In vitro cellular studies on the human immune response to Plasmodium falciparum malaria

Brown, James

January 1983

This thesis reports the results of a large number of experiments which were designed to elucidate the mechanisms whereby Gambian children, suffering from acute Plasmodium falciparum malaria may eventually control their infections. These experiments were carried out in vitro and success or failure of the various test systems was judged by their effect on parasite multiplication. Early in the course of these investiqations it was demonstrated that mononuclear cells from these children could cooperate with antibodies present in their serum to bring about a marked reduction in parasite growth. The efficiency of this antibody-dependent cellular cytotoxicity (ADCC) mechanism was related to levels of parasitaemia in the children, being greater in convalescent children than in those with acute malaria. Attempts were now made to identify the effector cells in this ADCC. Purified T and B cells were ineffective and although purified adherent cells (A) had an effect, it was much less than that mediated by the undepleted mononuclear cell population. Adherent cells were, however, fully effective in ADCC if they were exposed to the supernatant from T cells non-specifically activated by PHA. Thus cell cooperation leading to activation appears to play an important role in this system. Finally, experiments were set up to determine whether activated mononuclear cells could exert an inhibitory effect on parasite multiplication which was independent of anti-malarial antibody. It was shown that depression of parasite growth could be achieved by mononuclear cells, either from the children or from Europeans, if these cells were exposed to supernatants of previously stimulated mononuclear cells. These findings can be assembled to provide a tentative model of the development of protective responses in vivo. Perhaps following phagocytosis of parasite antigens and their presentation on the cell surface, T cells become activated: they may cooperate with B cells to produce parasite specific antibodies; they may also activate other mononuclear cells (non T, non B) to become effector cells. These cells, either alone, or perhaps more efficiently in cooperation with antibody, are able to kill parasites by the release of toxic factors, and the infection is brought under control. Finally, large amounts of specific antibodies of appropriate isotypes are synthesized. Acting as opsonins or by activating complement, they may serve to destroy remaining parasites. Their continued presence, by preventing merozoite penetration, may provide at least a temporary defense against reinfection. It is assumed that Gambian adults who have suffered repeated malaria infections and are now immune are defended by their possession of circulating IgG antibodies and B memory cells of all appropriate specificities.

610

Discerning the Mechanism of Gamma Delta T Cell-Mediated Damage in Multiple Sclerosis: the Potential Role of Antibodies in Disease Pathogenesis

Black, Jennifer

January 2015

Background: Both the innate and adaptive immune systems contribute to autoimmune injury in multiple sclerosis (MS). We have been particularly interested in elucidating the role of the innate γδ T-cell population in MS pathogenesis. In particular, some γδ T-cells that express Fc receptors (FcR), such as CD16, that bind antibody are more prominent with MS disease progression and have been shown to exert cytolysis via antibody-dependent cellular cytotoxicity (ADCC). We postulated that if there were also relevant and detectable antibodies in MS patients that might engage these FcR-bearing γδ T-cells then this might be a purported mechanism of neuro-axonal injury. A search for antibodies specific to axonal elements in MS revealed the presence of antibodies to neurofascin (Nfasc). Methods: Anti-Nfasc antibody titres, and concentrations of the light and heavy chains of neurofilament (NfL and NfH, respectively), markers of neuro-axonal injury, were measured in the sera and cerebrospinal fluid (CSF) of MS patients using enzyme-linked immunosorbent assays (ELISA), including those that underwent autologous hematopoietic stem cell transplantation (aHSCT), both prior to and yearly for 3 years thereafter. HeLa cells were transfected with the axonal variant of Nfasc, Nfasc-186, and were utilized as targets in ADCC assays involving γδ T-cells as the effectors, and anti-Nfasc antibodies that were enriched from MS patient sera. Results: Positive anti-Nfasc antibody titres were detected in of 22% and 25% of MS patient sera and CSF, respectively. The most elevated serum titres were in secondary progressive MS (SPMS), and highest CSF titres in relapsing-remitting MS (RRMS) (p<0.05 and p<0.0001, respectively, vs. other neurological disease [OND] controls). Patient serum and CSF antibody titres correlated and, in the CSF, the titres correlated positively with the concentration of NfL. Though NfL and NfH concentrations declined markedly following aHSCT in the CSF, anti-Nfasc antibody titres failed to decline. When co-cultured with CD16+ γδ T-cells in the presence of MS patient-derived anti-Nfasc antibodies, the percent specific cytolysis of the Nfasc-transfected HeLa cells was significantly greater than that of the non-transfected control HeLa cells, at 18% and 1%, respectively, indicating cytolytic kill via ADCC. Summary: Anti-Nfasc antibodies were detectable in the sera and CSF of MS patients, and rarely in OND controls, suggesting they are relevant to MS. Higher titres in the serum support peripheral synthesis, while higher CSF titres in the relapsing phase, that correlate with serum titres, imply that antibodies access the CNS during periods of active inflammation that are associated with disruption of the blood-CSF barrier. CSF anti-Nfasc antibody titres correlated strongly with the release of NfL, suggesting that axonal injury could be related to the presence of Nfasc-specific antibodies. Following aHSCT, CSF NfL and NfH release were reduced without concomitant CSF anti-Nfasc antibody reductions, suggesting that the presence alone of anti-Nfasc antibodies is not enough to cause axonal injury. Indeed, when co-cultured with CD16+ γδ T-cells in the presence of MS patient-derived anti-Nfasc antibodies, the percent specific cytolysis of the Nfasc-transfected HeLa cells was significantly greater than that of the non-transfected control HeLa cells, proving that FcR-bearing γδ T-cells can cause axonal damage by lysing axonal membranes via ADCC, when armed with axon-specific antibodies such as anti-Nfasc. This is the first report of γδ T-cell-mediated cytolysis by ADCC using both γδ T-cells and antibodies derived from MS patients.

Multiple Sclerosis

gamma delta T-cell

neurofascin

neurofilament

antibody-dependent cellular cytotoxicity

antibody

The innate immune effector cell response against HIV-1

Smalls-Mantey, Adjoa

January 2013

Since being identified as the cause of AIDS in 1983, HIV-1 infection has reached pandemic proportions. Despite public awareness about prevention, the growing incidence of HIV-1 infection and the limitations of current antiretroviral therapy underscore the imperative need for a vaccine. Understanding the basis of an immune response that controls infection or provides sterilizing immunity remains a major goal in the search for effective vaccines or immunotherapies. Research into correlates of immunity to HIV-1 have largely focused on CD8⁺ T cells or neutralising antibodies (NAbs) but to date these responses have not proved effective in containing viral replication in vaccinees who become infected. Natural killer cells (NKs), monocytes (MCs), and neutrophils (PMNs) are cells of the innate immune system with intrinsic cytotoxic function that can be enhanced by antibodies (Abs) in what is termed antibody-dependent cellular cytotoxicity (ADCC). In my studies I investigated the production of PMNs from human stem cells, the elimination of HIV-1 infected cells by these effector cells, the modulation of cellular cytotoxicity by Ab, and characterized how Abs facilitate a potent ADCC response. I developed a novel flow cytometry assay to measure cytotoxic activity against HIV-1 infected CD4⁺ T cells. Using this, effector cells were shown to have different cytotoxic capacities which were enhanced by Ab. Comparing ADCC mediated by patient serum revealed that higher levels correlated with IgG binding to infected cells. I observed no correlation between serum-mediated ADCC and markers of disease progression including patient status, viral RNA load, CD4⁺ T cell count, or NAb titers. The data presented here have implications for acquisition and control of early HIV-1 infection by NKs, MCs, and PMNs prior to activation of an adaptive immune response, at later stages in the presence of HIV-1-specific Abs, and are relevant to vaccine-induced anti- HIV-1 Ab-based effector mechanisms.

616.9792

Critical Roles of Cytomegalovirus-Induced Natural Killer Cells in Chronic Hepatitis C Virus Infection and Rituximab-Mediated Cancer Therapy

Oh, Jun Seok

January 2017

Natural Killer (NK) cells, members of the innate lymphoid cells (ILCs), are known to play an important role in the defense against foreign cells and abnormal host cells that have arisen due to viral infection or cancer inducing mutations. The typical immune response of NK cells involves the release of cytotoxic granules containing perforin and granzyme, and the secretion of immune-regulatory cytokines such as interferon gamma (IFN-γ). Unlike the adaptive lymphocytes such as T cells and B cells, NK cells do not require prior sensitization, enabling them to initiate an immune response much faster. This unique feature of NK cells is made possible by the utilization of an array of germline encoded receptors; but on the other hand, it limits NK cells ability to respond against rapidly evolving pathogens. NK cells overcome this shortcoming with an antibody-assisted process called antibody dependent cellular cytotoxicity (ADCC). A novel subset of human NK cells, which displays potent and broad antiviral responsiveness in concert with virus-specific antibodies, was recently discovered in cytomegalovirus positive (CMV+) individuals. This NK cell subset, called g-NK cell, was characterized by a deficiency in the expression of FcεRIγ, an adaptor protein that associates with CD16 which enables ADCC. Surprisingly, despite this deficiency, g-NK cells displayed an enhanced ADCC as compared to their conventional counterparts. Furthermore, having a long-lasting memory-like NK-cell phenotype suggests a role for g-NK cells in chronic infections. This study investigates the importance of g-NK-cells in clinical settings, first by investigating whether the presence of g-NK cells is associated with the magnitude of liver disease during chronic hepatitis C virus (HCV) infection. Analysis of g-NK cell proportions and function in the peripheral blood mononuclear cells (PBMCs) of healthy controls and chronic HCV subjects showed that chronic HCV subjects had slightly lower proportions of g-NK cells, while having similarly enhanced ADCC responses compared to conventional NK cells. Notably, among CMV+ chronic HCV patients, lower levels of liver enzymes and fibrosis were found in those possessing g-NK cells. g-NK cells were predominant among the CD56neg NK cell population often found in chronic HCV patients, suggesting their involvement in the immune response against HCV. Rituximab is a chimeric anti-CD20 antibody used to treat B cell lymphoma patients; and studies have suggested that its efficacy is associated with the ADCC potency and CD16 affinity. Since g-NK cells are characterized by their superior ADCC compared to their conventional counterpart, I decided to investigate whether the presence of g-NK cells can improve the effectiveness of rituximab against malignant B cells in the context of lymphoma and leukemia. The analysis of g-NK cells’ ADCC response against rituximab-coated lymphoma cell lines and B cells from a CLL patient indicated a superior ADCC by g-NK cells compared to their conventional NK cell counterparts. Taken together, for the first time, my findings indicate that the presence of g-NK cells in CMV+ individuals is associated with milder liver disease in chronic HCV infection. In addition, an enhanced ADCC response by g-NK cells upon encountering rituximab coated target cells suggests the beneficial roles of g-NK cells, and opens an avenue for novel therapeutic approaches where g-NK cells can be utilized to treat persistent diseases such as chronic viral infection and cancer.

Natural Killer (NK) Cells

Hepatitis C virus (HCV)

Cancer

Cytomegalovirus (CMV)

Lymphoma

Liver enzymes

Liver fibrosis

Novo papel da galectina-1 como molécula efetora de células citotóxicas. / New role for galectin-1 as effector molecule of cytotoxic cells.

Machado, Tiago Clemente

18 March 2014

A exocitose de grânulos secretórios é o principal mecanismo efetor de células TCD8+. No entanto, pouco se sabe sobre a composição dos grânulos líticos dessas células. Resultados prévios do nosso grupo identificaram algumas dezenas de novas proteínas desses grânulos. Dentre elas foi identificada Gal-1. A literatura relata que Gal-1 age por via exógena através de sua secreção por via não convencional. Dados iniciais do nosso grupo apontam um novo cenário para esta proteína no qual ela está presente em grânulos citotóxicos. Através das técnicas de microscopia eletrônica e confocal e de ensaios de citotoxicidade, nossos resultados sugerem que Gal-1 participa do papel citotóxico das CTLs modulando a via dos receptores de morte FAS-FASL. Nós também mostramos que Gal-1 interfere com o tempo de contato entre APCs e linfócitos TCD8+, com a ativação dessas células e com o controle da proliferação dos linfócitos. Nossos resultados apontam um novo cenário para Gal-1, no qual ela está presente em grânulos líticos das CTLs e está relacionada a resposta efetora dessas células. / Exocytosis of secretory granules is the main effector mechanism of CD8+ T cells. In particular, little is known about CTLs lytic granules composition. Previous results from our group identified a few dozens of new proteins associated with these granules. Among them, we identified galectin-1. Literature reports the extracellular action of Gal-1. Initial data from our group suggested a new scenario for this protein, since Gal-1 was found inside cytotoxic granules. Here, we show by transmission electron and confocal laser scanning microscopy and cytotoxicity assays that Gal-1 has a role on CTL killing probably mediating the FAS-FASL pathway. We also show that Gal-1 is regulates the time of contact between APCs and TCD8+ lymphocytes, the activation of APCs and the proliferation of CD8 T cells. Taken together, our findings suggest a new scenario, in which Gal-1 is present in CTL granules and participates in cytotoxic effector response.

CD8+ T lymphocytes

Cell proliferation

Cellular cytotoxicity

Célula NK

Células citotóxicas

Citotoxicidade celular

Cytotoxic cells

FAS-FASL

FAS-FASL

Galectin-1

Galectina-1

Linfócito TCD8+

Lisossomos secretórios

NK cell

Proliferação celular

Secretory lysosomes

Untersuchung des Effekts einer Überexpression von Cathepsin B in Zielzellen zytotoxischer Zellen / Analysis of the effect of an overexpression of cathepsin B in target cells of cytotoxic T cells

Kahlmeyer, Andreas Johannes

03 July 2012

No description available.

610 Medizin, Gesundheit

MED 341

Medicine

44.45

Novo papel da galectina-1 como molécula efetora de células citotóxicas. / New role for galectin-1 as effector molecule of cytotoxic cells.

Tiago Clemente Machado

18 March 2014

A exocitose de grânulos secretórios é o principal mecanismo efetor de células TCD8+. No entanto, pouco se sabe sobre a composição dos grânulos líticos dessas células. Resultados prévios do nosso grupo identificaram algumas dezenas de novas proteínas desses grânulos. Dentre elas foi identificada Gal-1. A literatura relata que Gal-1 age por via exógena através de sua secreção por via não convencional. Dados iniciais do nosso grupo apontam um novo cenário para esta proteína no qual ela está presente em grânulos citotóxicos. Através das técnicas de microscopia eletrônica e confocal e de ensaios de citotoxicidade, nossos resultados sugerem que Gal-1 participa do papel citotóxico das CTLs modulando a via dos receptores de morte FAS-FASL. Nós também mostramos que Gal-1 interfere com o tempo de contato entre APCs e linfócitos TCD8+, com a ativação dessas células e com o controle da proliferação dos linfócitos. Nossos resultados apontam um novo cenário para Gal-1, no qual ela está presente em grânulos líticos das CTLs e está relacionada a resposta efetora dessas células. / Exocytosis of secretory granules is the main effector mechanism of CD8+ T cells. In particular, little is known about CTLs lytic granules composition. Previous results from our group identified a few dozens of new proteins associated with these granules. Among them, we identified galectin-1. Literature reports the extracellular action of Gal-1. Initial data from our group suggested a new scenario for this protein, since Gal-1 was found inside cytotoxic granules. Here, we show by transmission electron and confocal laser scanning microscopy and cytotoxicity assays that Gal-1 has a role on CTL killing probably mediating the FAS-FASL pathway. We also show that Gal-1 is regulates the time of contact between APCs and TCD8+ lymphocytes, the activation of APCs and the proliferation of CD8 T cells. Taken together, our findings suggest a new scenario, in which Gal-1 is present in CTL granules and participates in cytotoxic effector response.

Célula NK

Células citotóxicas

Citotoxicidade celular

FAS-FASL

Galectina-1

Linfócito TCD8+

Lisossomos secretórios

Proliferação celular

CD8+ T lymphocytes

Cell proliferation

Cellular cytotoxicity

Cytotoxic cells

FAS-FASL

Galectin-1

NK cell

Secretory lysosomes

Activation and effector function of unconventional acute rejection pathways studied in a hepatocellular allograft model

Horne, Phillip Howard

19 September 2007

No description available.

Health Sciences, Immunology

CD8 ⁺T cell

CD4 ⁺T cell

graft rejection

hepatocyte

liver

cytotoxicity

alloantibody

antibody dependent cellular cytotoxicity

immune tolerance

effector function