: LD2668 .T4 1959 M88
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Immunopathology and virulence evolution in rodent malariaLong, Gráinne Helen January 2007 (has links)
From an evolutionary perspective, natural selection is expected to maximize transmission to new hosts. If a live, mobile host often benefits parasite transmission, the question arises as to why malaria parasites are virulent? The favoured trade-off view of virulence evolution assumes that virulence arises as an unavoidable consequence of parasite resource exploitation within the host that is necessary to maximise parasite transmission. However, virulence is not always a simple function of parasite density and can arise as a result of immune-mediated virulence (immunopathology). This thesis explores how immunopathology contributes to virulence on the one hand, and parasite transmission on the other, in order to improve our understanding of parasite virulence evolution. In tackling this question, the role parasite genetic diversity plays in determining immunopathology induced during malaria infection was also addressed. Using the rodent malaria Plasmodium chabaudi chabaudi (P.c.c.) in C57BL/6 mice, I explored whether immune factors – in terms of specific host cytokines central to the protection-pathology balancing act of the immune response elicited against malaria parasites – help to determine the virulence induced during infection with genetically distinct parasites, and if so, what effect this may have on transmission-stage parasites. I showed that the cytokine milieu induced by P.c.c. parasites during primary infection varies with parasite genotype and that virulence can arise independent of parasite density, via immunopathology. Specifically, I showed propensity to induce the pro-inflammatory cytokine tumour necrosis factor [TNF]-a contributes to the virulence induced, regardless of P.c.c. clone. Importantly, I also showed that across P.c.c. genotype, TNF-a reduces the density of transmission-stage parasites. Thus, virulence is not always a simple function of parasite replication, having an immune-mediated component which acts to reduce transmission potential. The importance of parasite genotype in determining the degree of immunopathological virulence induced during malaria infection was revealed by studying the anti-inflammatory arm of the immune response. The extent to which the anti-inflammatory cytokines interleukin [IL]-10 or transforming growth factor [TGF]-b limited the immunopathology induced during P.c.c. infection depended on parasite clone. In addition, parasite genotype played a key role in determining how such anti-inflammatory manipulations affected the density of transmission-stage parasites; being detrimental, beneficial or incidental to parasite fitness, depending on P.c.c. clone. Although the general mechanisms of immune regulation are qualitatively unchanged across distinct P.c.c. clones, these data emphasize the importance of parasite genotype: distinct clones differ quantitatively in immune regulation, which contributes towards their distinct virulence and fitness schedules. Overall, I found that even within a parasite species – in this case P. chabaudi – the effect of immunopathology on the virulence-transmissibility relationship may be genetically variable and may not conform to that predicted by the trade-off hypothesis, having the potential to alter the costs and benefits of virulence, depending on parasite genotype. Thus, the host immune response may play a role shaping virulence evolution and defining the limit to malaria virulence in nature.
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THE EFFECT OF CAFFEINE ON ANTIBODY PRODUCTIONLaux, David Charles, 1945- January 1972 (has links)
No description available.
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The effects of a synthetic inducer of interferon (polyriboinosinic acid-polyribocytidylic acid) on a synergistic combination of influenza virus and Diplococcus pneumoniae in miceMiller, Robert Donald, 1945- January 1972 (has links)
No description available.
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Immunological studies of harvester ants in Tucson, ArizonaWang, Tien Min, 1950- January 1975 (has links)
No description available.
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INTERACTION OF TOBACCO MOSAIC VIRUS AND ITS PROTEIN SUBUNIT WITH RABBIT ALVEOLAR MACROPHAGESThompson, Sue Howle, 1922- January 1971 (has links)
No description available.
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Sickness-induced cognitive dysfunction : molecular, physiological, and behavioural correlatesThomson, Lisa, University of Lethbridge. Faculty of Arts and Science January 2004 (has links)
No abstract available / ix, 115 leaves : ill. (some col.) ; 29 cm.
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Vaccinia Virus Binding and Infection of Primary Human LeukocytesByrd, Daniel James January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Vaccinia virus (VV) is the prototypical member of the orthopoxvirus genus of the Poxviridae family, and is currently being evaluated as a vector for vaccine development and cancer cell-targeting therapy. Despite the importance of studying poxvirus effects on the human immune system, reports of the direct interactions between poxviruses and primary human leukocytes (PHLs) are limited. We studied the specific molecular events that determine the VV tropism for major PHL subsets including monocytes, B cells, neutrophils, NK cells, and T cells. We found that VV exhibited an extremely strong bias towards binding and infecting monocytes among PHLs. VV binding strongly co-localized with lipid rafts on the surface of these cell types, even when lipid rafts were relocated to the cell uropods upon cell polarization. In humans, monocytic and professional antigen-presenting cells (APCs) have so far only been reported to exhibit abortive infections with VV. We found that monocyte-derived macrophages (MDMs), including granulocyte macrophage colony-stimulating factor (GM-CSF)-polarized M1 and macrophage colony-stimulating factor (M-CSF)-polarized M2, were permissive to VV replication. The majority of virions produced in MDMs were extracellular enveloped virions (EEV). Visualization of infected MDMs revealed the formation of VV factories, actin tails, virion-associated branching structures and cell linkages, indicating that infected MDMs are able to initiate de novo synthesis of viral DNA and promote virus release. Classical activation of MDMs by LPS plus IFN-γ stimulation caused no effect on VV replication, whereas alternative activation of MDMs by IL-10 or LPS plus IL-1β treatment significantly decreased VV production. The IL-10-mediated suppression of VV replication was largely due to STAT3 activation, as a STAT3 inhibitor restored virus production to levels observed without IL-10 stimulation. In conclusion, our data indicate that PHL subsets express and share VV protein receptors enriched in lipid rafts. We also demonstrate that primary human macrophages are permissive to VV replication. After infection, MDMs produced EEV for long-range dissemination and also form structures associated with virions which may contribute to cell-cell spread.
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