Rôle essentiel des cellules dendritiques dans l'immunité innée face a des streptocoques encapsulés

Lemire, Paul

08 1900

Streptococcus du Groupe B (GBS) et Streptococcus suis sont deux pathogènes encapsulés qui induisent des pathologies similaires dont la méningite et la septicémie chez les animaux et/ou les humains. Les sérotypes III et V du GBS et les sérotypes 2 et 14 du S. suis (utilisés dans cette étude) sont parmi les plus prévalents et/ou les plus virulents. La capsule polysaccharidique (CPS) définit le sérotype et est considérée comme un facteur de virulence essentiel pour les deux espèces bactériennes. Malgré que plusieurs études aient été réalisées au niveau des interactions entre ces streptocoques et les cellules de l’immunité innée, aucune information n’est disponible sur la régulation de la réponse immunitaire contre ces pathogènes par les cellules dendritiques (DCs) et leur interactions avec d’autres cellules, notamment les cellules ‘natural killer’ (NK). Dans cette étude, différentes approches (in vitro, ex vivo et in vivo) chez la souris ont été développées pour caractériser les interactions entre les DCs, les cellules NK et GBS ou S. suis. L’utilisation de mutants non encapsulés a permis d’évaluer l’importance de la CPS dans ces interactions. Les résultats in vitro avec les DCs infectées par GBS ou S. suis ont démontré que ces deux pathogènes interagissent différemment avec ces cellules. GBS est grandement internalisé par les DCs, et ce, via de multiples mécanismes impliquant notamment les radeaux lipidiques et la clathrine. Le mécanisme d’endocytose utilisé aurait un effet sur la capacité du GBS à survivre intracellulairement. Quant au S. suis, ce dernier est très faiblement internalisé et, si le cas, rapidement éliminé à l’intérieur des DCs. GBS et S. suis activent les DCs via différents récepteurs et favorisent la production de cytokines et chimiokines ainsi que l’augmentation de l’expression de molécules de co-stimulation. Cette activation permet la production d’interferon-gamma (IFN-y) par les cellules NK. Cependant, GBS semble plus efficient à activer les DCs, et par conséquent, les cellules NK que S. suis. La production d’IFN-y, en réponse à la stimulation bactérienne, est principalement assurée par un contact direct entre les DCs et les cellules NK et ne dépend qu’en partie de facteurs solubles. De plus, nos résultats in vivo ont démontré que ces deux streptocoques induisent rapidement la libération d'IFN-y par les cellules NK lors de la phase aiguë de l'infection. Ceci suggère que les interactions entre les DCs et les cellules NK pourraient jouer un rôle dans le développement d’une réponse immune T auxiliaire de type 1 (T ‘helper’ 1 en anglais; Th1). Cependant, la capacité de S. suis à activer la réponse immunitaire in vivo est également plus faible que celle observée pour GBS. En effet, les CPSs de GBS et de S. suis jouent des rôles différents dans cette réponse. La CPS de S. suis empêche une activation optimale des DCs et des cellules NK alors que c’est l’opposé pour la CPS de GBS, indépendamment du sérotype évalué. En résumé, cette étude adresse pour la première fois la contribution des DCs et des cellules NK dans la réponse immunitaire innée lors d’une infection à GBS ou à S. suis et, par extension, dans le développement d’une réponse Th1. Nos résultats renforcent davantage le rôle central des DCs dans le contrôle efficace des infections causées par des bactéries encapsulées. / Group B Streptococcus (GBS) and Streptococcus suis are two encapsulated pathogens that induce similar pathologies, including septicemia and meningitis in animals and/or humans. Serotypes III and V of GBS and serotypes 2 and 14 of S. suis (evaluated in this study) are the most prevalent and/or virulent types. The capsular polysaccharide (CPS) defines the serotype and is considered as a key virulence factor for both bacterial species. Although several studies have addressed the interactions of these streptococci and various cells of the innate immune system, no information is available on the regulation of the immune response against these pathogens by dendritic cells (DCs), and their interactions with other cells, including natural killer (NK) cells. In this study, different approaches (in vitro, ex vivo and in vivo) in mice were developed to characterize the interactions between DCs, NK cells and GBS or S. suis. Non-encapsulated mutants were used to evaluate the importance of the CPS in these interactions. In vitro results with GBS- or S. suis-infected DCs showed that these two pathogens differently interact with these cells. GBS is largely internalized by DCs through multiple endocytosis mechanisms, mainly involving lipid rafts and clathrin. The use of a specific endocytosis pathway might help GBS to survive intracellularly. In contrast, S. suis is poorly internalized and, if the case, rapidly eliminated within the DCs. GBS and S. suis activate DCs through different receptors leading to the release of cytokines and chemokines and increased expression of co-stimulatory molecules. This activation allows the production of IFN- by NK cells. Yet, S. suis capacity to activate DCs and NK cells is lower than that observed for GBS. IFN- release in response to bacterial stimulation was mainly mediated by direct DC-NK cell contact and only partially dependant on soluble factors. In addition, our in vivo results showed that these two streptococcal species rapidly induce the release of IFN- by NK cells during the acute phase of the infection. This suggests that the DC-NK crosstalk might play a role in the development of a T helper 1 (Th1) response. Yet, S. suis capacity to activate the in vivo immune response was also lower than that observed for GBS. In fact, GBS and S. suis CPSs play different roles in this response. S. suis CPS prevents optimal activation of DCs and NK cells whereas it is the opposite for GBS, independently of the serotype tested. In summary, this study addresses for the first time the contribution of DCs and NK cells to the innate immune response against GBS and S. suis infections, and by extension, to the development of a Th1 response. Our results further highlight the central role of DCs in the effective control of infections caused by encapsulated bacteria.

Streptococcus Groupe B

Streptococcus suis

Capsule polysaccharidique

Cellules dendritiques

Cellules natural killer

Souris

Réponse Th1

Cytokines

Endocytose

Group B Streptococcus

Capsular polysaccharide

Dendritic cells

Natural killer cells

Mice

Th1 response

Endocytosis

Receptors

Récepteurs

Epidemiology and multilocus sequence typing of group B streptococcus colonising pregnant women and their neonates at Dr George Mukhari Academic Hospital, Pretoria.

Monyama, Maropeng Charles

11 1900

Background: Group B streptococcus (GBS) is regarded as one of the most important causes of maternal and neonatal morbidity and mortality in many parts of the world. GBS recto-vaginal colonization is important in the health of a mother and her neonate, especially in developing countries. Maternal vaginal colonization with GBS at the time of delivery can cause vertical transmission to the neonate. Multilocus sequence typing (MLST) is a technique used to characterize microbial isolates by means of sequencing internal fragments of housekeeping genes and has the advantage of reproducibility and has been shown to correlate with the other typing techniques and thus has emerged as the standard for delineating the clonal population of GBS. The study aimed to investigate the epidemiology of GBS colonization among pregnant women and their neonates, and to characterize the isolates by multilocus sequence typing technique at Dr George Mukhari Academic Hospital, Pretoria. Methodology: A total of 413 pregnant women who visited the antenatal clinic were recruited and screened. Participants were interviewed using a questionnaire to gather demographic and other relevant information such as history of current pregnancy, previous miscarriages and still births. Samples from maternal rectum and vagina as well as neonate ear and umbilical cord were taken for culture using colistin and nalidixic acid (CNA) blood agar and incubated for 24-48 hours. If negative after 48 hours, Todd-Hewitt broth was subcultured after 18-48 hours onto sheep blood agar. Multilocus sequence typing (MLST) was used to characterize seven group B streptococcus isolates collected at Dr George Mukhari academic hospital. Fragments of seven housekeeping genes were amplified by polymerase chain reaction (PCR) for each strain and sequenced. CLC bio software (Inqaba biotech, South Africa; Pretoria) was used to analyse sequenced loci and UPGMA dendrogram was constructed. Results: The colonization rate for GBS in pregnant women and their neonates was 30.9% and 0%, respectively. A higher proportion of GBS were isolated from the rectum (37.9%) as compared to the vagina (20.6%). Most socio-economic, demographic and obstetric factors analysed were not significantly associated with.GBS colonization. On 128 positive samples, the results of Todd-Hewitt enrichment broth and direct plating method using CNA were compared. A total of 45.3% of colonised were positive on direct selective agar (CNA); an additional 54.7% samples were recovered from Todd-Hewitt broth. Three genes (adhP, glnA and tkt) were sequenced successfully for six samples (1, 2. 4,6,12 and 65). The UPGMA tree with 1000 bootstrap showing the relationship between six samples was drawn.Conclusion: This study revealed that pregnant women of all ages are at risk of group B streptococcus colonization. Group B streptococcus was common among pregnant women at Dr George Mukhari Academic Hospital. No socio-economic risk factor was associated with group B streptococcus colonization. Results confirm that the combination of Todd-Hewitt broth and CNA agar plate is a time saving and sensitive method. The allelic profile, characteristics such as G+C (guanine+cytosine) content and dN/dS ratio were not analysed because of the smaller sample size used in this study, which shows that the MLST method was unsuccessful in this study. The UPGMA tree based on differences in consensus of the isolates showed that all group B streptococcus isolates are clustered and descend from a single node. / Life & Consumer Sciences / Life Sciences / M.Sc. (Life Sciences)

Epidemiology

Group B streptococcus

Multilocus sequence typing (MLST)

Colonization

Pregnant women

Neonates

Dr George Mukhari Academic Hospital.

618.92010968227

George Mukhari Hospital -- Case studies

Epidemiology and multilocus sequence typing of group B streptococcus colonising pregnant women and their neonates at Dr George Mukhari Academic Hospital, Pretoria

Monyama, Maropeng Charles

11 1900

Background: Group B streptococcus (GBS) is regarded as one of the most important causes of maternal and neonatal morbidity and mortality in many parts of the world. GBS recto-vaginal colonization is important in the health of a mother and her neonate, especially in developing countries. Maternal vaginal colonization with GBS at the time of delivery can cause vertical transmission to the neonate. Multilocus sequence typing (MLST) is a technique used to characterize microbial isolates by means of sequencing internal fragments of housekeeping genes and has the advantage of reproducibility and has been shown to correlate with the other typing techniques and thus has emerged as the standard for delineating the clonal population of GBS. The study aimed to investigate the epidemiology of GBS colonization among pregnant women and their neonates, and to characterize the isolates by multilocus sequence typing technique at Dr George Mukhari Academic Hospital, Pretoria. Methodology: A total of 413 pregnant women who visited the antenatal clinic were recruited and screened. Participants were interviewed using a questionnaire to gather demographic and other relevant information such as history of current pregnancy, previous miscarriages and still births. Samples from maternal rectum and vagina as well as neonate ear and umbilical cord were taken for culture using colistin and nalidixic acid (CNA) blood agar and incubated for 24-48 hours. If negative after 48 hours, Todd-Hewitt broth was subcultured after 18-48 hours onto sheep blood agar. Multilocus sequence typing (MLST) was used to characterize seven group B streptococcus isolates collected at Dr George Mukhari academic hospital. Fragments of seven housekeeping genes were amplified by polymerase chain reaction (PCR) for each strain and sequenced. CLC bio software (Inqaba biotech, South Africa; Pretoria) was used to analyse sequenced loci and UPGMA dendrogram was constructed. Results: The colonization rate for GBS in pregnant women and their neonates was 30.9% and 0%, respectively. A higher proportion of GBS were isolated from the rectum (37.9%) as compared to the vagina (20.6%). Most socio-economic, demographic and obstetric factors analysed were not significantly associated with.GBS colonization. On 128 positive samples, the results of Todd-Hewitt enrichment broth and direct plating method using CNA were compared. A total of 45.3% of colonised were positive on direct selective agar (CNA); an additional 54.7% samples were recovered from Todd-Hewitt broth. Three genes (adhP, glnA and tkt) were sequenced successfully for six samples (1, 2. 4,6,12 and 65). The UPGMA tree with 1000 bootstrap showing the relationship between six samples was drawn.Conclusion: This study revealed that pregnant women of all ages are at risk of group B streptococcus colonization. Group B streptococcus was common among pregnant women at Dr George Mukhari Academic Hospital. No socio-economic risk factor was associated with group B streptococcus colonization. Results confirm that the combination of Todd-Hewitt broth and CNA agar plate is a time saving and sensitive method. The allelic profile, characteristics such as G+C (guanine+cytosine) content and dN/dS ratio were not analysed because of the smaller sample size used in this study, which shows that the MLST method was unsuccessful in this study. The UPGMA tree based on differences in consensus of the isolates showed that all group B streptococcus isolates are clustered and descend from a single node. / Life Sciences / M.Sc. (Life Sciences)

Epidemiology

Group B streptococcus

Multilocus sequence typing (MLST)

Colonization

Pregnant women

Neonates

Dr George Mukhari Academic Hospital

618.92010968227

George Mukhari Hospital -- Case studies