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Characterization of an IL-12-driven Anticancer Response, and the CD4+ CTL Population Incited, in a Murine Model of LeukaemiaNelles, Megan Elizabeth 06 December 2012 (has links)
For the treatment of cancer, immunotherapy has some inherent advantages over other treatment modalities: disseminated disease can be eradicated due to the systemic nature of immunity, the immune system is effective against a wide range of targets, long-term memory can offer added protection against disease relapse, immunotherapy should be relatively non-toxic, and it can be synergistically combined with other treatment platforms such as radiation and chemotherapy. Type 1 immune responses are thought to be superior for the treatment of cancer and, as the quintessential Th1 polarizing cytokine, interleukin-12 (IL-12) holds much promise; however, optimal therapeutic protocols have yet to be developed and clinical results have fallen short of this promise.
The in vivo IL-12 experiments described here highlight a characteristic of cellular therapy that has not previously been appreciated. That is, the effect of cell-mediated cytokine delivery on the immediate microenvironment and how that affects the immune response initiated. This observation has implications for the clinical application of IL-12 therapy but may also prove to be an important consideration when studying other immunostimulants.
I have herein developed a novel in vitro assay system that I have used to dissect the cellular responses to IL-12 and to identify the signals that are required for activation of a cluster of differentiation 4 (CD4)+ effector population that affects leukaemia cell clearance both in vitro and in vivo.
This work, and the future studies proposed, will expand our understanding of the potential of IL-12 immunotherapy and enhance our ability to manipulate therapeutic conditions to favour the desired response. Moreover, the in vitro assay system offers a method for further characterization of CD4+ effector cells and the development of protocols to initiate their potent anticancer activity.
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Characterization of an IL-12-driven Anticancer Response, and the CD4+ CTL Population Incited, in a Murine Model of LeukaemiaNelles, Megan Elizabeth 06 December 2012 (has links)
For the treatment of cancer, immunotherapy has some inherent advantages over other treatment modalities: disseminated disease can be eradicated due to the systemic nature of immunity, the immune system is effective against a wide range of targets, long-term memory can offer added protection against disease relapse, immunotherapy should be relatively non-toxic, and it can be synergistically combined with other treatment platforms such as radiation and chemotherapy. Type 1 immune responses are thought to be superior for the treatment of cancer and, as the quintessential Th1 polarizing cytokine, interleukin-12 (IL-12) holds much promise; however, optimal therapeutic protocols have yet to be developed and clinical results have fallen short of this promise.
The in vivo IL-12 experiments described here highlight a characteristic of cellular therapy that has not previously been appreciated. That is, the effect of cell-mediated cytokine delivery on the immediate microenvironment and how that affects the immune response initiated. This observation has implications for the clinical application of IL-12 therapy but may also prove to be an important consideration when studying other immunostimulants.
I have herein developed a novel in vitro assay system that I have used to dissect the cellular responses to IL-12 and to identify the signals that are required for activation of a cluster of differentiation 4 (CD4)+ effector population that affects leukaemia cell clearance both in vitro and in vivo.
This work, and the future studies proposed, will expand our understanding of the potential of IL-12 immunotherapy and enhance our ability to manipulate therapeutic conditions to favour the desired response. Moreover, the in vitro assay system offers a method for further characterization of CD4+ effector cells and the development of protocols to initiate their potent anticancer activity.
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Terapia gênica contra Paracoccidioidomicose experimental utilizando camundongos BALB/c e B10.A e vetores de expressão de P10, HSP60 e IL-12. / Gene therapy against experimental paracoccidioidomycosis using BALB/c and B10.A mice and expression vectors encoding P10, HSP60 and IL-12.Rittner, Glauce Mary Gomes 13 March 2009 (has links)
A paracoccidioidomicose (PCM) é uma doença sistêmica de caráter granulomatoso, causada pelo fungo termodimórfico Paracoccidioides brasiliensis. A PCM é endêmica nas Américas do Sul e Central. Vacina de DNA é uma abordagem promissora e atual na imunoterapia. O peptídeo P10 contem um epítopo da gp43 reconhecido por linfócitos T-CD4+ e é protetor contra a PCM experimental. No presente trabalho analizamos o uso de vacinas de DNA usando vetores de expressão de P10, IL-12 e HSP60 em camundongos infectados intratraquealmente (i.t.) com P. brasiliensis. Esquema Profilático: camundongos BALB/c foram imunizados com pCDNA3 com sequências codificadoras de P10, HSP60 ou IL-12 e foram infectados i.t com 3x105 leveduras do isolado Pb18. Esquema Terapêutico: Camundongos BALB/c e B10.A foram infectados i.t. e após 30 dias foram submetidos à imunização por 4 semanas, ou 5 meses somente para B10.A, com pCDNA3 codificando P10 e/ou IL-12. Níveis de anticorpos, unidades formadoras de colônias (UFC) e produção de citocinas foram analizados. Foi observada redução significativa de UFC nos pulmões dos camundongos imunizados com vetor contendo P10/IL-12. A histopatologia dos pulmões mostrou áreas preservadas e redução de inflamação nestes animais. O nível de citocinas nos pulmões mostrou aumento de IFN-g e IL-12 caracterizando uma resposta Th1. Tratamento de animais B10. A com pP10 até 5 meses, reduziu o número de leveduras infectantes perto de esterilização. / Paracoccidiodomycosis (PCM) is a systemic granulomatous disease caused by the thermo-dimorphic fungus Paracoccidioides brasiliensis. It is widespread in South and Central America. Gene therapy is a promising approach to Ag-specific immunotherapy. Peptide 10 contains the T-cell epitope of gp43 and is protective against experimental infection in mice. Presently, we analyzed the used of DNA-based vaccine encoding P10, IL-12 and HSP60 in mice intratracheally infected with P. brasiliensis. Prophylactic protocol: BALB/c mice were immunized with pCDNA3 encoding P10, HSP60 or IL-12 prior to intratracheal infection with 3x105 yeast cells of isolate Pb18. Therapeutic protocol: BALB/c and B10. A mice were infected and after 30 days, they were immunized for 4 weeks, or 5 months for B10.A only, with pCDNA3 encoding P10 and/or IL-12. Antibody titers in sera, colony forming units (CFU) and cytokine production were measured. A significant reduction of CFU in the lungs of mice immunized with plasmid encoding P10/IL-12 was observed. The lung histopathology confirmed the results showing preserved areas and reduction of inflammation in vaccinated animals. The cytokine levels in lungs showed enhanced levels of IFN-g and IL-12 characterizing a Th1 response. Further treatment of B10.A mice up to 5 months with pP10 reduced the number of infective yeasts close to sterilization.
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Terapia gênica contra Paracoccidioidomicose experimental utilizando camundongos BALB/c e B10.A e vetores de expressão de P10, HSP60 e IL-12. / Gene therapy against experimental paracoccidioidomycosis using BALB/c and B10.A mice and expression vectors encoding P10, HSP60 and IL-12.Glauce Mary Gomes Rittner 13 March 2009 (has links)
A paracoccidioidomicose (PCM) é uma doença sistêmica de caráter granulomatoso, causada pelo fungo termodimórfico Paracoccidioides brasiliensis. A PCM é endêmica nas Américas do Sul e Central. Vacina de DNA é uma abordagem promissora e atual na imunoterapia. O peptídeo P10 contem um epítopo da gp43 reconhecido por linfócitos T-CD4+ e é protetor contra a PCM experimental. No presente trabalho analizamos o uso de vacinas de DNA usando vetores de expressão de P10, IL-12 e HSP60 em camundongos infectados intratraquealmente (i.t.) com P. brasiliensis. Esquema Profilático: camundongos BALB/c foram imunizados com pCDNA3 com sequências codificadoras de P10, HSP60 ou IL-12 e foram infectados i.t com 3x105 leveduras do isolado Pb18. Esquema Terapêutico: Camundongos BALB/c e B10.A foram infectados i.t. e após 30 dias foram submetidos à imunização por 4 semanas, ou 5 meses somente para B10.A, com pCDNA3 codificando P10 e/ou IL-12. Níveis de anticorpos, unidades formadoras de colônias (UFC) e produção de citocinas foram analizados. Foi observada redução significativa de UFC nos pulmões dos camundongos imunizados com vetor contendo P10/IL-12. A histopatologia dos pulmões mostrou áreas preservadas e redução de inflamação nestes animais. O nível de citocinas nos pulmões mostrou aumento de IFN-g e IL-12 caracterizando uma resposta Th1. Tratamento de animais B10. A com pP10 até 5 meses, reduziu o número de leveduras infectantes perto de esterilização. / Paracoccidiodomycosis (PCM) is a systemic granulomatous disease caused by the thermo-dimorphic fungus Paracoccidioides brasiliensis. It is widespread in South and Central America. Gene therapy is a promising approach to Ag-specific immunotherapy. Peptide 10 contains the T-cell epitope of gp43 and is protective against experimental infection in mice. Presently, we analyzed the used of DNA-based vaccine encoding P10, IL-12 and HSP60 in mice intratracheally infected with P. brasiliensis. Prophylactic protocol: BALB/c mice were immunized with pCDNA3 encoding P10, HSP60 or IL-12 prior to intratracheal infection with 3x105 yeast cells of isolate Pb18. Therapeutic protocol: BALB/c and B10. A mice were infected and after 30 days, they were immunized for 4 weeks, or 5 months for B10.A only, with pCDNA3 encoding P10 and/or IL-12. Antibody titers in sera, colony forming units (CFU) and cytokine production were measured. A significant reduction of CFU in the lungs of mice immunized with plasmid encoding P10/IL-12 was observed. The lung histopathology confirmed the results showing preserved areas and reduction of inflammation in vaccinated animals. The cytokine levels in lungs showed enhanced levels of IFN-g and IL-12 characterizing a Th1 response. Further treatment of B10.A mice up to 5 months with pP10 reduced the number of infective yeasts close to sterilization.
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Infection des cellules dendritiques périphériques du sang par le virus de l'hépatite CRodrigue-Gervais, Ian Gaël January 2005 (has links)
Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.
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Efecto de la administración exógena de IL-12 en un modelo murino de enfermedad de injerto contra el huéspedGallego Valadés, Francisca 11 March 2005 (has links)
Hemos analizado el efecto de la IL-12 sobre la enfermedad autoinmune en un modelo murino semialogénico de enfermedad crónica de injerto contra el huésped (EICHc) inducida en ratones (Balb/c X A/J) F1 (CAF1) inyectados por vía intraperitoneal con células semialogénicas de la cepa parental BALB/c. La IL-12 fue administrada 1 h antes del transplante de células semialogénicas siguiendo dos protocolos diferentes de administración: (a) inyectando 2 g de rmIL-12 (IL-12 murina recombinante) por ratón antes de la primera inyección de células semialogénicas; o (b) inyectando los 2 g de rmIL-12 fraccionada en 5 días. Se produjo una respuesta Th1 pero no apareció la enfermedad aguda de la EICH a pesar de las diferencias en clase I y II de antígenos del complejo mayor de histocompatibilidad (MHC) entre donante y receptor. Cuatro días después de la transferencia de células semialogénicas, los ratones tratados con rmIL-12 mostraron una marcada reducción en el porcentaje de células B comparado con animales control CAF1 y ratones con EICH CAF1+BALB/c. Después de 5-6 meses de seguimiento de la enfermedad, el quimerismo de células donantes incrementó significativamente en bazo (70  31 vs 43  31 %) y en timo. La citometría de flujo de esplenocitos demostró que el quimerismo de células donante estaba constituido por linfocitos T CD4, T CD8 y B y los porcentajes fueron más elevados en animales inyectados con IL-12. Además, el 100% de linfocitos T CD8 fueron de origen donante en los animales con EICH tratados con IL-12 y el 50 % fueron de origen donante en los animales con EICH no tratados. Los resultados demostraron que: (1) La IL-12 probablemente juega un papel en el mecanismo del quimerismo de células donantes, probablemente producido por mecanismos mediados por CTL donantes anti-huésped; (2) no induce la enfermedad aguda de ICH a pesar de las diferencias en clase I y II de moléculas del MHC; (3) la IL-12 no muestra ningún efecto sobre signos clínicos de la enfermedad AR-like desarrollada en este modelo de EICH aunque los signos subclínicos histológicos fueron menos frecuentes, y no se detectó glomerulonefritis en ratones con EICH tratados con IL-12. / We analyzed the IL-12 effect in an autoimmune disease induced in a semiallogenic murine model of graft-vs-host disease (GVHD) Balb/c semiallogenic lymphoid cells i.v. infected in hybrid mice (Balb/c x A/J) F1 (CAF). IL-12 was administered 1 h before cell transplantation following two different protocols: (a) injecting 2 microg of mrIL-12 (murine recombinant IL-12) per mouse before the first semiallogenic cell injection; or (b) injecting the 2 microg of mrIL-12 fractionated in 5 days. ATh1 response was produced but an acute GVHD did not appear although differences in class I and II major histocompatibility complex (MHC) antigens were present. Four days after the semiallogenic cell transfer, IL-12 treated mice showed a marked reduction in the percent of spleen B cells compared with CAF1 control and CAF1 + Balb/c GVHD mice. After 5-6 months of follow-up, the donor cell chimerism increased significantly in spleen (70 +/- 31 vs. 43 +/- 31%) and in thymus. Flow cytometry of spleen lymphocytes demonstrated that donor chimerism was made up of TCD4, TCD8 and B lymphocytes and was higher in animals injected with IL-12. Moreover, CD8 T lymphocytes were 100% donor origin in the IL-12-injected group of GVHD animals and 50% origin in the IL-12-non-injected CAF1 + Balb/c group of animals. This paper shows that: (1) IL- 12 may play a role in the mechanisms of donor cell engraftment, probably produced by a CTL donor anti-host mechanism; (2) no acute GVHD was induced in spite of class I and II MHC differences; (3) IL-12 did not show any effect on the AR-like clinical signs of disease developed in this model of GVHD although histological subclinical signs were less frequent, and no glomerulonephritis was detected in the IL-12-treated GVHD mice.
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Targeting IL-12 and/or IL-23 by employing peptide-based vaccines in the amelioration of murine colitisGuan, Qingdong 08 1900 (has links)
Overexpression of IL-12 and IL-23 has been implicated in the pathogenesis of Crohn’s disease. Targeting these cytokines with monoclonal antibodies has emerged as an effective therapy, but one with adverse reactions. In this study, we sought to develop peptide-based virus-like particle vaccines specific to p40 unit (shared by IL-12 and IL-23) or IL-12 (p35) or IL-23 (p19) and evaluate the effects of the vaccine in 2,4,6-trinitrobenzene sulphonic acid (TNBS)- and dextran sodium sulfate (DSS)-induced acute and chronic murine colitis.
Three vaccines against p40 induced high-titered and long-lasting antibodies to IL-12, IL-23 and p40 without the use of adjuvants. Vaccine-induced antibodies could block IL-12- and IL-23-induced biological functions in vitro dose-dependently. One of the three p40 vaccines was selected for further evaluation in acute and chronic colitis. Administration of the vaccine before or after the commencement of TNBS or DSS delivery, significantly improved body weight loss and decreased inflammatory scores, collagen deposition, and the expression of p40, IL-12, IL-23, IL-17 and TNF in colon tissues, compared with mice receiving carrier protein (HBcAg) or saline.
Moreover, in mesenteric lymph nodes, vaccinated mice exhibited a trend to lower percentages of Th1 cells in acute colitis and of Th17 cells in chronic colitis compared to carrier and saline controls. Vaccinated mice also had higher ratios of Treg/Th1 and Treg/Th17 and higher percentages of apoptosis in Th1 and Th17 cells than controls. Vaccine treatment decreased the infiltration of CD11c+ cells into the gut, but promoted the production of IL-10 from these cells. Safety evaluation indicated that vaccine immunization did not increase the susceptibility to the infection of chlamydia muridarum.
Two vaccines specific to IL-12 (against p35) and one vaccine to IL-23 (against p19) were also developed. They induced specific antibodies against IL-12 and IL-23, respectively. IL-23p19 vaccine immunization, not IL-12p23 vaccine, ameliorated TNBS-induced chronic colitis.
In summary, IL-12/IL-23p40 vaccine treatment ameliorated murine colitis through rebalancing Th1/Th17/Treg responses, promoting Th1 and Th17 apoptosis, and promoting IL-10 production, and did not increase the severity of chlamydia muridarum infection. This vaccine strategy may provide a novel long-term treatment for Crohn’s disease.
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Targeting IL-12 and/or IL-23 by employing peptide-based vaccines in the amelioration of murine colitisGuan, Qingdong 08 1900 (has links)
Overexpression of IL-12 and IL-23 has been implicated in the pathogenesis of Crohn’s disease. Targeting these cytokines with monoclonal antibodies has emerged as an effective therapy, but one with adverse reactions. In this study, we sought to develop peptide-based virus-like particle vaccines specific to p40 unit (shared by IL-12 and IL-23) or IL-12 (p35) or IL-23 (p19) and evaluate the effects of the vaccine in 2,4,6-trinitrobenzene sulphonic acid (TNBS)- and dextran sodium sulfate (DSS)-induced acute and chronic murine colitis.
Three vaccines against p40 induced high-titered and long-lasting antibodies to IL-12, IL-23 and p40 without the use of adjuvants. Vaccine-induced antibodies could block IL-12- and IL-23-induced biological functions in vitro dose-dependently. One of the three p40 vaccines was selected for further evaluation in acute and chronic colitis. Administration of the vaccine before or after the commencement of TNBS or DSS delivery, significantly improved body weight loss and decreased inflammatory scores, collagen deposition, and the expression of p40, IL-12, IL-23, IL-17 and TNF in colon tissues, compared with mice receiving carrier protein (HBcAg) or saline.
Moreover, in mesenteric lymph nodes, vaccinated mice exhibited a trend to lower percentages of Th1 cells in acute colitis and of Th17 cells in chronic colitis compared to carrier and saline controls. Vaccinated mice also had higher ratios of Treg/Th1 and Treg/Th17 and higher percentages of apoptosis in Th1 and Th17 cells than controls. Vaccine treatment decreased the infiltration of CD11c+ cells into the gut, but promoted the production of IL-10 from these cells. Safety evaluation indicated that vaccine immunization did not increase the susceptibility to the infection of chlamydia muridarum.
Two vaccines specific to IL-12 (against p35) and one vaccine to IL-23 (against p19) were also developed. They induced specific antibodies against IL-12 and IL-23, respectively. IL-23p19 vaccine immunization, not IL-12p23 vaccine, ameliorated TNBS-induced chronic colitis.
In summary, IL-12/IL-23p40 vaccine treatment ameliorated murine colitis through rebalancing Th1/Th17/Treg responses, promoting Th1 and Th17 apoptosis, and promoting IL-10 production, and did not increase the severity of chlamydia muridarum infection. This vaccine strategy may provide a novel long-term treatment for Crohn’s disease.
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Die Bedeutung von Interleukin-12p75 und Interleukin-12p40 für die Abwehr einer Infektion mit Cryptococcus neoformans im murinen ModellWagner, Frank 28 November 2004 (has links) (PDF)
Um die Rolle von Interleukin-12p75 (IL-12p75) und Interleukin-12p40 (IL-12p40) in der Abwehr einer Kryptokokken-Infektion im Mausmodell zu untersuchen, wurden Mäuse auf 129Sv/Ev Stammhintergrund intraperitoneal und intranasal mit Cryptococcus neoformans (C. neoformans) infiziert. Dabei wurden die Unterschiede im Infektionsverlauf und in der Immunreaktion von Wildtyp-, IL-12p35-/- und IL-12p35/p40-/--Mäusen analysiert. Unterschiede zwischen den Wildtyp- und den IL-12p35-/--Mäusen lassen auf die Bedeutung von IL-12p75 schließen, wogegen Unterschiede zwischen IL-12p35-/-- und IL-12p35/p40-/--Mäusen auf die Rolle von IL-12p40 schließen lassen. Untersucht wurden sowohl die Erregerkonzentration in den Organen, Antigenspiegel im Blut, histologische Veränderungen und Serumantikörperkonzentrationen. Nach intraperitonealer Infektion war die Keimbelastung der Organe bei den Wildtyp-Mäusen geringer als bei beiden IL-12-/--Mausstämmen. Bei Wildtyp-Mäusen waren nicht nur weniger lebende Kryptokokken in den Organen zu finden, sondern auch weniger Kryptokokken Antigen im Serum als bei beiden IL-12-/--Mäusen nachweisbar. Das zeigt, dass IL-12p75 für die Kontrolle der intraperitonealen Infektion mit C. neoformans notwendig ist. IL-12p40 hatte ähnlich wie IL-12p75, wenn auch in etwas geringerem Masse, eine protektive Rolle bei der Erregerabwehr. Ohne IL-12p40 war eine Kontrolle der Infektion auf einem geringen Niveau der Keimbelastung nicht möglich. Besonders deutlich wurde dieses Phänomen beim Antigentiter bei den IL-12p35/p40-/--Mäusen. Durch das Fehlen von IL 12p40 wurde bei den IL-12p35/p40-/--Mäusen viel mehr Antigen über das Blut im Serum verteilt als bei den IL-12p35-/-- oder den Wildtyp-Mäusen. Die Wirtsreaktion bei einer Infektion mit C. neoformans geht mit der Bildung von Granulomen einher. Ohne IL-12p75 kam es zwar noch zur Bildung von Granulomen, diese zeigten aber eine veränderte zelluläre Zusammensetzung. Die IL-12p35/p40-/--Mäuse waren nicht zur Ausbildung von typischen Granulomen fähig. Bei ihnen kam es zu einer vermehrten Ansammlung von Kryptokokken fast ohne Entzündungszellen. IL-12p40 ist also für die Ausbildung einer zellulären Entzündungsreaktion notwendig. IL-12p40 ist auch für die Antikörperbildung gegen C. neoformans erforderlich. Die IL 12p35/p40-/--Mäuse waren kaum in der Lage, spezifische Antikörper gegen C. neoformans zu bilden. IL-12p75 ist für die Ausbildung einer Th1-Antwort notwendig. Infizierte Wildtyp-Mäuse produzierten doppelt soviel IgG2a, welches für ein Th1-Antwort typisch ist, wie die IL 12p35-/--Mäuse. Der intranasale Infektionsweg kommt der natürlichen aerogenen Infektion recht nahe. Deshalb wurde zusätzlich zur intraperitonealen Infektion - dieser Infektionsweg zur Untersuchung der Immunantwort gegen C. neoformans berücksichtigt. Auch bei intranasaler Infektion ist IL-12p75 für die Kontrolle der Keimbelastung der Organe notwendig. Interessanterweise war die Keimbelastung der Lunge bei den IL-12p35-/--Mäusen etwas höher als bei den IL-12p35/p40-/--Mäusen. Bei den Wildtypmäusen war die Dissemination der Kryptokokken aus der Lunge in die Milz und ins Gehirn gering. Ein Fehlen von IL-12p75 bewirkte allerdings eine Besiedlung besonders des Gehirns. Nach intranasaler Infektion kam es in der Lunge von Wildtyp-Mäusen zu atypischen Granulomen mit zentraler Einschmelzung von Gewebe und Kryptokokken. Diese Reaktion war bei den IL-12p35-/--Mäusen noch stärker ausgeprägt als bei den Wildtyp-Mäusen. Bei den IL-12p35/p40-/--Mäusen blieb eine Gewebsreaktion größerer Areale aus. Es waren nur eine Aktivierung des BALT zu sehen. IL-12p40 ist demnach auch nach intranasaler Infektion für eine zelluläre Entzündungsreaktion notwendig. Möglicherweise kann sich diese Eigenschaft von IL-12p40 bei intranasaler Infektion in einer immunpathologischen Reaktion äußern, die bei IL-12p35-/--Mäusen für eine massive Infiltration der Lunge mit Entzündungszellen verantwortlich ist. Der Gehalt an Kryptokokken-spezifischen Antikörpern war nach intranasaler Infektion fünf- bis zehnmal höher als nach intraperitonealer Infektion. Der intranasale Infektionsweg zeigte also eine wesentlich ausgeprägtere humorale Antwort. Der Typ der Immunantwort schien sich im Gegensatz zur intraperitonealen Infektion in Richtung Th2 (d. h. verstärkte Antikörperbildung) verschoben zu haben. Sowohl nach intraperitonealer wie auch nach intranasaler Infektion mit C. neoformans lassen sich die immunstimulatorischen Aktivitäten von IL-12p75 und von IL-12p40 nachweisen, auch wenn diese sich in Abhängigkeit vom Infektionsweg etwas unterschiedlich manifestieren. / To analyse the role of interleukin-12p75 (IL-12p75) and interleukin-12p40 (IL-12p40) in the defence against Cryptococcus neoformans (C. neoformans) a murine infection model was established and studied. Mice of wild-tpye 129Sv/Ev background as well as IL-12p35-/- and IL-12p35/p40-/- 129Sv/Ev mice were infected intraperitoneally or intranasally with C. neoformans. The differences between the immune response of these genotypes were analysed. Comparing wild-type and IL-12p35-/--mice allows for conclusions related to the importance of IL-12p75, comparing IL-12p40-producing IL-12p35-/- mice with IL-12p35/p40-/- mice shows the importance of IL-12p40. Fungal organ burden, serum antigen levels, inflammatory cell responses, and antibody production were examined. The fungal organ load in wild-type mice was smaller than in both mutant IL-12-/--mice. In wild-type mice fewer cryptococci were found in organs and less cryptococcal antigen in serum than in IL-12p35-/- and IL-12p35/p40-/- mice. This underlines the importance of IL 12p75 for the control of the infection with C. neoformans. In addition, IL-12p40 was found to have a similar but weaker role as IL-12p75 in protection against C. neoformans. In the absence of IL-12p40 IL-12p35/p40-/- mice developed higher antigen titers than IL-12p35-/- and wild-type mice. The host response against infection with C. neoformans is associated with granuloma formation. Recruitment of inflammatory cells to granulomas was altered in the absence of IL 12p75. In addition, IL-12p40 contributed significantly to granuloma formation since IL 12p35/p40-/- mice developed no or only very poor granulomatous responses. Therefore, IL 12p40 is required for inflammatory cell responses. IL-12p40 was also found to be required for antibody production against C. neoformans. Infected IL-12p35/p40-/--mice had only very low levels of specific antibodies against C. neoformans. IL-12p75 is known to be essential for protective Th1 response against intracellular microorganisms. Th1 responses are commonly associated with the production of IgG2a. Infected wild-type mice produced 2-fold higher IgG2a levels than IL-12p35-/--mice. To adapt the infection model more to the natural infection mode the intraperitoneal infection route was changed to an intranasal route. Following intranasal infection IL-12p75 also proved to be necessary for control of the fungal organ load. Interestingly the organ load was higher in IL-12p35-/--mice than in IL-12p35/p40-/-mice which suggest a role of IL-12p40 in cell recruitment. Following intranasal application of cryptococci fungal dissemination to spleen and brain was reduced as compared to the intraperitoneal infection route. Without IL-12p75 dissemination of C. neoformans to the brain occured. This shows that IL-12p75 is involved in control of dissemination from lung to brain. The inflammatory response of IL-12p35-/--mice was stronger than the tissue response of wild-type mice. The massive tissue reactions of IL-12p35-/--mice caused big areas of diffuse cellular infiltration in their lungs. In IL-12p35/p40-/--mice inflammatory responses could be observed only in the peribronchial tissue. This shows that IL-12p40 is not only needed for a cellular inflammatory response following intraperitoneal but also following intranasal infection. Following intranasal infection IL-12p40 can induce immunopathological effects. Intranasal infection of mice with C. neoformans resulted in five to ten times higher antibody responses than intraperitoneal infection. This suggests that intranasal infection of mice results in a more Th2-biased humoral response. In summary, these experiments show that besides IL-12p75 also IL-12p40 contributes to cellular immunity against C. neoformans. The immunostimulatory properties of both, IL 12p75 and IL-12p40, can be observed after intraperitoneal and intranasal infection routes with similar but also distinct manifestations.
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Tim-3 Regulates Pro- and Anti-Inflammatory Cytokine Expression in Human CD14 <sup>+</sup> MonocytesZhang, Ying, Ma, Cheng J., Wang, Jia M., Ji, Xiao J., Wu, Xiao Y., Moorman, Jonathan P., Yao, Zhi Q. 01 February 2012 (has links)
Tim-3 and PD-1 are powerful immunoinhibitory molecules involved in immune tolerance, autoimmune responses, and antitumor or antiviral immune evasion. A current model for Tim-3 regulation during immune responses suggests a divergent function, such that Tim-3 acts synergistically with TLR signaling pathways in innate immune cells to promote inflammation, yet the same molecule terminates Th1 immunity in adaptive immune cells. To better understand how Tim-3 might be functioning in innate immune responses, we examined the kinetics of Tim-3 expression in human CD14 + M/M 4 in relation to expression of IL-12, a key cytokine in the transition of innate to adaptive immunity. Here, we show that Tim-3 is constitutively expressed on unstimulated peripheral blood CD14 + monocytes but decreases rapidly upon TLR stimulation. Conversely, IL-12 expression is low in these cells but increases rapidly in CD14 + M/M.J, in correlation with the decrease in Tim-3. Blocking Tim-3 signaling or silencing Tim-3 expression led to a significant increase in TLR-mediated IL-12 production, as well as a decrease in activation-induced up-regula-tion of the immunoinhibitor, PD-1; TNF-a production was not altered significantly, but IL-10 production was increased. These results suggest that Tim-3 has a role as a regulator of pro- and anti-inflammatory innate immune responses.
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