Your search keyword '"Yang, Marie"' showing total 4 results

1. Pneumolysin interaction with the mannose receptor promotes pneumococcal invasion of the airways by blocking inflammatory responses

Author

Subramanian, Karthik, Neill, Daniel R., Malak, Hesham A., Spelmink, Laura, Khandaker, Shadia, Marchiori, Giorgia Dalla Libera, Dearing, Emma, Kirby, Alun, Yang, Marie, Achour, Adnane, Nilvebrant, Johan, Nygren, Per-Åke, Plant, Laura, Kadioglu, Aras, Henriques-Normark, Birgitta, Subramanian, Karthik, Neill, Daniel R., Malak, Hesham A., Spelmink, Laura, Khandaker, Shadia, Marchiori, Giorgia Dalla Libera, Dearing, Emma, Kirby, Alun, Yang, Marie, Achour, Adnane, Nilvebrant, Johan, Nygren, Per-Åke, Plant, Laura, Kadioglu, Aras, and Henriques-Normark, Birgitta

Abstract

QC 20200107

Published

2019

2. Pneumolysin binds to the mannose receptor C type 1 (MRC-1) leading to anti-inflammatory responses and enhanced pneumococcal survival

Author

Subramanian, Karthik, Neill, Daniel R., Malak, Hesham A., Spelmink, Laura, Khandaker, Shadia, Marchiori, Giorgia Dalla Libera, Dearing, Emma, Kirby, Alun, Yang, Marie, Achour, Adnane, Nilvebrant, Johan, Nygren, Per-Åke, Plant, Laura, Kadioglu, Aras, Henriques-Normark, Birgitta, Subramanian, Karthik, Neill, Daniel R., Malak, Hesham A., Spelmink, Laura, Khandaker, Shadia, Marchiori, Giorgia Dalla Libera, Dearing, Emma, Kirby, Alun, Yang, Marie, Achour, Adnane, Nilvebrant, Johan, Nygren, Per-Åke, Plant, Laura, Kadioglu, Aras, and Henriques-Normark, Birgitta

Abstract

Streptococcus pneumoniae (the pneumococcus) is a major cause of mortality and morbidity globally, and the leading cause of death in children under 5 years old. The pneumococcal cytolysin pneumolysin (PLY) is a major virulence determinant known to induce pore-dependent pro-inflammatory responses. These inflammatory responses are driven by PLY-host cell membrane cholesterol interactions, but binding to a host cell receptor has not been previously demonstrated. Here, we discovered a receptor for PLY, whereby pro-inflammatory cytokine responses and Toll-like receptor signalling are inhibited following PLY binding to the mannose receptor C type 1 (MRC-1) in human dendritic cells and mouse alveolar macrophages. The cytokine suppressor SOCS1 is also upregulated. Moreover, PLY-MRC-1 interactions mediate pneumococcal internalization into non-lysosomal compartments and polarize naive T cells into an interferon-gamma(low), interleukin-4(high) and FoxP3(+) immunoregulatory phenotype. In mice, PLY-expressing pneumococci colocalize with MRC-1 in alveolar macrophages, induce lower pro-inflammatory cytokine responses and reduce neutrophil infiltration compared with a PLY mutant. In vivo, reduced bacterial loads occur in the airways of MRC-1-deficient mice and in mice in which MRC-1 is inhibited using blocking antibodies. In conclusion, we show that pneumococci use PLY-MRC-1 interactions to downregulate inflammation and enhance bacterial survival in the airways. These findings have important implications for future vaccine design., QC 20190110

Published

2019

3. Understanding pneumococcal serotype 1 biology through population genomic analysis

Author

University of Helsinki, Department of Mathematics and Statistics, Chaguza, Chrispin, Cornick, Jennifer E., Harris, Simon R., Andam, Cheryl P., Bricio-Moreno, Laura, Yang, Marie, Yalcin, Feyruz, Ousmane, Sani, Govindpersad, Shanil, Senghore, Madikay, Ebruke, Chinelo, Du Plessis, Mignon, Kiran, Anmol M., Pluschke, Gerd, Sigauque, Betuel, McGee, Lesley, Klugman, Keith P., Turner, Paul, Corander, Jukka, Parkhill, Julian, Collard, Jean-Marc, Antonio, Martin, von Gottberg, Anne, Heyderman, Robert S., French, Neil, Kadioglu, Aras, Hanage, William P., Everett, Dean B., Bentley, Stephen D., PAGe Consortium, University of Helsinki, Department of Mathematics and Statistics, Chaguza, Chrispin, Cornick, Jennifer E., Harris, Simon R., Andam, Cheryl P., Bricio-Moreno, Laura, Yang, Marie, Yalcin, Feyruz, Ousmane, Sani, Govindpersad, Shanil, Senghore, Madikay, Ebruke, Chinelo, Du Plessis, Mignon, Kiran, Anmol M., Pluschke, Gerd, Sigauque, Betuel, McGee, Lesley, Klugman, Keith P., Turner, Paul, Corander, Jukka, Parkhill, Julian, Collard, Jean-Marc, Antonio, Martin, von Gottberg, Anne, Heyderman, Robert S., French, Neil, Kadioglu, Aras, Hanage, William P., Everett, Dean B., Bentley, Stephen D., and PAGe Consortium

Abstract

Background: Pneumococcus kills over one million children annually and over 90 % of these deaths occur in low-income countries especially in Sub-Saharan Africa (SSA) where HIV exacerbates the disease burden. In SSA, serotype 1 pneumococci particularly the endemic ST217 clone, causes majority of the pneumococcal disease burden. To understand the evolution of the virulent ST217 clone, we analysed ST217 whole genomes from isolates sampled from African and Asian countries. Methods: We analysed 226 whole genome sequences from the ST217 lineage sampled from 9 African and 4 Asian countries. We constructed a whole genome alignment and used it for phylogenetic and coalescent analyses. We also screened the genomes to determine presence of antibiotic resistance conferring genes. Results: Population structure analysis grouped the ST217 isolates into five sequence clusters (SCs), which were highly associated with different geographical regions and showed limited intracontinental and intercontinental spread. The SCs showed lower than expected genomic sequence, which suggested strong purifying selection and small population sizes caused by bottlenecks. Recombination rates varied between the SCs but were lower than in other successful clones such as PMEN1. African isolates showed higher prevalence of antibiotic resistance genes than Asian isolates. Interestingly, certain West African isolates harbored a defective chloramphenicol and tetracycline resistance-conferring element (Tn5253) with a deletion in the loci encoding the chloramphenicol resistance gene (cat(pC194)), which caused lower chloramphenicol than tetracycline resistance. Furthermore, certain genes that promote colonisation were absent in the isolates, which may contribute to serotype 1's rarity in carriage and consequently its lower recombination rates. Conclusions: The high phylogeographic diversity of the ST217 clone shows that this clone has been in circulation globally for a long time, which allowed its diversificati

Published

2016

4. Understanding pneumococcal serotype 1 biology through population genomic analysis

Author

Chaguza, Chrispin, Cornick, Jennifer E, Harris, Simon R, Andam, Cheryl P, Bricio-Moreno, Laura, Yang, Marie, Yalcin, Feyruz, Ousmane, Sani, Govindpersad, Shanil, Senghore, Madikay, Ebruke, Chinelo, Du Plessis, Mignon, Kiran, Anmol M, Pluschke, Gerd, Sigauque, Betuel, McGee, Lesley, Klugman, Keith P, Turner, Paul, Corander, Jukka, Parkhill, Julian, Collard, Jean-Marc, Antonio, Martin, von Gottberg, Anne, Heyderman, Robert S, French, Neil, Kadioglu, Aras, Hanage, William P, Everett, Dean B, Bentley, Stephen D, Chaguza, Chrispin, Cornick, Jennifer E, Harris, Simon R, Andam, Cheryl P, Bricio-Moreno, Laura, Yang, Marie, Yalcin, Feyruz, Ousmane, Sani, Govindpersad, Shanil, Senghore, Madikay, Ebruke, Chinelo, Du Plessis, Mignon, Kiran, Anmol M, Pluschke, Gerd, Sigauque, Betuel, McGee, Lesley, Klugman, Keith P, Turner, Paul, Corander, Jukka, Parkhill, Julian, Collard, Jean-Marc, Antonio, Martin, von Gottberg, Anne, Heyderman, Robert S, French, Neil, Kadioglu, Aras, Hanage, William P, Everett, Dean B, and Bentley, Stephen D

Abstract

Background Pneumococcus kills over one million children annually and over 90 % of these deaths occur in low-income countries especially in Sub-Saharan Africa (SSA) where HIV exacerbates the disease burden. In SSA, serotype 1 pneumococci particularly the endemic ST217 clone, causes majority of the pneumococcal disease burden. To understand the evolution of the virulent ST217 clone, we analysed ST217 whole genomes from isolates sampled from African and Asian countries. Methods We analysed 226 whole genome sequences from the ST217 lineage sampled from 9 African and 4 Asian countries. We constructed a whole genome alignment and used it for phylogenetic and coalescent analyses. We also screened the genomes to determine presence of antibiotic resistance conferring genes. Results Population structure analysis grouped the ST217 isolates into five sequence clusters (SCs), which were highly associated with different geographical regions and showed limited intracontinental and intercontinental spread. The SCs showed lower than expected genomic sequence, which suggested strong purifying selection and small population sizes caused by bottlenecks. Recombination rates varied between the SCs but were lower than in other successful clones such as PMEN1. African isolates showed higher prevalence of antibiotic resistance genes than Asian isolates. Interestingly, certain West African isolates harbored a defective chloramphenicol and tetracycline resistance-conferring element (Tn5253) with a deletion in the loci encoding the chloramphenicol resistance gene (cat pC194), which caused lower chloramphenicol than tetracycline resistance. Furthermore, certain genes that promote colonisation were absent in the isolates, which may contribute to serotype 1’s rarity in carriage and consequently its lower recombination rates. Conclusions The high phylogeographic diversity of the ST217 clone shows that this clone has been in circulation globally for a long time, which allowed its diversifi

Published

2016