Your search keyword '"Elaine I. Tuomanen"' showing total 20 results

1. Bacterial TLR2/6 Ligands Block Ciliogenesis, Derepress Hedgehog Signaling, and Expand the Neocortex

Author

Beth Mann, Jeremy Chase Crawford, Kavya Reddy, Josi Lott, Yong Ha Youn, Geli Gao, Cliff Guy, Ching-Heng Chou, Daniel Darnell, Sanchit Trivedi, Perrine Bomme, Allister J. Loughran, Paul G. Thomas, Young-Goo Han, and Elaine I. Tuomanen

Subjects

cell wall, hedgehog signaling, neocortex, Toll-like receptors, Microbiology, QR1-502

Abstract

ABSTRACT Microbial components have a range of direct effects on the fetal brain. However, little is known about the cellular targets and molecular mechanisms that mediate these effects. Neural progenitor cells (NPCs) control the size and architecture of the brain and understanding the mechanisms regulating NPCs is crucial to understanding brain developmental disorders. We identify ventricular radial glia (vRG), the primary NPC, as the target of bacterial cell wall (BCW) generated during the antibiotic treatment of maternal pneumonia. BCW enhanced proliferative potential of vRGs by shortening the cell cycle and increasing self-renewal. Expanded vRGs propagated to increase neuronal output in all cortical layers. Remarkably, Toll-like receptor 2 (TLR2), which recognizes BCW, localized at the base of primary cilia in vRGs and the BCW-TLR2 interaction suppressed ciliogenesis leading to derepression of Hedgehog (HH) signaling and expansion of vRGs. We also show that TLR6 is an essential partner of TLR2 in this process. Surprisingly, TLR6 alone was required to set the number of cortical neurons under healthy conditions. These findings suggest that an endogenous signal from TLRs suppresses cortical expansion during normal development of the neocortex and that BCW antagonizes that signal through the TLR2/cilia/HH signaling axis changing brain structure and function. IMPORTANCE Fetal brain development in early gestation can be impacted by transplacental infection, altered metabolites from the maternal microbiome, or maternal immune activation. It is less well understood how maternal microbial subcomponents that cross the placenta, such as bacterial cell wall (BCW), directly interact with fetal neural progenitors and neurons and affect development. This scenario plays out in the clinic when BCW debris released during antibiotic therapy of maternal infection traffics to the fetal brain. This study identifies the direct interaction of BCW with TLR2/6 present on the primary cilium, the signaling hub on fetal neural progenitor cells (NPCs). NPCs control the size and architecture of the brain and understanding the mechanisms regulating NPCs is crucial to understanding brain developmental disorders. Within a window of vulnerability before the appearance of fetal immune cells, the BCW-TLR2/6 interaction results in the inhibition of ciliogenesis, derepression of Sonic Hedgehog signaling, excess proliferation of neural progenitors, and abnormal cortical architecture. In the first example of TLR signaling linked to Sonic Hedgehog, BCW/TLR2/6 appears to act during fetal brain morphogenesis to play a role in setting the total cell number in the neocortex.

Published

2023

2. Mini-Review: Bioactivities of Bacterial Cell Envelopes in the Central Nervous System

Author

William J. MacCain and Elaine I. Tuomanen

Subjects

meningitis, PAMP, pattern recognition receptor, peptidoglycan, neurodevelopment, Microbiology, QR1-502

Abstract

During acute bacterial meningitis, recognition of the bacterial envelope by immune cells of the central nervous system (CNS) generates a robust response that is essential to clear bacteria. This response is further amplified during treatment when lytic antibiotics, required for cure, also generate a burst of highly inflammatory cell envelope debris. Different peptidoglycan (PG) subcomponents interact with neurons, glia, and the blood brain barrier resulting in the entire symptom complex of meningitis. Recently, this CNS-cell envelope signaling axis has been extended to non-inflammatory recognition of cell wall components circulating from endogenous bacteria to the brain resulting in both benefit and chronic damage. This review will describe the molecular details of a broad array of cell envelope-induced responses in the CNS and what current strategies can be implemented to improve clinical outcome.

Published

2020

3. Perspective of a Pediatrician: Shared Pathogenesis of the Three Most Successful Pathogens of Children

Author

Elaine I. Tuomanen

Subjects

pneumococcus, meningococcus, haemophilus, PAF receptor, laminin receptor, Microbiology, QR1-502

Abstract

Highly successful invasive pathogens exploit host vulnerabilities by adapting tools to co-opt highly conserved host features. This is especially true when pathogens develop ligands to hijack trafficking routes or signaling patterns of host receptors. In this context, highly successful pathogens can be grouped together by the patterns of organs infected and diseases they cause. In the case of this perspective, the focus is on the historically most successful invasive bacterial pathogens of children that cause pneumonia, sepsis and meningitis: Streptococcus pneumoniae, Haemophilus influenzae, and Neisseria meningitidis. This triad shares a ligand to bind to PAF receptor to enter host cells despite early defenses by innate immunity. All three also target laminin receptor to cross endothelial barriers using a common set of molecular tools that may prove to be a design for a cross-protective vaccine.

Published

2020

4. Pneumolysin: Pathogenesis and Therapeutic Target

Author

Andrew T. Nishimoto, Jason W. Rosch, and Elaine I. Tuomanen

Subjects

Streptococcus pneumoniae, pneumococcus, pneumolysin, cholesterol-dependent cytolysin, invasive pneumococcal disease, vaccine, Microbiology, QR1-502

Abstract

Streptococcus pneumoniae is an opportunistic pathogen responsible for widespread illness and is a major global health issue for children, the elderly, and the immunocompromised population. Pneumolysin (PLY) is a cholesterol-dependent cytolysin (CDC) and key pneumococcal virulence factor involved in all phases of pneumococcal disease, including transmission, colonization, and infection. In this review we cover the biology and cytolytic function of PLY, its contribution to S. pneumoniae pathogenesis, and its known interactions and effects on the host with regard to tissue damage and immune response. Additionally, we review statins as a therapeutic option for CDC toxicity and PLY toxoid as a vaccine candidate in protein-based vaccines.

Published

2020

5. Multi-Valent Protein Hybrid Pneumococcal Vaccines: A Strategy for the Next Generation of Vaccines

Author

Ninecia R. Scott, Beth Mann, Elaine I. Tuomanen, and Carlos J. Orihuela

Subjects

Streptococcus pneumoniae, pneumococcal vaccine, hybrid vaccine, Medicine

Abstract

Streptococcus pneumoniae (Spn) is a bacterial pathogen known to colonize the upper respiratory tract and cause serious opportunistic diseases such as pneumonia, bacteremia, sepsis and meningitis. As a consequence, millions of attributable deaths occur annually, especially among infants, the elderly and immunocompromised individuals. Although current vaccines, composed of purified pneumococcal polysaccharide in free form or conjugated to a protein carrier, are widely used and have been demonstrated to be effective in target groups, Spn has continued to colonize and cause life-threatening disease in susceptible populations. This lack of broad protection highlights the necessity of improving upon the current “gold standard” pneumococcal vaccines to increase protection both by decreasing colonization and reducing the incidence of sterile-site infections. Over the past century, most of the pneumococcal proteins that play an essential role in colonization and pathogenesis have been identified and characterized. Some of these proteins have the potential to serve as antigens in a multi-valent protein vaccine that confers capsule independent protection. This review seeks to summarize the benefits and limitations of the currently employed vaccine strategies, describes how leading candidate proteins contribute to pneumococcal disease development, and discusses the potential of these proteins as protective antigens—including as a hybrid construct.

Published

2021

6. Dynamic capsule restructuring by the main pneumococcal autolysin LytA in response to the epithelium

Author

Colin C. Kietzman, Geli Gao, Beth Mann, Lance Myers, and Elaine I. Tuomanen

Subjects

Science

Abstract

Pneumococci produce a carbohydrate capsule that protects them against components of the host immune system but sensitizes them to host antimicrobial peptides. Here, Kietzman et al.show that pneumococci respond to antimicrobial peptides by capsule shedding, which requires the main autolysin LytA.

Published

2016

7. Dissecting Bacterial Cell Wall Entry and Signaling in Eukaryotic Cells: an Actin-Dependent Pathway Parallels Platelet-Activating Factor Receptor-Mediated Endocytosis

Author

Lip Nam Loh, Geli Gao, and Elaine I. Tuomanen

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT The Gram-positive bacterial cell wall (CW) peptidoglycan-teichoic acid complex is released into the host environment during bacterial metabolism or death. It is a highly inflammatory Toll-like receptor 2 (TLR2) ligand, and previous in vivo studies have demonstrated its ability to recapitulate pathological features of pneumonia and meningitis. We report that an actin-dependent pathway is involved in the internalization of the CW by epithelial and endothelial cells, in addition to the previously described platelet-activating factor receptor (PAFr)-dependent uptake pathway. Unlike the PAFr-dependent pathway, which is mediated by clathrin and dynamin and does not lead to signaling, the alternative pathway is sensitive to 5-(N-ethyl-N-isopropyl) amiloride (EIPA) and engenders Rac1, Cdc42, and phosphatidylinositol 3-kinase (PI3K) signaling. Upon internalization by this macropinocytosis-like pathway, CW is trafficked to lysosomes. Intracellular CW trafficking is more complex than previously recognized and suggests multiple points of interaction with and without innate immune signaling. IMPORTANCE Streptococcus pneumoniae is a major human pathogen infecting the respiratory tract and brain. It is an established model organism for understanding how infection injures the host. During infection or bacterial growth, bacteria shed their cell wall (CW) into the host environment and trigger inflammation. A previous study has shown that CW enters and crosses cell barriers by interacting with a receptor on the surfaces of host cells, termed platelet-activating factor receptor (PAFr). In the present study, by using cells that are depleted of PAFr, we identified a second pathway with features of macropinocytosis, which is a receptor-independent fluid uptake mechanism by cells. Each pathway contributes approximately the same amount of cell wall trafficking, but the PAFr pathway is silent, while the new pathway appears to contribute to the host inflammatory response to CW insult.

Published

2017

8. RelA Mutant Enterococcus faecium with Multiantibiotic Tolerance Arising in an Immunocompromised Host

Author

Erin S. Honsa, Vaughn S. Cooper, Mohammed N. Mhaissen, Matthew Frank, Jessica Shaker, Amy Iverson, Jeffrey Rubnitz, Randall T. Hayden, Richard E. Lee, Charles O. Rock, Elaine I. Tuomanen, Joshua Wolf, and Jason W. Rosch

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT Serious bacterial infections in immunocompromised patients require highly effective antibacterial therapy for cure, and thus, this setting may reveal novel mechanisms by which bacteria circumvent antibiotics in the absence of immune pressure. Here, an infant with leukemia developed vancomycin-resistant Enterococcus faecium (VRE) bacteremia that persisted for 26 days despite appropriate antibiotic therapy. Sequencing of 22 consecutive VRE isolates identified the emergence of a single missense mutation (L152F) in relA, which constitutively activated the stringent response, resulting in elevated baseline levels of the alarmone guanosine tetraphosphate (ppGpp). Although the mutant remained susceptible to both linezolid and daptomycin in clinical MIC testing and during planktonic growth, it demonstrated tolerance to high doses of both antibiotics when growing in a biofilm. This biofilm-specific gain in resistance was reflected in the broad shift in transcript levels caused by the mutation. Only an experimental biofilm-targeting ClpP-activating antibiotic was able to kill the mutant strain in an established biofilm. The relA mutation was associated with a fitness trade-off, forming smaller and less-well-populated biofilms on biological surfaces. We conclude that clinically relevant relA mutations can emerge during prolonged VRE infection, causing baseline activation of the stringent response, subsequent antibiotic tolerance, and delayed eradication in an immunocompromised state. IMPORTANCE The increasing prevalence of antibiotic-resistant bacterial pathogens is a major challenge currently facing the medical community. Such pathogens are of particular importance in immunocompromised patients as these individuals may favor emergence of novel resistance determinants due to lack of innate immune defenses and intensive antibiotic exposure. During the course of chemotherapy, a patient developed prolonged bacteremia with vancomycin-resistant Enterococcus faecium that failed to clear despite multiple front-line antibiotics. The consecutive bloodstream isolates were sequenced, and a single missense mutation identified in the relA gene, the mediator of the stringent response. Strains harboring the mutation had elevated baseline levels of the alarmone and displayed heightened resistance to the bactericidal activity of multiple antibiotics, particularly in a biofilm. Using a new class of compounds that modulate ClpP activity, the biofilms were successfully eradicated. These data represent the first clinical emergence of mutations in the stringent response in vancomycin-resistant entereococci.

Published

2017

9. Prediction of Symptomatic Severe Acute Respiratory Syndrome Coronavirus 2 Infection by Quantitative Digital Polymerase Chain Reaction Normalized to International Units

Author

Diego R, Hijano, Zhengming, Gu, Jessica, Brazelton, Haiqing, Zhu, Sri, Suganda, Heather L, Glasgow, Himani, Darji, Li, Tang, Thomas P, Fabrizio, Kim J, Allison, E Kaitlynn, Allen, Aditya H, Gaur, Joshua, Wolf, Paul G, Thomas, Richard J, Webby, and Elaine I, Tuomanen

Subjects

Infectious Diseases, Oncology

Abstract

Although numerous studies have evaluated severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection using cycle threshold (Ct) values as a surrogate of viral ribonucleic acid (RNA) load, few studies have used standardized, quantitative methods. We validated a quantitative SARS-CoV-2 digital polymerase chain reaction assay normalized to World Health Organization International Units and correlated viral RNA load with symptoms and disease severity.

Published

2022

10. A live‐attenuated pneumococcal vaccine elicits CD4+ T‐cell dependent class switching and provides serotype independent protection against acute otitis media

Author

Jason W Rosch, Amy R Iverson, Jessica Humann, Beth Mann, Geli Gao, Peter Vogel, Michael Mina, Kyle A Murrah, Antonia C Perez, W Edward Swords, Elaine I Tuomanen, and Jonathan A McCullers

Subjects

otitis media, Streptococcus, vaccine, virulence, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Acute otitis media (AOM) caused by Streptococcus pneumoniae remains one of the most common infectious diseases worldwide despite widespread vaccination. A major limitation of the currently licensed pneumococcal vaccines is the lack of efficacy against mucosal disease manifestations such as AOM, acute bacterial sinusitis and pneumonia. We sought to generate a novel class of live vaccines that (1) retain all major antigenic virulence proteins yet are fully attenuated and (2) protect against otitis media. A live vaccine candidate based on deletion of the signal recognition pathway component ftsY induced potent, serotype‐independent protection against otitis media, sinusitis, pneumonia and invasive pneumococcal disease. Protection was maintained in animals coinfected with influenza virus, but was lost if mice were depleted of CD4+ T cells at the time of vaccination. The live vaccine induced a strong serum IgG2a and IgG2b response that correlated with CD4+ T‐cell mediated class switching. Deletion of genes required for microbial adaptation to the host environment is a novel live attenuated vaccine strategy yielding the first experimental vaccine effective against pneumococcal otitis media.

Published

2013

11. Commensal pneumococci go nuclear

Author

Elaine I, Tuomanen

Subjects

Cell Nucleus, Histone Demethylases, Streptococcus pneumoniae, Symbiosis

Published

2020

12. Recombinant Microbial ADP-Ribosylating Toxins of Bordetella pertussis, Vibiro choierae, and Enterotoxigenic Escherichia coli: Structure, Function, and Toxoid Vaccine Development

Author

W. Neal Burnette, Witold Cieplak, Harvey R. Kaslow, Rino Rappuoli, and Elaine I. Tuomanen

Published

2020

13. Pre-existing humoral immunity to human common cold coronaviruses negatively impacts the protective SARS-CoV-2 antibody response

Author

Chun-Yang Lin, Joshua Wolf, David C. Brice, Yilun Sun, Macauley Locke, Sean Cherry, Ashley H. Castellaw, Marie Wehenkel, Jeremy Chase Crawford, Veronika I. Zarnitsyna, Daniel Duque, Kim J. Allison, E. Kaitlynn Allen, Scott A. Brown, Alexandra H. Mandarano, Jeremie H. Estepp, Charles Taylor, Carmen Molina-Paris, Stacey Schultz-Cherry, Li Tang, Paul G. Thomas, Maureen A. McGargill, Aditya H. Gaur, James M. Hoffman, Tomi Mori, Elaine I. Tuomanen, Richard J. Webby, Hana Hakim, Randall T. Hayden, Diego R. Hijano, Walid Awad, Resha Bajracharya, Brandi L. Clark, Valerie Cortez, Ronald H. Dallas, Thomas Fabrizio, Pamela Freiden, Ashleigh Gowen, Jason Hodges, Allison M. Kirk, Ericka Kirkpatrick Roubidoux, Robert C. Mettelman, Jamie Russell-Bell, Aisha Souquette, James Sparks, Lee-Ann Van de Velde, Ana Vazquez-Pagan, Kendall Whitt, Taylor L. Wilson, David E. Wittman, Nicholas Wohlgemuth, and Gang Wu

Subjects

viruses, Common Cold, pre-existing immunity, Cross Reactions, Antibodies, Viral, Microbiology, Article, Cell Line, Mice, antibody, Virology, Animals, Humans, skin and connective tissue diseases, 229E, Asymptomatic Infections, SARS-CoV-2, fungi, virus diseases, COVID-19, OC43, biochemical phenomena, metabolism, and nutrition, Immunity, Humoral, Mice, Inbred C57BL, HEK293 Cells, NL63, Case-Control Studies, Antibody Formation, Spike Glycoprotein, Coronavirus, Female, Parasitology, HKU1

Abstract

SARS-CoV-2 infection causes diverse outcomes ranging from asymptomatic infection to respiratory distress and death. A major unresolved question is whether prior immunity to endemic, human common cold coronaviruses (hCCCoV) impacts susceptibility to SARS-CoV-2 infection or immunity following infection and vaccination. Therefore, we analyzed samples from the same individuals before and after SARS-CoV-2 infection or vaccination. We found hCCCoV antibody levels increase after SARS-CoV-2 exposure, demonstrating cross-reactivity. However, a case-control study indicates baseline hCCCoV antibody levels are not associated with protection against SARS-CoV-2 infection. Rather, higher magnitudes of pre-existing betacoronavirus antibodies correlate with more SARS-CoV-2 antibodies following infection, an indicator of greater disease severity. Additionally, immunization with hCCCoV spike proteins before SARS-CoV-2 immunization impedes generation of SARS-CoV-2 neutralizing antibodies in mice. Together, these data suggest pre-existing hCCCoV antibodies hinder SARS-CoV-2 antibody-based immunity following infection and provide insight on how pre-existing coronavirus immunity impacts SARS-CoV-2 infection, which is critical considering emerging variants., Graphical Abstract, A major unresolved question is whether prior immunity to endemic, human common cold coronaviruses (hCCCoV) impacts susceptibility to SARS-CoV-2 infection. Lin et al. analyze hCCCoV antibodies in the same individuals before and after SARS-CoV-2 infection, finding pre-existing betacoronavirus antibodies may hinder SARS-CoV-2 effective immunity following infection.

Published

2022

14. Recognition of pneumococcal peptidoglycan: an expanded, pivotal role for LPS binding protein

Author

Joerg R, Weber, Dorette, Freyer, Christian, Alexander, Nicolas W J, Schröder, Anja, Reiss, Carsten, Küster, Dagmar, Pfeil, Elaine I, Tuomanen, and Ralf R, Schumann

Subjects

Male, Mice, Knockout, Models, Molecular, Binding Sites, Membrane Glycoproteins, Tumor Necrosis Factor-alpha, Toll-Like Receptors, Receptors, Cell Surface, Peptidoglycan, Nitric Oxide, Transfection, Immunity, Innate, Pneumococcal Infections, Rats, Mice, Streptococcus pneumoniae, Cell Wall, Case-Control Studies, Phosphatidylcholines, Animals, Humans, Carrier Proteins, Cells, Cultured, Acute-Phase Proteins, Signal Transduction

Abstract

Lipopolysaccharide binding protein (LBP) has a well-established role in LPS-induced immune responses. Here, we report that LBP also plays an essential role in the innate immune response to Gram-positive pneumococci, specifically to their major inflammatory component, pneumococcal cell wall (PCW). LBP was present in the CSF of patients with meningitis, and LBP-deficient mice failed to develop meningeal inflammation. LBP enhanced PCW-induced cell signaling and TNF-alpha release. LBP bound specifically to PCW multimers, indicating novel lipid-independent binding capability for LBP. We propose the iterative anionic groups along the glycan backbone of the cell wall are a crucial structure for recognition by LBP. Such a function for LBP expands its role to Gram-positive infections.

Published

2003

15. CONTRIBUTORS

Author

Abraham Aseffa, W. Ripley Ballou, Amie Batson, Jennifer M. Best, Maureen Birmingham, Bjarne Bjorvatn, Barry R. Bloom, Joseph S. Bresee, Elisa I. Choi, John D. Clemens, Giuseppe Del Giudice, Ciro A. de Quadros, B. Brett Finlay, Jon Gentsch, Lutz Gissmann, Roger I. Glass, Sarah Glass, Brian Greenwood, Alain Gumy, Jill G. Hackell, Neal A. Halsey, Stephen L. Hoffman, Hye-Won Koo, Paul-Henri Lambert, Pascal Launois, Norman L. Letvin, Ruth E. Levine, Jacques A. Louis, Ruth Macklin, John R. Mascola, Vega Masignani, Elizabeth Miller, Edward Kim Mulholland, Siobhan O'shea, Umesh Parashar, Mariagrazia Pizza, Stanley A. Plotkin, Rino Rappuoli, Thomas L. Richie, Martin Röcken, Stefania Salmaso, Robert A. Seder, Erica Seiguer, Claire-Anne Siegrist, Claudia Stein, Fabienne Tacchini-Cottier, Elaine I. Tuomanen, Heike Voigt, Jeffrey N. Weiser, Douglas B. Young, and Rolf M. Zinkernagel

Published

2003

16. The Pneumococcus

Author

Elaine I. Tuomanen, Timothy J. Mitchell, Donald Morrison, Brian G. Spratt, Elaine I. Tuomanen, Timothy J. Mitchell, Donald Morrison, and Brian G. Spratt

Subjects

Streptococcus pneumoniae, Streptococcus pneumoniae--pathogenicity, Streptococcus pneumoniae--physiology, Pneumococcal Infections--physiopathology, Pneumococcal Infections--prevention & control

Abstract

A state-of-the-art examination of research in this field and the impact of this gram-positive pathogen on human disease.

Published

2004

17. AdcAII of Streptococcus pneumoniae Affects Pneumococcal Invasiveness.

Author

Lindsey R Brown, Steven M Gunnell, Adam N Cassella, Lance E Keller, Lisa A Scherkenbach, Beth Mann, Matthew W Brown, Rebecca Hill, Nicholas C Fitzkee, Jason W Rosch, Elaine I Tuomanen, and Justin A Thornton

Subjects

Medicine, Science

Abstract

Across bacterial species, metal binding proteins can serve functions in pathogenesis in addition to regulating metal homeostasis. We have compared and contrasted the activities of zinc (Zn2+)-binding lipoproteins AdcA and AdcAII in the Streptococcus pneumoniae TIGR4 background. Exposure to Zn2+-limiting conditions resulted in delayed growth in a strain lacking AdcAII (ΔAdcAII) when compared to wild type bacteria or a mutant lacking AdcA (ΔAdcA). AdcAII failed to interact with the extracellular matrix protein laminin despite homology to laminin-binding proteins of related streptococci. Deletion of AdcA or AdcAII led to significantly increased invasion of A549 human lung epithelial cells and a trend toward increased invasion in vivo. Loss of AdcAII, but not AdcA, was shown to negatively impact early colonization of the nasopharynx. Our findings suggest that expression of AdcAII affects invasiveness of S. pneumoniae in response to available Zn2+ concentrations.

Published

2016

18. Streptococcus pneumoniae translocates into the myocardium and forms unique microlesions that disrupt cardiac function.

Author

Armand O Brown, Beth Mann, Geli Gao, Jane S Hankins, Jessica Humann, Jonathan Giardina, Paola Faverio, Marcos I Restrepo, Ganesh V Halade, Eric M Mortensen, Merry L Lindsey, Martha Hanes, Kyle I Happel, Steve Nelson, Gregory J Bagby, Jose A Lorent, Pablo Cardinal, Rosario Granados, Andres Esteban, Claude J LeSaux, Elaine I Tuomanen, and Carlos J Orihuela

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Hospitalization of the elderly for invasive pneumococcal disease is frequently accompanied by the occurrence of an adverse cardiac event; these are primarily new or worsened heart failure and cardiac arrhythmia. Herein, we describe previously unrecognized microscopic lesions (microlesions) formed within the myocardium of mice, rhesus macaques, and humans during bacteremic Streptococcus pneumoniae infection. In mice, invasive pneumococcal disease (IPD) severity correlated with levels of serum troponin, a marker for cardiac damage, the development of aberrant cardiac electrophysiology, and the number and size of cardiac microlesions. Microlesions were prominent in the ventricles, vacuolar in appearance with extracellular pneumococci, and remarkable due to the absence of infiltrating immune cells. The pore-forming toxin pneumolysin was required for microlesion formation but Interleukin-1β was not detected at the microlesion site ruling out pneumolysin-mediated pyroptosis as a cause of cell death. Antibiotic treatment resulted in maturing of the lesions over one week with robust immune cell infiltration and collagen deposition suggestive of long-term cardiac scarring. Bacterial translocation into the heart tissue required the pneumococcal adhesin CbpA and the host ligands Laminin receptor (LR) and Platelet-activating factor receptor. Immunization of mice with a fusion construct of CbpA or the LR binding domain of CbpA with the pneumolysin toxoid L460D protected against microlesion formation. We conclude that microlesion formation may contribute to the acute and long-term adverse cardiac events seen in humans with IPD.

Published

2014

19. Control of virulence by small RNAs in Streptococcus pneumoniae.

Author

Beth Mann, Tim van Opijnen, Jianmin Wang, Caroline Obert, Yong-Dong Wang, Robert Carter, Daniel J McGoldrick, Granger Ridout, Andrew Camilli, Elaine I Tuomanen, and Jason W Rosch

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Small noncoding RNAs (sRNAs) play important roles in gene regulation in both prokaryotes and eukaryotes. Thus far, no sRNA has been assigned a definitive role in virulence in the major human pathogen Streptococcus pneumoniae. Based on the potential coding capacity of intergenic regions, we hypothesized that the pneumococcus produces many sRNAs and that they would play an important role in pathogenesis. We describe the application of whole-genome transcriptional sequencing to systematically identify the sRNAs of Streptococcus pneumoniae. Using this approach, we have identified 89 putative sRNAs, 56 of which are newly identified. Furthermore, using targeted genetic approaches and Tn-seq transposon screening, we demonstrate that many of the identified sRNAs have important global and niche-specific roles in virulence. These data constitute the most comprehensive analysis of pneumococcal sRNAs and provide the first evidence of the extensive roles of sRNAs in pneumococcal pathogenesis.

Published

2012

20. The p53-target gene puma drives neutrophil-mediated protection against lethal bacterial sepsis.

Author

Sean P Garrison, Justin A Thornton, Hans Häcker, Richard Webby, Jerold E Rehg, Evan Parganas, Gerard P Zambetti, and Elaine I Tuomanen

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Disruption of p53/Puma-mediated apoptosis protects against lethality due to DNA damage. Here we demonstrate the unexpected requirement of the pro-apoptotic p53-target gene Puma to mount a successful innate immune response to bacterial sepsis. Puma⁻/⁻ mice rapidly died when challenged with bacteria. While the immune response in Puma⁻/⁻ mice was unchanged in cell migration, phagocytosis and bacterial killing, sites of infection accumulated large abscesses and sepsis was progressive. Blocking p53/Puma-induced apoptosis during infection caused resistance to ROS-induced cell death in the CD49d+ neutrophil subpopulation, resulting in insufficient immune resolution. This study identifies a biological role for p53/Puma apoptosis in optimizing neutrophil lifespan so as to ensure the proper clearance of bacteria and exposes a counter-balance between the innate immune response to infection and survival from DNA damage.

Published

2010