Humans naturally acquire cross-specific anti-glycan antibodies

Rollenske, Tim

03 November 2017

Bakterielle Glykanantigene sind hoch-divers in ihrer Komposition und Verbindung. Antikörper gegen Glykanantigene können vor bakteriellen Infektionen schützen und sind wichtig um die Homöostase zwischen dem Wirt und seinem Mikrobiom aufrecht zu halten. Typischerweise lösen Glykanantigene jedoch Antikörperantworten aus, die sich durch ein vermindertes B Zell-Gedächtnis und niedrig-affine Antikörper mit geringer Spezifität auszeichnen. In dieser Arbeit konnten, mithilfe von biotinylierten Lipopolysaccharide O-Antigenen des opportunistisch-pathogenen Bakteriums Klebsiella pneumoniae (Kp), O-Antigen-spezifische B Zellen innerhalb peripherer Gedächtnis- und intestinaler Effektor-B Zellen identifiziert werden. Durch Einzel-Zell Immunoglobulin-Sequenzierung und Klonierung bzw. rekombinanter Expression von Antikörpern dieser Zellen wird gezeigt, dass, unter natürlichen Umständen, affinitätsgereifte Antikörper gegen definierte Kp Glykanantigene erzeugt werden. Diese Antikörper binden nicht nur Kp O-Serotyp-spezifisch sondern auch spezifisch an strukturell ähnliche Kp O-Antigene und taxonomisch unterschiedliche Mikroorganismen. Die Ergebnisse zeigen, dass Menschen, bei natürlicher Besiedlung, kreuz-spezifische Antikörper gegen Glykanantigene erzeugen und deuten auf einen Mechanismus hin, wie das humorale Immunsystem auf die Glykandiversität des Mikrobioms reagieren und sich anpassen kann. Weiterhin könnten die hier identifizierten Antikörper nützlich für die Behandlung von nosokomiellen Kp Infektionen sein. / Bacterial glycan antigens are highly diverse in composition and linkage. Antibodies against glycan antigens can protect against bacterial infection and are important in maintaining homeostasis between the host and its microbiome. However, glycan antigens typically elicit B cell responses that have impaired long-term memory formation and are comprised of low-affine antibodies with low specificity. In this work, the use of biotinylated Lipopolysaccharide O-antigens of the opportunistic pathogen Klebsiella pneumonia allowed to identify anti-O-antigen B cells in the peripheral memory and intestinal effector B cell pool in healthy humans. Single B cell Immunoglobulin gene sequencing, antibody cloning, and recombinant expression reveal that, under natural circumstances, humans acquire affinity-matured antibodies against defined Kp glycan antigens. Despite their O-serotype-specificity, the antibodies bind to other structurally similar Kp O-serotypes and taxonomically distinct non-Kp microbes. The findings show that humans, under natural exposure, acquire affinity-matured cross-specific anti-glycan antibodies and provide a mechanistic way how the humoral immune system could adapt to the large microbial glycan diversity present in nature. Further, the antibodies identified in this work might be beneficial in treatment of nosocomial Kp infections.

Antikoerper

Glykan

monoklonal

Gedaechtnis B Zellen

Darm

kreuzreaktiv

Klebsiella pneumoniae

O-antigen

antibody

glycan

monoclonal

human

B cell memory

intestine

crossreactive

Klebsiella pneumoniae

O-antigen

polysaccharide

570 Biowissenschaften; Biologie

WF 9860

ddc:570

Análise dos compartimentos de linfócitos T e B de memória em animais tratados e não tratados com cloroquina durante a infecção pelo Plasmodium chabaudi AS. / Analysis of T-and B-cell memory after untreated and drug treated blood-stage Plasmodium chabaudi AS malaria.

Rosário, Ana Paula Freitas do

25 March 2008

A exposição limitada ao Plasmodium chabaudi induz proeminente imunidade celular, associada à proteção de células T da apoptose. Este estudo tem como objetivo verificar a influência da carga parasitária na geração e manutenção dos linfócitos T e B de memória ao P. chabaudi. Assim, camundongos C57BL/6 foram submetidos à infecção tratada (subpatente) ou não (patente) com cloroquina após a inoculação de 106 eritrócitos parasitados (EP) e analisados nos dias 0, 20, 60, 120 e 200. Com relação à memória de linfócitos T, no dia 20, as freqüências de células CD4+ memória/ativadas e respondedoras aos EP foram significativamente maiores nos animais do grupo subpatente. Os níveis máximos de IgG2a específica foram encontrados no dia 120 em ambos os grupos. O desafio dos animais com 108 EP mostrou que a imunidade protetora declina progressivamente, mas os grupos ainda são capazes de estabelecer resposta secundária eficiente que elimine o parasita. Assim, podemos concluir que a carga parasitária influencia a fase aguda, mas não impede a geração e manutenção das células T e B de memória. / One of the main characteristics of malaria is the intense policlonal activation of splenic T and B lymphocytes induced by the parasite and the consequent elimination, through apoptosis, of part of these cells. However, the limited exposure to the bloodstage malaria seems to induce a prominent cellular immunity, associated with the protection of T lymphocytes from apoptosis. With this in mind, this study aimed to verify the influence of the parasite load in the generation and maintenance of memory T and B cells specific for Plasmodium chabaudi chabaudi AS. In order to evaluate this idea, C57BL/6 mice were infected with 106 parasitized red blood cells (pRBC) and submitted to a patent (untreated) or subpatent infection (controlled with sub-curative doses of chloroquine every time parasitemia reached 1%). Splenocytes from these mice were analyzed at 20, 60, 120 and 200 days after infection, regarding the pRBC-specific T cell proliferation and the expression of surface molecules, as CD4, CD8, CD62L, CD45RB, CD44, CD45R-B220 and IgG. The parasitemia and the splenocyte phenotype were also monitored after the challenge with 108 pRBC. Regarding T cell memory, at day 20 of infection, the frequencies of effector/activated CD4+ T cells (CD62LLOW CD45RBLOW/HIGH) were significantly increased in animals from the patent group, which was strict linked with the highest cellular activation observed in these animals. On the other hand, the total numbers of pRBCproliferating T (CD4+ and CD8+) cells per spleen were approximately 3-fold increased in subpatent animals, indicating that these cells were protected from apoptosis as a result of the limited exposure to the parasite. However, in both groups, these parameters decreased to values similar to those in controls at day 200. The splenocytes from both groups produced Th1 cytokines in response to pRBC in all times of analysis, but at the early phase of infection, Th2 cytokines were also observed, but without differences between the infected groups. Regarding memory B cells, the frequency of sIgG+ cells was increased at day 20 of infection, when 11% and 9% of CD45R+ cells from patent and subpatent animals were positive, respectively. For both groups, specific IgG2a antibodies attained maximum serum levels at day 120, but at day 200, it is possible to observe a significant decrease of these levels only in the serum of patent mice. Moreover, at day 200 of infection, mice of subpatent group showed significantly higher amounts of IgG2a that recognized the intra-erythrocytic forms of the parasite and the surface of infected erythrocytes. Challenge of mice with 108 pRBC showed that protective immunity progressively decline with time and despite the higher levels of specific antibody in subpatent mice, both groups showed similar protection. In experiments of adoptive transference to CD28-/- mice, cells from 200-day infected mice were able to produce specific IgG2a antibodies, in a T CD4+ cell dependent way. In addition, we verified that CD45R+ cells of subpatent mice, when transferred to CD28-/- mice, secreted higher amounts of specific IgG2a and IgG1 antibodies, comparing to cells of patent mice. So, from this work, we can conclude that the parasite load has a great influence in the early immune response to P. chabaudi malaria and it also affects the generation and/or maintenance of memory B cells. Furthermore, according to our data, at least during the analyzed period, the loss of protective immunity against this parasite does not seem to be influenced by the acute-phase parasite load, but it can be a consequence of the progressive decline of T-cell memory response that occurs in patent and subpatent groups with time of infection.

Plasmodium chabaudi chabaudi.AS

Plasmodium chabaudi chabaudi.AS

Anticorpos protetores

Linfócitos T

Malaria

Malária

Memory immune response

Protective antibodies

Resposta imune de memória

Resposta proliferativa específica

Specific proliferative response

T and B cell memory

Análise dos compartimentos de linfócitos T e B de memória em animais tratados e não tratados com cloroquina durante a infecção pelo Plasmodium chabaudi AS. / Analysis of T-and B-cell memory after untreated and drug treated blood-stage Plasmodium chabaudi AS malaria.

Ana Paula Freitas do Rosário

25 March 2008

A exposição limitada ao Plasmodium chabaudi induz proeminente imunidade celular, associada à proteção de células T da apoptose. Este estudo tem como objetivo verificar a influência da carga parasitária na geração e manutenção dos linfócitos T e B de memória ao P. chabaudi. Assim, camundongos C57BL/6 foram submetidos à infecção tratada (subpatente) ou não (patente) com cloroquina após a inoculação de 106 eritrócitos parasitados (EP) e analisados nos dias 0, 20, 60, 120 e 200. Com relação à memória de linfócitos T, no dia 20, as freqüências de células CD4+ memória/ativadas e respondedoras aos EP foram significativamente maiores nos animais do grupo subpatente. Os níveis máximos de IgG2a específica foram encontrados no dia 120 em ambos os grupos. O desafio dos animais com 108 EP mostrou que a imunidade protetora declina progressivamente, mas os grupos ainda são capazes de estabelecer resposta secundária eficiente que elimine o parasita. Assim, podemos concluir que a carga parasitária influencia a fase aguda, mas não impede a geração e manutenção das células T e B de memória. / One of the main characteristics of malaria is the intense policlonal activation of splenic T and B lymphocytes induced by the parasite and the consequent elimination, through apoptosis, of part of these cells. However, the limited exposure to the bloodstage malaria seems to induce a prominent cellular immunity, associated with the protection of T lymphocytes from apoptosis. With this in mind, this study aimed to verify the influence of the parasite load in the generation and maintenance of memory T and B cells specific for Plasmodium chabaudi chabaudi AS. In order to evaluate this idea, C57BL/6 mice were infected with 106 parasitized red blood cells (pRBC) and submitted to a patent (untreated) or subpatent infection (controlled with sub-curative doses of chloroquine every time parasitemia reached 1%). Splenocytes from these mice were analyzed at 20, 60, 120 and 200 days after infection, regarding the pRBC-specific T cell proliferation and the expression of surface molecules, as CD4, CD8, CD62L, CD45RB, CD44, CD45R-B220 and IgG. The parasitemia and the splenocyte phenotype were also monitored after the challenge with 108 pRBC. Regarding T cell memory, at day 20 of infection, the frequencies of effector/activated CD4+ T cells (CD62LLOW CD45RBLOW/HIGH) were significantly increased in animals from the patent group, which was strict linked with the highest cellular activation observed in these animals. On the other hand, the total numbers of pRBCproliferating T (CD4+ and CD8+) cells per spleen were approximately 3-fold increased in subpatent animals, indicating that these cells were protected from apoptosis as a result of the limited exposure to the parasite. However, in both groups, these parameters decreased to values similar to those in controls at day 200. The splenocytes from both groups produced Th1 cytokines in response to pRBC in all times of analysis, but at the early phase of infection, Th2 cytokines were also observed, but without differences between the infected groups. Regarding memory B cells, the frequency of sIgG+ cells was increased at day 20 of infection, when 11% and 9% of CD45R+ cells from patent and subpatent animals were positive, respectively. For both groups, specific IgG2a antibodies attained maximum serum levels at day 120, but at day 200, it is possible to observe a significant decrease of these levels only in the serum of patent mice. Moreover, at day 200 of infection, mice of subpatent group showed significantly higher amounts of IgG2a that recognized the intra-erythrocytic forms of the parasite and the surface of infected erythrocytes. Challenge of mice with 108 pRBC showed that protective immunity progressively decline with time and despite the higher levels of specific antibody in subpatent mice, both groups showed similar protection. In experiments of adoptive transference to CD28-/- mice, cells from 200-day infected mice were able to produce specific IgG2a antibodies, in a T CD4+ cell dependent way. In addition, we verified that CD45R+ cells of subpatent mice, when transferred to CD28-/- mice, secreted higher amounts of specific IgG2a and IgG1 antibodies, comparing to cells of patent mice. So, from this work, we can conclude that the parasite load has a great influence in the early immune response to P. chabaudi malaria and it also affects the generation and/or maintenance of memory B cells. Furthermore, according to our data, at least during the analyzed period, the loss of protective immunity against this parasite does not seem to be influenced by the acute-phase parasite load, but it can be a consequence of the progressive decline of T-cell memory response that occurs in patent and subpatent groups with time of infection.

Plasmodium chabaudi chabaudi.AS

Anticorpos protetores

Linfócitos T

Malária

Resposta imune de memória

Resposta proliferativa específica

Plasmodium chabaudi chabaudi.AS

Malaria

Memory immune response

Protective antibodies

Specific proliferative response

T and B cell memory

Molecular and phenotypic studies of human antigen-specific effector- and memory B cells

Giesecke, Claudia

18 December 2015

Gedächtnis-B-Zellen und Plasmazellen sind essentielle Komponenten der protektiven Immunität. Die Mechanismen ihrer Induktion, ihres Überlebens und der Gedächtnis-B-Zellreaktivierung sind allerding bisher nur unvollständig verstanden. Um unser Wissen diesbezüglich zu erweitern, wurden in der vorliegenden Arbeit zum einen Charakteristika von Primär- und Sekundärimmunantworten nach Immunisierung mit Keyhole Limpet Hemocyanin (KLH) untersucht und zum anderen das Vorkommen sowie der Phänotyp humaner Gedächtnis-B-Zellen in verschiedenen lymphatischen Geweben analysiert. Die primäre parenterale KLH Immunisierung führte auf serologischer und zellulärer Ebene zu einer Reihe unerwarteter Ergebnisse, welche u. a. das Auftreten von IgA Antikörpern und die gleichzeitige Präsenz von hoch- und wenig mutierten primären Plasmablasten beinhalteten. Die Untersuchung der Gedächtnis-B-Zellverteilung in verschiedenen lymphatischen Geweben ergab den größten Gedächtnis-B-Zellpool in der Milz. Blut-, Tonsillen-, Knochenmarks- und Milz-Gedächtnis-B-Zellen wiesen nur wenige phänotypische Unterschiede auf. Einer davon war die CD69 Expression auf tonsillären ruhenden Gedächtnis-B-Zellen, was darauf hindeutet, dass tonsilläre Gedächtnis-B-Zellen tatsächlich sessil sein könnten. Die hier erhaltenen Ergebnisse stellen neue Erkenntnisse über bisher unbeschriebene Mechanismen bei parenteralen Immunantworten wie zum Beispiel die Induktion von IgA Antikörpern sowie die potentielle Rekrutierung kreuzreaktiver Gedächtnis-B-Zellen dar. Es bleibt zu klären, wie die Reaktivierung solcher Gedächtnis-B-Zellen reguliert ist. Derartiges Wissen wäre insbesondere für Therapien von Erkrankungen des Immunsystems, wie Autoimmunität, von Bedeutung. Das potentiell patrouillierende Verhalten der Gedächtnis-B-Zellen ist ein markanter Unterschied zu den nischenabhängigen sessilen Plasmazellen und deutet weitestgehend darauf hin, dass Gedächtnis-B-Zellen nicht auf derartige Nischen angewiesen sind. / Memory B cells (mBC) and antibodies are major mediators of protective immune responses yet the mechanisms of their induction, maintenance and mBC reactivation are poorly understood. Therefore, to enhance knowledge in this regard this study comprehensively characterized a human primary and secondary B cell immune response to Keyhole Limpet Hemocyanin (KLH). Secondly, mBC maintenance was investigated by a systematic analysis of mBC presence, frequency and phenotype within different lymphoid organs. Parenteral primary KLH immunization yielded unexpected results on the serological and B cellular level, including KLH-specific IgA antibody induction, the simultaneous presence of low and highly mutated circulating KLH-specific primary plasmablasts and only little clonal overlap between the primary, memory and secondary KLH-specific B cell repertoires. With respect to the organ distribution of human mBC, the spleen was identified as a major mBC reservoir. Splenic, tonsillar, bone marrow and blood mBC pools exhibited a largely comparable phenotype. Yet, we found tonsillar mBC to express CD69. Due to their resting state tonsillar mBC could therefore constitute a tissue resident cell population. The observations described allow insights into hitherto unknown potential mechanisms behind primary immune responses, i.e. prominent IgA induction by parenteral challenge and inclusion of cross-reactive mBC. The so far unclear regulatory players involved deserve future investigation, as such knowledge may be crucial for therapeutic interventions in immune system disorders. Furthermore, strikingly different to the resident plasma cells in the bone marrow, mBC appear to distribute between lymphoid organs and continuously recirculate in peripheral blood indicative of their potential permanent screening activities, suggesting that human mBC do not require one dedicated niche for their principle survival.

Überleben

Immunisierung

Plasmazelle

Plasmablast

Knochenmark

B-Zellgedächtnis

Immunologisches Gedächtnis

Gedächtnis-B-Zelle

Primär

Sekundär

Nische

Milz

Tonsille

Splenektomiert

Tonsillektomiert

secondary

survival

immunization

plasma cell

plasmablast

immunological memory

bone marrow

B cell memory

memory B cell

primary

maintenance

niche

spleen

tonsil

splenectomized

tonsillectomized

570 Biowissenschaften, Biologie

32 Biologie

WF 9880

ddc:570