T cell and antibody responses in <i>Plasmodium falciparum</i> malaria and their relation to disease susceptibility

Farouk, Salah Eldin

January 2004

<p>Malaria antigen-induced polarization of T cells into effectors Th1 and/or Th2 cells and their subsequent release of cytokines is known to affect antibody production. This thesis includes studies on early innate responses to the parasite, with a focus on γδT cells, and acquired specific responses in African sympatric ethnic tribes. In the last part of this thesis, a method for enrichment for the asexual blood stages of <i>P. falciparum </i>and their use in <i>in vitro</i> T-cell studies is presented.</p><p>To investigate mechanisms involved in parasite growth inhibition by γδT cells, an <i>in vitro</i> system was set up using blood stage parasites co-cultured with differently treated γδT cells. The results showed that Vγ9/δ2⁺ γδT cells inhibited the in vitro growth of <i>P. falciparum</i> parasites whereas CD4⁺and CD8⁺ T cells did not. This inhibition was positively correlated with the expression of cytolytic molecules in the cell lines tested. Anti-granulysin antibodies reversed γδT cell-mediated inhibition, suggesting a role for granulysin in the parasite growth inhibition. Thus, our data suggest that Vγ9/δ2⁺ γδT cells inhibit the parasite growth by a granulysin-exocytosis dependent cytotoxic pathway that needs perforin.</p><p>To study the humoral responses and their relation to Th1/Th2 cytokine profiles, antibody levels, numbers of cytokine-producing cells and spleen rates were measured in two sympatric tribes living in Mali, the Fulani and the Dogon. Our results revealed significantly elevated malaria-specific IgG and IgE antibody levels and spleen rates in the Fulani compared to the Dogon. The Fulani exhibited elevated numbers of both IL-4 and IFN-γ-producing cells, a typical profile seen of CD1-restricted NKT cells. This together with the higher spleen rates and elevated anti-malarial antibodies suggests a role of CD1-restricted cells in the different responses seen between these tribes.</p><p>To investigate whether such responses were specifically confined to malaria or a reflection of a generally activated immune system, total levels of IgG and of IgM as well as IgG antibodies to non-malarial antigens were examined in the Fulani in Burkina Faso and Mali. The results showed that the Fulani consistently mounted stronger malaria-specific IgG, IgG1, IgG3 and IgM responses. Total IgM levels were significantly higher in the Fulani than the non-Fulani, whereas total IgG did not differ between the two tribes. While IgG levels to some non-malarial antigens were significantly higher in the Fulani, no such differences were seen in the responses to several other non-malarial antigens suggesting that the Fulani are not generally hyper-reactive and that other specific factors are of importance for their higher malaria resistance.</p><p>Finally, a new method to enrich for early and late asexual blood stages of <i>P. falciparum</i> parasite from a single parasite culture was developed, using a 3-step centrifugation procedure. Such enriched parasite fractions beside other malaria-parasite antigen preparations were used in an in vitro system to analyse T-cell responses in malaria-exposed and non-exposed donors. Such analysis revealed significant proliferative cell response and CD4⁺ T cell expansion to whole-cell parasite antigens, but not to acellular parasite fractions, in the malaria-exposed as compared to the non-exposed ones. Our data suggest that natural infection preferentially leads to formation of memory cells against certain antigen expressed in live parasites.</p><p>Malaria antigen-induced polarization of T cells into effectors Th1 and/or Th2 cells and their subsequent release of cytokines is known to affect antibody production. This thesis includes studies on early innate responses to the parasite, with a focus on γδT cells, and acquired specific responses in African sympatric ethnic tribes. In the last part of this thesis, a method for enrichment for the asexual blood stages of P. falciparum and their use in in vitro T-cell studies is presented.</p><p>To investigate mechanisms involved in parasite growth inhibition by γδT cells, an in vitro system was set up using blood stage parasites co-cultured with differently treated γδT cells. The results showed that Vγ9/δ2⁺ γδT cells inhibited the in vitro growth of P. falciparum parasites whereas CD4⁺and CD8⁺T cells did not. This inhibition was positively correlated with the expression of cytolytic molecules in the cell lines tested. Anti-granulysin antibodies reversed γδT cell-mediated inhibition, suggesting a role for granulysin in the parasite growth inhibition. Thus, our data suggest that Vγ9/δ2⁺ γδT cells inhibit the parasite growth by a granulysin-exocytosis dependent cytotoxic pathway that needs perforin.</p><p>To study the humoral responses and their relation to Th1/Th2 cytokine profiles, antibody levels, numbers of cytokine-producing cells and spleen rates were measured in two sympatric tribes living in Mali, the Fulani and the Dogon. Our results revealed significantly elevated malaria-specific IgG and IgE antibody levels and spleen rates in the Fulani compared to the Dogon. The Fulani exhibited elevated numbers of both IL-4 and IFN-γ-producing cells, a typical profile seen of CD1-restricted NKT cells. This together with the higher spleen rates and elevated anti-malarial antibodies suggests a role of CD1-restricted cells in the different responses seen between these tribes.</p><p>To investigate whether such responses were specifically confined to malaria or a reflection of a generally activated immune system, total levels of IgG and of IgM as well as IgG antibodies to non-malarial antigens were examined in the Fulani in Burkina Faso and Mali. The results showed that the Fulani consistently mounted stronger malaria-specific IgG, IgG1, IgG3 and IgM responses. Total IgM levels were significantly higher in the Fulani than the non-Fulani, whereas total IgG did not differ between the two tribes. While IgG levels to some non-malarial antigens were significantly higher in the Fulani, no such differences were seen in the responses to several other non-malarial antigens suggesting that the Fulani are not generally hyper-reactive and that other specific factors are of importance for their higher malaria resistance.</p><p>Finally, a new method to enrich for early and late asexual blood stages of <i>P. falciparum</i> parasite from a single parasite culture was developed, using a 3-step centrifugation procedure. Such enriched parasite fractions beside other malaria-parasite antigen preparations were used in an in vitro system to analyse T-cell responses in malaria-exposed and non-exposed donors. Such analysis revealed significant proliferative cell response and CD4⁺ T cell expansion to whole-cell parasite antigens, but not to acellular parasite fractions, in the malaria-exposed as compared to the non-exposed ones. Our data suggest that natural infection preferentially leads to formation of memory cells against certain antigen expressed in live parasites.</p><p>Malaria antigen-induced polarization of T cells into effectors Th1 and/or Th2 cells and their subsequent release of cytokines is known to affect antibody production. This thesis includes studies on early innate responses to the parasite, with a focus on γδT cells, and acquired specific responses in African sympatric ethnic tribes. In the last part of this thesis, a method for enrichment for the asexual blood stages of <i>P. falciparum</i> and their use in <i>in vitro</i> T-cell studies is presented.</p><p>To investigate mechanisms involved in parasite growth inhibition by γδT cells, an <i>in vitro</i> system was set up using blood stage parasites co-cultured with differently treated γδT cells. The results showed that Vγ9/δ2⁺ γδT cells inhibited the in vitro growth of<i> P. falciparum</i> parasites whereas CD4⁺ and CD8⁺ T cells did not. This inhibition was positively correlated with the expression of cytolytic molecules in the cell lines tested. Anti-granulysin antibodies reversed γδT cell-mediated inhibition, suggesting a role for granulysin in the parasite growth inhibition. Thus, our data suggest that Vγ9/δ2⁺ γδT cells inhibit the parasite growth by a granulysin-exocytosis dependent cytotoxic pathway that needs perforin.</p><p>To study the humoral responses and their relation to Th1/Th2 cytokine profiles, antibody levels, numbers of cytokine-producing cells and spleen rates were measured in two sympatric tribes living in Mali, the Fulani and the Dogon. Our results revealed significantly elevated malaria-specific IgG and IgE antibody levels and spleen rates in the Fulani compared to the Dogon. The Fulani exhibited elevated numbers of both IL-4 and IFN-γ-producing cells, a typical profile seen of CD1-restricted NKT cells. This together with the higher spleen rates and elevated anti-malarial antibodies suggests a role of CD1-restricted cells in the different responses seen between these tribes.</p><p>To investigate whether such responses were specifically confined to malaria or a reflection of a generally activated immune system, total levels of IgG and of IgM as well as IgG antibodies to non-malarial antigens were examined in the Fulani in Burkina Faso and Mali. The results showed that the Fulani consistently mounted stronger malaria-specific IgG, IgG1, IgG3 and IgM responses. Total IgM levels were significantly higher in the Fulani than the non-Fulani, whereas total IgG did not differ between the two tribes. While IgG levels to some non-malarial antigens were significantly higher in the Fulani, no such differences were seen in the responses to several other non-malarial antigens suggesting that the Fulani are not generally hyper-reactive and that other specific factors are of importance for their higher malaria resistance.</p><p>Finally, a new method to enrich for early and late asexual blood stages of <i>P. falciparum</i> parasite from a single parasite culture was developed, using a 3-step centrifugation procedure. Such enriched parasite fractions beside other malaria-parasite antigen preparations were used in an <i>in vitro</i> system to analyse T-cell responses in malaria-exposed and non-exposed donors. Such analysis revealed significant proliferative cell response and CD4⁺ T cell expansion to whole-cell parasite antigens, but not to acellular parasite fractions, in the malaria-exposed as compared to the non-exposed ones. Our data suggest that natural infection preferentially leads to formation of memory cells against certain antigen expressed in live parasites.</p>

P. falciparum

Malaria

Granulysin

Fulani

Schizont

Immunology

Immunologi

T cell and antibody responses in Plasmodium falciparum malaria and their relation to disease susceptibility

Farouk, Salah Eldin

January 2004

Malaria antigen-induced polarization of T cells into effectors Th1 and/or Th2 cells and their subsequent release of cytokines is known to affect antibody production. This thesis includes studies on early innate responses to the parasite, with a focus on γδT cells, and acquired specific responses in African sympatric ethnic tribes. In the last part of this thesis, a method for enrichment for the asexual blood stages of P. falciparum and their use in in vitro T-cell studies is presented. To investigate mechanisms involved in parasite growth inhibition by γδT cells, an in vitro system was set up using blood stage parasites co-cultured with differently treated γδT cells. The results showed that Vγ9/δ2+ γδT cells inhibited the in vitro growth of P. falciparum parasites whereas CD4+ and CD8+ T cells did not. This inhibition was positively correlated with the expression of cytolytic molecules in the cell lines tested. Anti-granulysin antibodies reversed γδT cell-mediated inhibition, suggesting a role for granulysin in the parasite growth inhibition. Thus, our data suggest that Vγ9/δ2+ γδT cells inhibit the parasite growth by a granulysin-exocytosis dependent cytotoxic pathway that needs perforin. To study the humoral responses and their relation to Th1/Th2 cytokine profiles, antibody levels, numbers of cytokine-producing cells and spleen rates were measured in two sympatric tribes living in Mali, the Fulani and the Dogon. Our results revealed significantly elevated malaria-specific IgG and IgE antibody levels and spleen rates in the Fulani compared to the Dogon. The Fulani exhibited elevated numbers of both IL-4 and IFN-γ-producing cells, a typical profile seen of CD1-restricted NKT cells. This together with the higher spleen rates and elevated anti-malarial antibodies suggests a role of CD1-restricted cells in the different responses seen between these tribes. To investigate whether such responses were specifically confined to malaria or a reflection of a generally activated immune system, total levels of IgG and of IgM as well as IgG antibodies to non-malarial antigens were examined in the Fulani in Burkina Faso and Mali. The results showed that the Fulani consistently mounted stronger malaria-specific IgG, IgG1, IgG3 and IgM responses. Total IgM levels were significantly higher in the Fulani than the non-Fulani, whereas total IgG did not differ between the two tribes. While IgG levels to some non-malarial antigens were significantly higher in the Fulani, no such differences were seen in the responses to several other non-malarial antigens suggesting that the Fulani are not generally hyper-reactive and that other specific factors are of importance for their higher malaria resistance. Finally, a new method to enrich for early and late asexual blood stages of P. falciparum parasite from a single parasite culture was developed, using a 3-step centrifugation procedure. Such enriched parasite fractions beside other malaria-parasite antigen preparations were used in an in vitro system to analyse T-cell responses in malaria-exposed and non-exposed donors. Such analysis revealed significant proliferative cell response and CD4+ T cell expansion to whole-cell parasite antigens, but not to acellular parasite fractions, in the malaria-exposed as compared to the non-exposed ones. Our data suggest that natural infection preferentially leads to formation of memory cells against certain antigen expressed in live parasites. Malaria antigen-induced polarization of T cells into effectors Th1 and/or Th2 cells and their subsequent release of cytokines is known to affect antibody production. This thesis includes studies on early innate responses to the parasite, with a focus on γδT cells, and acquired specific responses in African sympatric ethnic tribes. In the last part of this thesis, a method for enrichment for the asexual blood stages of P. falciparum and their use in in vitro T-cell studies is presented. To investigate mechanisms involved in parasite growth inhibition by γδT cells, an in vitro system was set up using blood stage parasites co-cultured with differently treated γδT cells. The results showed that Vγ9/δ2+ γδT cells inhibited the in vitro growth of P. falciparum parasites whereas CD4+ and CD8+ T cells did not. This inhibition was positively correlated with the expression of cytolytic molecules in the cell lines tested. Anti-granulysin antibodies reversed γδT cell-mediated inhibition, suggesting a role for granulysin in the parasite growth inhibition. Thus, our data suggest that Vγ9/δ2+ γδT cells inhibit the parasite growth by a granulysin-exocytosis dependent cytotoxic pathway that needs perforin. To study the humoral responses and their relation to Th1/Th2 cytokine profiles, antibody levels, numbers of cytokine-producing cells and spleen rates were measured in two sympatric tribes living in Mali, the Fulani and the Dogon. Our results revealed significantly elevated malaria-specific IgG and IgE antibody levels and spleen rates in the Fulani compared to the Dogon. The Fulani exhibited elevated numbers of both IL-4 and IFN-γ-producing cells, a typical profile seen of CD1-restricted NKT cells. This together with the higher spleen rates and elevated anti-malarial antibodies suggests a role of CD1-restricted cells in the different responses seen between these tribes. To investigate whether such responses were specifically confined to malaria or a reflection of a generally activated immune system, total levels of IgG and of IgM as well as IgG antibodies to non-malarial antigens were examined in the Fulani in Burkina Faso and Mali. The results showed that the Fulani consistently mounted stronger malaria-specific IgG, IgG1, IgG3 and IgM responses. Total IgM levels were significantly higher in the Fulani than the non-Fulani, whereas total IgG did not differ between the two tribes. While IgG levels to some non-malarial antigens were significantly higher in the Fulani, no such differences were seen in the responses to several other non-malarial antigens suggesting that the Fulani are not generally hyper-reactive and that other specific factors are of importance for their higher malaria resistance. Finally, a new method to enrich for early and late asexual blood stages of P. falciparum parasite from a single parasite culture was developed, using a 3-step centrifugation procedure. Such enriched parasite fractions beside other malaria-parasite antigen preparations were used in an in vitro system to analyse T-cell responses in malaria-exposed and non-exposed donors. Such analysis revealed significant proliferative cell response and CD4+ T cell expansion to whole-cell parasite antigens, but not to acellular parasite fractions, in the malaria-exposed as compared to the non-exposed ones. Our data suggest that natural infection preferentially leads to formation of memory cells against certain antigen expressed in live parasites. Malaria antigen-induced polarization of T cells into effectors Th1 and/or Th2 cells and their subsequent release of cytokines is known to affect antibody production. This thesis includes studies on early innate responses to the parasite, with a focus on γδT cells, and acquired specific responses in African sympatric ethnic tribes. In the last part of this thesis, a method for enrichment for the asexual blood stages of P. falciparum and their use in in vitro T-cell studies is presented. To investigate mechanisms involved in parasite growth inhibition by γδT cells, an in vitro system was set up using blood stage parasites co-cultured with differently treated γδT cells. The results showed that Vγ9/δ2+ γδT cells inhibited the in vitro growth of P. falciparum parasites whereas CD4+ and CD8+ T cells did not. This inhibition was positively correlated with the expression of cytolytic molecules in the cell lines tested. Anti-granulysin antibodies reversed γδT cell-mediated inhibition, suggesting a role for granulysin in the parasite growth inhibition. Thus, our data suggest that Vγ9/δ2+ γδT cells inhibit the parasite growth by a granulysin-exocytosis dependent cytotoxic pathway that needs perforin. To study the humoral responses and their relation to Th1/Th2 cytokine profiles, antibody levels, numbers of cytokine-producing cells and spleen rates were measured in two sympatric tribes living in Mali, the Fulani and the Dogon. Our results revealed significantly elevated malaria-specific IgG and IgE antibody levels and spleen rates in the Fulani compared to the Dogon. The Fulani exhibited elevated numbers of both IL-4 and IFN-γ-producing cells, a typical profile seen of CD1-restricted NKT cells. This together with the higher spleen rates and elevated anti-malarial antibodies suggests a role of CD1-restricted cells in the different responses seen between these tribes. To investigate whether such responses were specifically confined to malaria or a reflection of a generally activated immune system, total levels of IgG and of IgM as well as IgG antibodies to non-malarial antigens were examined in the Fulani in Burkina Faso and Mali. The results showed that the Fulani consistently mounted stronger malaria-specific IgG, IgG1, IgG3 and IgM responses. Total IgM levels were significantly higher in the Fulani than the non-Fulani, whereas total IgG did not differ between the two tribes. While IgG levels to some non-malarial antigens were significantly higher in the Fulani, no such differences were seen in the responses to several other non-malarial antigens suggesting that the Fulani are not generally hyper-reactive and that other specific factors are of importance for their higher malaria resistance. Finally, a new method to enrich for early and late asexual blood stages of P. falciparum parasite from a single parasite culture was developed, using a 3-step centrifugation procedure. Such enriched parasite fractions beside other malaria-parasite antigen preparations were used in an in vitro system to analyse T-cell responses in malaria-exposed and non-exposed donors. Such analysis revealed significant proliferative cell response and CD4+ T cell expansion to whole-cell parasite antigens, but not to acellular parasite fractions, in the malaria-exposed as compared to the non-exposed ones. Our data suggest that natural infection preferentially leads to formation of memory cells against certain antigen expressed in live parasites.

P. falciparum

Malaria

Granulysin

Fulani

Schizont

Immunology

Immunologi

Characterization of the cytokine profile in adults with latent and active tuberculosis from a high endemic country

Müller, Henrik

30 March 2011

Charakterisierung des Zytokinprofils in Erwachsenen mit einer latenten oder aktiven Tuberkulose in einem hoch endemischen Gebiet Die Tuberkulose (TB) stellt mit rund 2 Milliarden Infizierten weltweit ein globales gesundheitliches Problem dar. Während die große Mehrheit der infizierten Personen in der Lage sind die Krankheit zu kontrollieren, entwickelt sich bei ungefähr 10 % die aktive Form der TB aus. Der zugrunde liegende immunologische Prozess für diese Verteilung ist bis heute nicht bekannt und im Fokus dieser Arbeit. Das adaptive Immunsystem spielt eine entscheidende Rolle in der Immunabwehr gegen Mycobacterium tuberculosis (M. tuberculosis), dem Erreger der TB. Hierbei sind besonders CD4+ T-Zellen für die erfolgreiche Eingrenzung der Erkrankung verantwortlich. Im Vorfeld konnte bereits mehrmals eine Assoziation zwischen polyfunktionalen CD4+ T-Zellen und einem Schutz gegen verschiedenste Krankheitserreger gezeigt werden. Im Rahmen dieser Doktorarbeit wird versucht die Frage zu beantworten, ob eine erhöhte Frequenz von polyfunktionalen CD4+ T-Zellen auch gegen die Ausbildung einer aktiven TB schützen kann. Zur Bearbeitung dieser Fragestellung wurde das TH1 Zytokinprofil von Patienten mit aktiver TB untersucht und mit dem von gesunden latent infizierten Probanden (LTBI) verglichen. Desweiteren wurden die TB Patienten während der antimikrobiellen Therapie begleitet um Änderungen im Zytokinprofil von CD4+ T-Zellen beobachten zu können. Im Rahmen dieser Arbeit wurde zum ersten Mal die simultane Expression der vier TH1 Zytokine IFNg, TNFa, IL-2 und GM-CSF mit Hilfe der multifarben Durchflusszytometrie untersucht. Nach antigenspezifischer Stimulation konnten sowohl in unbehandelten und behandelten Patienten mit aktiver TB ein großer Anteil an multifunktionale Gedächtnis-T-Zellen nachgewiesen werden, die alle vier Zytokine gleichzeitig exprimierten. Bemerkenswerterweise konnte diese Population ebenfalls in LTBI gezeigt werden. Nach den ersten zwei Monaten der Therapie war der Anteil an multifunktionalen T-Zellen signifikant erhöht welches auf einen positiven Einfluss dieser Zellen auf die Behandlung hinweist. Um detaillierte Information über das Expressionspotential von CD4+ T-Zellen zu gewinnen wurden PBMCs mit einem Superantigen inkubiert. Hierbei unterschied sich das Zytokinprofil zwischen den beiden Studiengruppen signifikant und veränderte sich ebenfalls unter Therapie. Während die Expression von IFNg in TB Patienten niedriger war als in LTBI, war die Frequenz von TNFa, IL-2 und GM-CSF-positiver CD4+ T-Zellen signifikant höher in Patienten mit aktiver TB. Zusammenfassend ist zu sagen, dass sowohl in TB Patienten vor und nach Therapie, als auch in LTBI, multifunktionale CD4+ T-Zellen nachgewiesen werden können. Ein Unterschied in der Frequenz konnte dabei nicht festgestellt werden. Daher kann ein Zusammenhang zwischen der Existenz von multifunktionellen CD4+ T-Zellen und einem Schutz gegen eine mögliche Reaktivierung von der latenten zu der aktiven TB nicht beschrieben werden. / Characterization of the cytokine profile in adults with latent and active tuberculosis from a high endemic country Tuberculosis (TB) is a global health problem with ~2 billion infected people worldwide. The vast majority of infected individuals is able to control TB, while only ~10% develop active disease. The immunologic correlates determining the protection against reactivation of the latent form of active TB remain elusive. The adaptive immune system plays an important role in the response against Mycobacterium tuberculosis (M. tuberculosis), especially CD4+ T cells are crucial for efficient containment of the pathogen. Since polyfunctional CD4+ T cells have been associated with protection against various pathogens, the question was raised if higher frequencies of polyfunctional CD4+ T cells can be linked to protection against reactivation of active TB. To address this the TH1 T cell cytokine profile of active TB patients was analyzed and compared with healthy latently infected individuals (LTBI). Furthermore TB patients were followed up under anti-microbial therapy to monitor changes in the cytokine pattern expressed by CD4+ T cells. Hereby, for the first time, the simultaneous expression of four TH1 cytokines, IFNg, TNFa, IL-2 and GM-CSF, was investigated using multi color flow cytometry. After antigen-specific stimulation multifunctional memory T cells (CD45RO+) co-expressing IFNg, TNFa, IL-2 and GM-CSF were strongly represented in both treated and untreated TB patients. Interestingly, this proportion of polyfunctional memory T cells was also found in LTBI. After the first two months of drug treatment the proportion of antigen-specific polyfunctional T cells was significantly increased, indicating a positive impact of these cells during therapy. To gain detailed information about the potential of CD4+ T cells to produce cytokines we incubated PBMCs with a superantigen. In this case the profile was significantly different between these two groups and it changed during therapy. While the expression of IFNg was significantly lower in CD4+ T cell of TB patients in comparison to LTBI, the expression of TNFa, IL2 and GM-CSF showed significant higher frequencies in memory T cells of TB patients. To conclude, upon antigen stimulation, polyfunctional memory T cells are found in TB patients pre- and post therapy as well as in LTBI. A difference in the frequency between active TB patients and LTBI could not be detected and therefore a correlation with protection against reactivation from the latent to the active form of TB cannot be drawn.

polyfunktionale T Zellen

GM-CSF

Granulysin

Kindertuberkulose

zytotoxische T Zellen

Poly-functional T cells

GM-CSF

granulysin

childhood tuberculosis

cytotoxic T cell

570 Biowissenschaften, Biologie

32 Biologie

XG 2700

XD 3200

ddc:570