The study of immune response to co-infection of influenza virus and Streptococcus pneumoniae

吳越, Wu, Yuet

January 2013

Influenza is a leading cause of respiratory disease worldwide. During pandemic and seasonal influenza, secondary Streptococcus pneumoniae infection is a severe complication that contributes to morbidity and mortality. With the clinical significance of this co-infection, it is imperative to understand the disease mechanisms and how our immune system would be modulated in dealing with the dual infection. First, in vivo co-infection model was established. Mice were sequentially infected with influenza virus and then Streptococcus pneumoniae. Co-infected mice lost their body weight significantly and had 100% mortality, whereas mice infected with either influenza virus or pneumococcus alone lost their body weight transiently and all recovered from the infection. Then, lung inflammatory response during the co-infection was examined. Although it is a common phenomenon that co-infection enhances inflammation, the kinetic of, and the relative contribution of influenza virus or pneumococcus to the lung inflammation is not well defined. Therefore, this study characterized the general lung inflammatory environment after co-infection. It was found that influenza virus and pneumococcus differentially modulated inflammatory response in terms of kinetics, leukocyte infiltration and cytokine production. At the early time point after co-infection, pneumococcal infection contributed more than the influenza virus infection to enhance inflammatory cytokine and neutrophil infiltrating the lung. At the later time point after co-infection, both influenza virus and pneumococcus contributed to synergistically increase inflammatory cytokine and macrophage infiltrating the lung. Influenza virus infection induced IFN-γ that contributed to the elevated IFN-γ level in co-infected mice. Influenza virus and pneumococcus synergistically increased Th2 associated cytokine including IL-4, IL-5, and IL-10. These up-regulated immune responses might contribute to the severe lung pathology. Next, adaptive immunity to co-infection was examined. Literature studying co-infection often reports how prior influenza virus infection impairs the immune response against subsequent bacterial infection. However, whether and how secondary pneumococcal infection would affect the immunity to the initial influenza virus is unknown. Therefore this study investigated the modulation of immunity to influenza virus by secondary pneumococcal infection. It was found that co-infection significantly enhanced virus titer in lung and depleted the number of cell in spleen. Secondary pneumococcal infection after influenza decreased influenza virus specific IgG in the lung and peripheral blood. The reduced level of virus specific IgG was associated with the decrease in the number and the percentage of follicular B cell and CD4 T follicular helper cell through both pneumococcal capsular polysaccharide dependent and independent manner. Treating co-infected mice with immune serum containing influenza virus specific IgG successfully improved survival, which suggested the important protective function of virus specific IgG to the co-infection. Taken together, these data suggested that secondary pneumococcal infection impairs the antibody response to influenza virus, which might enhance mortality after co-infection. In conclusion, this study provides new insight to understand the pathogenesis of co-infection, reveals the general lung inflammatory environment, highlights the negative role of pneumococcus to impair virus control and explores novel treatment for the co-infection. / published_or_final_version / Paediatrics and Adolescent Medicine / Doctoral / Doctor of Philosophy

Influenza - Immunological aspects

The effects of immune activation in the pathogenesis of neurodevelopmental disorders : in vivo and in vitro animal studies

Kong, Wai-kwan, Wendy, 江慧君

January 2014

Schizophrenia and autism are psychiatric disorders with a presumed neurodevelopmental origin, characterised by clinical features and aetiologies that overlap at multiple levels. In addition to genetic susceptibility, epidemiological studies revealed an association between environmental factors and these disorders. Immune activation in response to infection at early gestation has been identified as one of the key risk factors. Little is known about the underlying mechanism during maternal immune activation (MIA), but extrinsic apoptotic dysregulation has been postulated to play a role in MIA infection. In particular, emerging studies suggest apoptosis without triggering whole cell demise, namely synaptic apoptosis, is a potential event that leads to the abnormal behaviours in the affected offspring. In this study, C57BL/6N mice model was employed to investigate the impacts of viral mimetic polyriboinosinic-polyribocytidylic acid (Poly I:C) exposure at gestation day 9 in the resultant male offspring in adulthood in vivo by different parameters, including magnetic resonance imaging (MRI), behavioural tasks that assess sensorimotor gating, exploratory and anxiety behaviours, and protein quantification in the apoptotic pathway. In parallel, the direct effect of Poly (I:C) treatment for 24 hours on extrinsic apoptotic proteins were determined in primary cortical neurons in vitro. It was hypothesised that MIA would result in brain volumetric changes subsequent to behavioural anomalies in the adult offspring with maternal exposure to Poly (I:C), for which abnormalities are normally pronounced by that time. In addition, the hypothesis that foetuses exposed to Poly (I:C) in early gestation stage would have increased expression level of apoptotic proteins of extrinsic types, namely Fas receptor, caspase-8 and the death effector caspase-3. This study found that, although male adult offspring with early maternal exposure to Poly (I:C) had an increase in raw whole brain volume, this was not significant when body weight was included as a covariable. However, prenatal exposure caused behavioural features similar to those reported in schizophrenia and autism such as prepulse inhibition deficits, increased anxiety-level and higher locomotor activity in response to amphetamine challenge. On the other hand, a marked augmentation in caspase-8 level without any significant changes in Fas or caspase-3 was observed in the adult hippocampus. No alterations in the expression of selected apoptotic proteins were found in the embryonic cortical cells. Overall the present studies suggested that acute exposure to infection during early fetal development causes a range of aberrations in brain anatomy, behaviour and biochemistry that are of relevance to the pathophysiology of schizophrenia and autism. The results suggest a potential involvement of synaptic apoptosis in cellular events underlying neurodevelopmental disorders. / published_or_final_version / Psychiatry / Master / Master of Philosophy

Schizophrenia - Immunological aspects

Autism - Immunological aspects

Studies on the immunogenesis of angiostrongylus cantonensis (nematoda:metastrongyloidea) in permissive and non-permissive hosts

甘華生, Kum, Wah-sang, Winnie.

January 1983

published_or_final_version / Zoology / Doctoral / Doctor of Philosophy

Bacterial expression of anti-oxazolone antibody fragments and of engineered mutants

Dreher, Martin Lothar

January 1992

No description available.

572.8

Immunological methods

Studies of the IgE receptor using sequence-specific peptides, antibodies and other probes

Gao, Bin

January 1995

No description available.

572

Immunological methods

Studies on the mechanism of inflammation in psoriasis

Mee, John Barrington

January 1996

No description available.

610

Chronic immunological disorder

Studies on chemoattractant-induced polarisation and locomotion of human blood leucocytes

Islam, Laila Noor

January 1986

No description available.

572

Immunological reactions

Synthesis and characterization of spirooxindole derivatives as potential antimalarial agents

Butsi, Kamogelo Rosinah

January 2017

A dissertation submitted to the Faculty of Science University of the Witwatersrand Johannesburg, in fulfilment of the requirements of the degree of Master of Science 14 February 2017. / Spirooxindoles are an important class of spirocycles in organic and medicinal chemistry. They are characterised by a spiro-ring fused with the oxindole scaffold and have a wide range of biological activity. We are particularly interested in spirooxindoles because of their antimalarial activity. Malaria is a major health problem in many parts of the world and the burden caused by the disease is still of great concern. In 2015 alone, an estimated 438 000 deaths due to malaria were reported across the world, with 90% of the deaths occurring in Africa. The increase in drug resistance to currently used antimalarial agents has rendered most of them ineffective, thereby contributing to the high mortality rates. As a result, there is a need for the development of new effective antimalarial agents. In the search for a new class of antimalarial chemotypes, cipargamin, introduced as NITD609 by norvatis in 2010 was synthesised. This compound is a novel synthetic antimalarial candidate, with an IC50 of ~1 nM against P. falciparum strains, including multi drug-resistant strains. Previously in our laboratory, several spirooxindole derivatives were synthesised using an imino Diels-Alder reaction, also known as the Povarov reaction. Of all the compounds synthesised, only those derived from a para-substituted aniline displayed activity in the low micromolar range (~5μM) against P. falciparum in vitro. In this project, we aimed to further explore the antimalarial activity of these compounds by designing and synthesising ring-opened analogues. The analogues were successfully synthesised by a Grignard addition reaction using N-Boc protected arylimines as electrophiles. Despite several attempts, we were unable to remove the Boc-protecting group in the final step. The second series of compounds we aimed to synthesise were ring closed analogues lacking one aromatic ring. The compounds were synthesised starting from an imine condensation reaction between benzyl protected isatin with para-substituted 2-allyanilines. The 2-allylanilines were prepared by subjecting N-allylanilines to an aza-Cope rearrangement. The arylimines prepared were then subjected to a nucleophilic Grignard addition reaction with commercially available vinylmagnesium bromide to yield the intermediate necessary for the ring closure step. Unfortunately, the nucleophilic addition reaction was unsuccessful. The ring-closure step is very crucial during the synthetic route as it gives rise to the desired ring closed analogues via ring-closing metathesis. Although we were unable to reach the final step in the synthesis of ring-closed analogues, some progress was made in developing methodology for the synthesis of these analogues. The synthesised ring-opened analogues were screened for antimalarial activity against P. falciparum in vitro. Six hit compounds were identified from the series of compounds tested with tert-butyl 3-(2,4-dichlorophenethyl)-2-oxo-3-(p-tolylamino)indoline-1-carboxylate 60 being the most active compound in the series with an IC50 value of 0.60 nM against the FCR 3 Strain. In general, compounds derived from p-toluidine displayed the most potent activity. / MT2017

Antimalarials

Malaria--Immunological aspects

Modified liposomes as adjuvants

White, Karen Louise, n/a

January 2005

Despite the progress in elucidating antigens for both therapeutic and prophylactic vaccines, safety concerns over current vaccine delivery vehicles and adjuvants has limited the development of new vaccines. In particular, there is an urgent need for effective vaccines capable of stimulating cytotoxic T lymphocyte (CTL) responses against intracellular pathogens or tumor cells. Liposomes are under investigation as a particulate vaccine delivery system with the required safety profile and demonstrated ability to target antigens to dendritic cells (DC), the cells of the immune system responsible for initiating effective and long lasting CTL immune responses. Unmodified liposomes however, are inherently non-immunogenic and thus not capable of stimulating activation of DC, which is a necessary step in immune activation. In this thesis the use of modified liposomes to more efficiently target vaccine antigens to DC and then activate the DC sufficiently to initiate down-stream immune responses was investigated. In the first approach to liposome modification, mannosylated phospholipids were incorporated within the liposome bilayer to target C-type lectins on DC. Incorporation of mono- or tri-mannosylated phospholipids within liposomes was found to be an effective means of attaching mannose-containing ligands to the liposome surface without compromising the integrity of the liposome structure. The uptake of tri-mannose-containing liposomes was enhanced in human monocyte derived DC (MoDC) compared to both unmodified liposomes and mono-mannose-containing liposomes. In contrast, neither mono- nor tri-mannose-containing liposomes were taken up by murine bone marrow derived DC (BMDC) to a greater extent than unmodified liposomes. This finding may reflect the differences in ligand specificity for C-type lectins on DC derived from different mammalian species. It was also found in these studies that increased uptake of liposomal antigens by DC does not necessarily result in increased DC activation, as evidenced by a lack of up-regulation of DC surface activation markers and ability to stimulate T cell proliferation. The second approach to liposome modification involved the incorporation of lipid core peptides (LCPs) into the liposome structure. LCPs alone were demonstrated to be able to stimulate DC and subsequent CD8+ T cell activation in vitro. LCP-based vaccines were also able to stimulate effective cytotoxic immune responses in vivo, and protect against tumor challenge, but only if administered in alum with CD4 help. Liposomes containing LCPs were able to stimulate greater DC activation and subsequent CD8+ T cell proliferation in vitro compared with unmodified liposomes. In the in vivo studies however, LCP-containing liposomes were not able to stimulate a cytotoxic immune response or protect against tumor challenge as effectively as LCP administered in alum. In the final approach to liposome modification, inclusion of the adjuvant Quil A was investigated for its ability to increase the immunogenicity of LCP-containing liposomes. It was found that small amounts of Quil A could be incorporated into liposomes without compromising the liposome bilayer. The inclusion of as little as 2% Quil A was able to stimulate DC activation and subsequent T cell proliferation in in vitro studies. In addition, immunisation of mice with LCP-containing liposomes with incorporated Quil A was found to stimulate an in vivo CTL immune response comparable to LCPs administered under optimal vaccine conditions. In conclusion, the work presented in this thesis demonstrates that modified liposomes are a useful vaccine delivery system for the initiation of in vivo cytotoxic and prophylactic immune responses.

immunological adjuvants

vaccines

The intestinal antibody response to bacterial gastroenteritis in humans / Justin Labrooy

LaBrooy, Justin T.

January 1979

Typescript (photocopy) / xiii, 192 leaves, [44] leaves of plates : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (M.D.)--Dept. of Medicine, University of Adelaide, 1980

Gastroenteritis Immunological aspects.