Adjuvants for synthetic peptide antigens

Hussein, S. M. Ali

January 1990

No description available.

572.8

Cell mediated immunity

Endocrine-immune interactions in major depression, acute and chronic stress

Bauer, Moises Evandro

January 1999

No description available.

612.014

Asymptomatic visceral leishmaniasis

Siddiqui, Mahveen

January 1999

No description available.

610

Effects of graphene oxide nanoparticles on the immune system biomarkers produced by RAW 264.7

Algadi, Hend Emhemed

January 2019

Magister Scientiae (Medical Bioscience) - MSc(MBS) / Graphene oxide (GO) is a single carbon layer, oxygen bearing graphene derivative, containing hydroxyl and carboxyl groups. Graphene oxide nanoparticles (GONPs) are promising nanomaterials for a variety of applications such as electrochemical analysis, adsorption of biomolecules, biosensors and drug and vaccine delivery systems. While these newly engineered nanoparticles hold great potential for developments in industry and medicine, the widespread use of these material will inevitably result in GO residues in the environment where they could possibly pose a risk to human and wildlife health. Interaction of the nanoparticles and biota can affect numerous biological processes. In humans they can affect any of the physiological systems such as the immune, endocrine, reproductive and cardiovascular systems. Although studies have indicated that GO exposure cause increased reactive oxygen species in cells, they mechanisms whereby GO act on the cell are still poorly understood. A few studies have investigated the effects of GONP and other graphene nanoparticle derivatives on the immune system. The aim of this study was to investigate the in vitro effects of GONPs on the immune system by the exposure of the murine macrophage cell line, RAW 264.7, to different concentrations of GONPs.

Graphene oxide nanoparticles

Cytotoxicity

Cell-mediated immunity

Cytokines

Immunotoxicity

Gamma Interferon Production by Peripheral Blood Lymphocytes in Patients with Gastric Cancer

KATO, HAJIME, MORISE, KIMITOMO, KUSUGAMI, KAZUO

03 1900

No description available.

Quantitative Parameter

Cell-mediated Immunity

Gastric Cancer

Gamma Interferon

INVESTIGATION OF CELL MEDIATED IMMUNITY TO MALARIA

Yawalak Panpisutchai

Unknown Date

Malaria is a life-threatening parasitic disease endemic throughout the world. Control methods for malaria are becoming less reliable; thus, efforts to develop a safe and effective vaccine are critical. Immunity to malaria requires both cell- and humoral-mediated immunity, CMI and HMI, respectively. CD4+ T cells play a central role in protection against blood stage Plasmodium infection. Given that clinical features of malaria are caused by blood stages, a vaccine against this stage will be very effective in reducing morbidity and mortality. During the blood stage, purine nucleotides, which are essential for parasites’ survival and proliferation, are in high demand. The inability of the parasite to engage in de novo synthesis of purine nucleotides makes the enzyme hypoxanthine guanine xanthine phosphoribosyltransferase (HGXPRT) an essential nutrient salvage enzyme. HGXPRT is located in electron-dense regions in merozoites and in vesicles in the red cell cytoplasm. In contrast to other blood stage antigens, those located on the merozoite surface are targets of HMI. To advance HGXPRT as a malaria vaccine candidate, fermentation and purification of the protein from Plasmodium falciparum (PfHGXPRT) was performed using facilities at Q-Gen, the Queensland Institute of Medical Research (QIMR). Escherichia coli carrying PfHGXPRT gene were a gift in-kind from the University of Queensland (UQ). Recombinant PfHGXPRT expressed in E.coli was purified using anion exchange liquid chromatography and gel filtration techniques. Three methods were used to confirm the Q-Gen PfHGXPRT identity: (1) Western blotting showing identical bands of UQ PfHGXPRT and Q-Gen PfHGXPRT at 26 kDa; (2) N terminal sequencing was compatible with the PfHGXPRT sequence; and (3) mass spectrometry showed homogeneity by giving a subunit molecular mass of 26,231 Da. The purification method used is reproducible and affordable, yielding reasonably pure protein for animal experimentation. Following purification of PfHGXPRT, its efficacy as a subunit vaccine candidate in a rodent model of infection was examined. Multiple rodent models of malaria infection were assessed and it was determined that Plasmodium chabaudi AS (P. chabaudi AS) exhibited the highest cross-reactivity against PfHGXPRT in mice. Hence, P. chabaudi AS was chosen as the appropriate rodent model for study in this thesis. Natural immunity against PfHGXPRT during a blood stage P. chabaudi AS infection was assessed by testing sera and splenocyte responses to PfHGXPRT. IFN- and IL-4, as well as antibodies specific for PfHGXPRT, could be detected after infection, suggesting that PfHGXPRT is a target of natural immunity during the blood stage infection. Therefore, further studies of protective immunity generated by immunisation with PfHGXPRT were conducted, specifically to determine their protective efficacy and to determine immune mechanisms elicited by immunisation. Mice immunised with PfHGXPRT and challenged with P. chabaudi AS developed a slightly reduced parasitaemia. T-cell proliferation, but not antibody responses, was detected after immunisation. Protective mechanism(s) were assessed by adoptively transferring immune CD4+ T cells, B cells or sera to naïve SCID mice followed by parasite challenge. Only recipients of immune CD4+ T cells showed extended survival. Nevertheless, immunisation with PfHGXPRT followed by sub-patent infection induced better protection than immunisation with PfHGXPRT alone, which appeared to be related to CD4+ T cells. Reduction of parasitaemia, as well as augmentation of T cell proliferation and IFN-γ production, was evident in PfHGXPRT and sub-patent infected immunised mice. Recipients of CD4+ T cells from PfHGXPRT and sub-patent infection immune mice also showed some degree of protective immunity. PfHGXPRT was shown to induce natural and acquired immunity to P. chabaudi AS. HGXPRT is highly conserved in parasites and humans; therefore, it is essential to define minimal protective epitopes that could be included in a vaccine. Hence, 22 overlapping peptides (termed P1 P22) corresponding to the entire P. chabaudi AS HGPRT sequence were used to define minimal protective epitopes. Following immunisation of mice with seven pools of peptides (P1 P3, P4 P6, P7 P9, P10 P12, P13 P15, P16 P18 and P19 P22), three immunogenic peptides (P11, P13, and P17), which stimulated significant proliferative and IFN-γ responses were chosen for immunisation studies. Peptide P9 (position 76-95 from N-terminal), which induced the highest IFN- levels during P. chabaudi AS infection was also included in the pool of peptides. Mice immunised with P9, P11, P13 and P17 had significantly decreased parasitaemia. Antibody mediated immunity had a partial effect on suppressing parasite growth. CMI, on the contrary, played a central role in adoptively transferred protection by significantly reducing parasitaemia and prolonging survival of recipient SCID mice. Strong T cell proliferation and IFN- secretion were also detected after stimulation of splenocytes from immune mice with P. chabaudi AS antigen. CMI response was significantly increased after immunisation with the peptides followed by sub-patent infection. The findings that four short epitopes of HG(X)PRT confer strong CMI protection suggest that homologues of such epitopes could be included in a multi-component malaria vaccine.

malaria

malaria vaccine

hgxprt

cell mediated immunity

purine salvage enzyme

Efeitos da Anandamida sobre a esfera neuroimune de camundongos: avaliação comportamental, endócrina e de parâmetros da atividade imune adquirida / Anandamide effects on neuroimmune interactions in mice: Behavioral, endocrine, and parameters of adaptative immune activity evaluation

Ribeiro, Alison

06 December 2007

A neuroimunomodulação é um ramo da ciência que estuda as inter-relações existentes entre o SNC e o SI. O termo inter-relações foi empregado porque, sabe-se hoje serem estas relações bidirecionais. Conhecendo-se a existência desta comunicação, não é difícil de se supor que substâncias que atuem no sistema neuro-endócrino tenham a capacidade de influenciar as respostas imunes seja por uma ação neuroimune indireta ou por outra que se faça diretamente nas células imunes. Os canabinóides (endógenos, derivados da planta e sintéticos) apresentam um amplo espectro de ações, dentre as quais cabe destacar aquelas sobre o comportamento (ansiedade e medo), o sistema neuro-endócrino (ativação do eixo HHA) e imune (resposta imune inata e adquirida). Estes efeitos são geralmente atribuídos à ligação dos canabinóides a receptores específicos presentes no SNC (receptores CB1) e na periferia (receptores CB2). Neste sentido, buscamos neste trabalho avaliar os efeitos da Anandamida (AEA), uma agonista canabinóide endógeno, sobre o comportamento, a ativação do eixo HHA e alguns parâmetros de atividade imune adquirida, e o fizemos à luz de mecanismos neuroimunomodulatórios. Nossos resultados mostraram que os efeitos da AEA sobre o comportamento são dependentes da dose e, também, do tempo de latência para as observações. Neste sentido, 10 minutos após a administração de doses crescentes de AEA observou-se, tanto no campo aberto como no LCE, um efeito que seguiu um padrão de curva em U invertido dependente da dose. Nossos resultados mostraram, também, que a AEA na dose de 0,1mg/kg administrada 90 minutos antes das observações, aumentou o tempo gasto pelos animais em movimento na zona periférica e diminui o tempo gasto em movimento na zona central do campo aberto. Mostrou-se, ainda, que a AEA na dose de 0,1mg/kg aumentou acentuadamente os níveis séricos de corticosterona nos animais medidos 45 e 90 minutos após a administração. Finalmente, mostrou-se que uma dose de 0,1mg/kg de AEA previamente a uma imunização com OVA promoveu um aumento da reposta de hipersensibilidade do tipo tardia (DTH) e um aumento na porcentagem de proliferação de células T CD4+. Estes resultados em seu conjunto permitem sugerir que a AEA (0,1mg/kg) administrada 90 minutos antes das observações tenha se comportado como um estressor químico, promovendo efeito semelhante ao de ansiogênicos no campo aberto e aumentando os níveis séricos de corticosterona; esses níveis aumentados de corticosterona teriam sido os responsáveis pelo aumento da resposta imune celular (Th1) observada. / Neuroimmunomodulation is a field of research concerned with the relationships between the CNS and the IS. The term relationship is frequently employed because it is assumed that such communication is bidirectional. In this regard, if we consider that this communication exists, it should be accetable that substances acting on the neuroendocrine system are able of modifying immune responses, either acting via a neuroimmune indirect pathway, or acting directly on immune cells. Cannabinoids (endogenous, plant derived, and synthetic) show a large spectrum of actions over the body. We emphasize here, behavioral (anxiety and fear), endocrine (HPA axis activation), and immune (innate and adaptative immunity) effects. These effects are generally attributed to cannabinoid bind to specific receptors present on CNS (CB1 receptors) and in the periphery (CB2 receptors). In this sense, we evaluated Anandamide (AEA, an endogenous cannabinoid agonist) effects, on behavior, HPA axis activation, and parameters of adaptative immunity, particularly neuroimmune relationships. Briefly, our results show that the AEA effects on behavior are dependent on the dose and time. Thus, 10 minutes after injection of growing increasing doses of AEA, we found in the open field and plus maze an inverted U-shape dose-response for AEA which is characteristic of cannabinoids in this type of behavioral evaluation. Additionally we show, that AEA 0,1mg/kg after 90 minutes of administration increased the time spent in the peripheral zone, and decreased the time spent in the central zone of the open field. Furthermore, we found that AEA 0.1mg/kg strongly increased the serum levels of corticosterone after 45 and 90 minutes of administration. Finally, we show that AEA 0.1mg/kg prior to immunization promoted an increase of delayed-type hypersensitivity (DTH) and an increase in the percentage of CD4+ T cell proliferation. These results allow us to suggest that AEA 0.1mg/kg 90 minutes after administration acted as a chemical stressor, promoting an anxiogenic-like effect in the open field, and increasing the serum levels of corticosterone. Additionally, the increased levels of corticosterone at the moment of antigenic exposition could be responsible for the increased cell-mediated immunity (Th1) observed.

Anandamida

Anandamide

Ansiedade

Anxiety

Cell-mediated immunity

Glicocorticóides

Glucocorticoids

Imunidade celular

Neuroimmunomodulation

Neuroimunomodulação

Efeitos da Anandamida sobre a esfera neuroimune de camundongos: avaliação comportamental, endócrina e de parâmetros da atividade imune adquirida / Anandamide effects on neuroimmune interactions in mice: Behavioral, endocrine, and parameters of adaptative immune activity evaluation

Alison Ribeiro

06 December 2007

A neuroimunomodulação é um ramo da ciência que estuda as inter-relações existentes entre o SNC e o SI. O termo inter-relações foi empregado porque, sabe-se hoje serem estas relações bidirecionais. Conhecendo-se a existência desta comunicação, não é difícil de se supor que substâncias que atuem no sistema neuro-endócrino tenham a capacidade de influenciar as respostas imunes seja por uma ação neuroimune indireta ou por outra que se faça diretamente nas células imunes. Os canabinóides (endógenos, derivados da planta e sintéticos) apresentam um amplo espectro de ações, dentre as quais cabe destacar aquelas sobre o comportamento (ansiedade e medo), o sistema neuro-endócrino (ativação do eixo HHA) e imune (resposta imune inata e adquirida). Estes efeitos são geralmente atribuídos à ligação dos canabinóides a receptores específicos presentes no SNC (receptores CB1) e na periferia (receptores CB2). Neste sentido, buscamos neste trabalho avaliar os efeitos da Anandamida (AEA), uma agonista canabinóide endógeno, sobre o comportamento, a ativação do eixo HHA e alguns parâmetros de atividade imune adquirida, e o fizemos à luz de mecanismos neuroimunomodulatórios. Nossos resultados mostraram que os efeitos da AEA sobre o comportamento são dependentes da dose e, também, do tempo de latência para as observações. Neste sentido, 10 minutos após a administração de doses crescentes de AEA observou-se, tanto no campo aberto como no LCE, um efeito que seguiu um padrão de curva em U invertido dependente da dose. Nossos resultados mostraram, também, que a AEA na dose de 0,1mg/kg administrada 90 minutos antes das observações, aumentou o tempo gasto pelos animais em movimento na zona periférica e diminui o tempo gasto em movimento na zona central do campo aberto. Mostrou-se, ainda, que a AEA na dose de 0,1mg/kg aumentou acentuadamente os níveis séricos de corticosterona nos animais medidos 45 e 90 minutos após a administração. Finalmente, mostrou-se que uma dose de 0,1mg/kg de AEA previamente a uma imunização com OVA promoveu um aumento da reposta de hipersensibilidade do tipo tardia (DTH) e um aumento na porcentagem de proliferação de células T CD4+. Estes resultados em seu conjunto permitem sugerir que a AEA (0,1mg/kg) administrada 90 minutos antes das observações tenha se comportado como um estressor químico, promovendo efeito semelhante ao de ansiogênicos no campo aberto e aumentando os níveis séricos de corticosterona; esses níveis aumentados de corticosterona teriam sido os responsáveis pelo aumento da resposta imune celular (Th1) observada. / Neuroimmunomodulation is a field of research concerned with the relationships between the CNS and the IS. The term relationship is frequently employed because it is assumed that such communication is bidirectional. In this regard, if we consider that this communication exists, it should be accetable that substances acting on the neuroendocrine system are able of modifying immune responses, either acting via a neuroimmune indirect pathway, or acting directly on immune cells. Cannabinoids (endogenous, plant derived, and synthetic) show a large spectrum of actions over the body. We emphasize here, behavioral (anxiety and fear), endocrine (HPA axis activation), and immune (innate and adaptative immunity) effects. These effects are generally attributed to cannabinoid bind to specific receptors present on CNS (CB1 receptors) and in the periphery (CB2 receptors). In this sense, we evaluated Anandamide (AEA, an endogenous cannabinoid agonist) effects, on behavior, HPA axis activation, and parameters of adaptative immunity, particularly neuroimmune relationships. Briefly, our results show that the AEA effects on behavior are dependent on the dose and time. Thus, 10 minutes after injection of growing increasing doses of AEA, we found in the open field and plus maze an inverted U-shape dose-response for AEA which is characteristic of cannabinoids in this type of behavioral evaluation. Additionally we show, that AEA 0,1mg/kg after 90 minutes of administration increased the time spent in the peripheral zone, and decreased the time spent in the central zone of the open field. Furthermore, we found that AEA 0.1mg/kg strongly increased the serum levels of corticosterone after 45 and 90 minutes of administration. Finally, we show that AEA 0.1mg/kg prior to immunization promoted an increase of delayed-type hypersensitivity (DTH) and an increase in the percentage of CD4+ T cell proliferation. These results allow us to suggest that AEA 0.1mg/kg 90 minutes after administration acted as a chemical stressor, promoting an anxiogenic-like effect in the open field, and increasing the serum levels of corticosterone. Additionally, the increased levels of corticosterone at the moment of antigenic exposition could be responsible for the increased cell-mediated immunity (Th1) observed.

Anandamida

Ansiedade

Glicocorticóides

Imunidade celular

Neuroimunomodulação

Anandamide

Anxiety

Cell-mediated immunity

Glucocorticoids

Neuroimmunomodulation

Cell-Mediated Immunity of the Dog Lung

Galvin, Jennifer Baker

01 May 1983

Cell-mediated immunity (CMI) in the lung has not been well characterized due to the lack of applicable tests. A major objective was to define pulmonary CMI serially in immunized and control lung lobes using the leukocyte procoagulant (LPCA) assay in young adult dogs. This was compared to a standard, but less reproducible CMI assay, macrophage migration inhibition facet (MIF). The CMI response, as measured by the LPCA assay, peaked in the blood 7 days after lung immunization. The pulmonary CMI response measured with cells obtained by bronchial lavage from the immunized and control lung lobes peaked at 9 to 12 days after intrapulmonary immunization with 10xx sheep red blood cells (SRBC). This peak pulmonary immune response corresponded with the day of lymphocyte influx into the lung. An attempt was made to increase the level of CMI in the lung by administration of muramyl dipeptide by two different routes. The administration of the adjuvant muramyl dipeptide (MDP) into the lung or given intravenously suppressed the CMI response in the lung after instillation of antigen (10xx SRBC). Four dogs were exposed to 239Puu2 when the dogs were one year old. When the dogs were 6 to 7 years old the pulmonary CMI was evaluated after lung immunization. Age-matched control dogs were immunized for comparisons. The noticeable difference between the control and plutonium-exposed dogs was the dramatic cellular chancres produced in the control and immunized lung lobes of the plutonium-exposed dogs. Inhalation or plutonium in addition to sequential lavages produced high numbers of neutrophils to be recruited to the lung. However. the effects of inhaled 239Pu02 on pulmonary CMI of 6 to 7-year-old dogs were obscured by the low pulmonary immune response in the age-matched control dogs. The age-matched control dogs showed no cellular changes in either the saline lung lobe or the immunized lung lobe. This result was attributed to the age of the dogs. The control dogs produced high amounts or immunoglobulins as measured in the serum. however. they could not recruit these serum immunoglobulins into the lung. The plutonium-exposed dogs showed a similar immunoglobulin immune response. The effects of naturally occurring tumors or those produced by inhaled radioactive compounds were evaluated tor their effects on the procoagulant activity assay and spontaneous macrophage migration. The procoagulant activity of the lung is significantly increased if a tumor is present in the lung. The migration area of the cell population lavaged from the tumor-bearing lung lobe was significantly increased over control lobe migration areas.

Cell-Mediated Immunity

Dog Lung

Effects of Inhaled 239PuO2

Pulmonary Tumors

Chemistry

Beyond Th1 and Th2: A non-classical immune pathway induced by Interleukin (IL)-23 complements IL-12 in immunity to Cryptococcus neoformans infection

Kleinschek, Melanie

23 February 2007

The interleukin (IL)-12 family of cytokines plays a key role in the orchestration of cellular immune responses, bridging innate and adaptive immunity. The founding member, IL-12, was discovered in the late 1980s as the first heterodimeric cytokine, composed of a 40 kDa (p40) and 35 kDa (p35) subunit. Years of basic and clinical research on this prototypical T helper type (Th)1 cytokine revealed its importance in immunity to intracellular non-viral infections, as well as in cancer and autoimmune diseases. Since the discovery of IL-23 as another cytokine composed of the p40 subunit of IL-12 in the year 2000, IL-23, rather than IL-12, could be shown to be the key player in rodent models of autoimmune diseases such as multiple sclerosis and rheumatoid arthritis. With accumulating evidence revealing IL-23 as the crucial regulator of a non-classical pathway of cellular immunity which is hallmarked by IL-17 producing T cells it is intriguing to gain understanding of the importance of such findings in immunity to infections. The present work describes a series of in vivo studies investigating the role of endogenous as well as exogenous IL-23 in a murine model of chronic fungal infection, cryptococcosis. To address the role of endogenous IL-23, wild-type (WT), IL-12- (IL-12p35-/-), IL-23- (IL-23p19-/-) deficient, as well as IL-12- and IL-23- double deficient (p40-deficient) mice on a C57BL/6 background were infected with Cryptococcus neoformans (C. neoformans). Following infection, p40-deficient mice demonstrated higher mortality than IL-12p35-/- mice. Reconstitution of p40-deficient mice with recombinant murine IL-23 prolonged their survival to levels similar to IL-12p35-/- mice. IL-23p19-/- mice showed a moderately reduced survival time and delayed fungal clearance in the liver. While interferon (IFN)-γ production was similar in WT and IL-23p19-/- mice, production of IL-17 was strongly impaired in the latter. IL-23p19-/- mice produced fewer hepatic granulomata relative to organ burden and showed defective recruitment of mononuclear cells to the brain. Moreover, activation of microglia cells and expression of IL-1β, IL-6, and MCP-1 in the brain was impaired. SUMMARY - 80 - The second part of the present work explores the mechanisms underlying the IL-23 effects by characterizing the role of exogenous IL-23. C. neoformans-infected C57BL/6 WT mice treated with recombinant murine IL-23 showed significantly prolonged survival time as compared to mock-treated control mice. However, complete survival throughout the observation period (100 days) was only achieved following IL-12 treatment. At day 21 post infection (p.i.) the IL-23-treated mice as well as the IL-12 group had a significantly lower fungal burden in the brain than the control mice. However, while IL-12 treatment was associated with elevated serum levels of the proinflammatory mediators IFN-γ, tumor necrosis factor (TNF)-α and nitric oxide, IL-23-treated animals, although more resistant, developed a Th2 response similar to the control group as measured by serum IgE levels. Further experiments to assess the mechanism of action were based on the finding of reduced fungal burden at the site of infection, the peritoneal cavity, at day 8 p.i. following IL-23 treatment. This microbicidal effect was also seen in p40-deficient as well as in T and B cell deficient (RAG-deficient) mice. Administration of IL-23 led to enhanced recruitment of inflammatory cells, not only of T cells but also cells of the innate immune system such as DCs, natural killer cells and granulocytes to the infected site. Although numbers of macrophages were not altered following IL-23 treatment, co-stimulatory molecules were markedly up-regulated on such cells. The chemokine/cytokine pattern induced by IL-23 treatment was hallmarked by proinflammatory mediators such as MCP-1, IL-1β, IL-6, TNF-α and IL-17, but also the Th2 associated cytokine IL-5. From these results it can be concluded that a non-classical immune pathway induced by IL-23 complements the more dominant role of IL-12 in protection against C. neoformans. This novel immune response is characterized by an enhancement of the inflammatory cell response and the production of a proinflammatory cytokine pattern hallmarked by IL-1β, IL-6, TNF-α and IL-17.

Tiermedizin

Medizin

Natur

Naturwissenschaften allgemein

cell-mediated immunity

fungal infection

IL-23

Th17

ddc:610