Naturally Acquired Human Immunity to Pneumococcus Is Dependent on Antibody to Protein Antigens

Robert, Wilson; Cohen, Jonathan; Reglinski, Mark; José, Ricardo J.; Chan, Win Yan; Marshall, Helina; Vogel, Corné P. de; Gordon, Stephen B.; Green, David; Petersen, Fernanda Cristina; Baxendale, Helen; Brown, Jeremy S.

doi:10.1371/journal.ppat.1006137

Cited by 77 publications

(101 citation statements)

References 61 publications

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“…The fact that natural protection against pneumococcal colonization is dependent on antibodies to pneumococcal proteins, rather than capsular polysaccharide, suggests that an approach involving protein vaccine candidates may be most fruitful [109]. Whole-cell vaccines and protein vaccines with broad coverage across the over 95 serotypes are two approaches that have been suggested and investigated [94, 107••].…”

Section: Vaccinesmentioning

confidence: 99%

Streptococcus pneumoniae Otitis Media Pathogenesis and How It Informs Our Understanding of Vaccine Strategies

Bergenfelz

Håkansson

2017

Curr Otorhinolaryngol Rep

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Purpose of ReviewThis study aimed to review the literature regarding the mechanisms of transition from asymptomatic colonization to induction of otitis media and how the insight into the pathogenesis of otitis media has the potential to help design future otitis media-directed vaccines.Recent FindingsRespiratory viruses have long been shown to predispose individuals to bacterial respiratory infections, such as otitis media. Recent information suggests that Streptococcus pneumoniae, which colonize the nasopharynx asymptomatically, can sense potentially “threatening” changes in the nasopharyngeal environment caused by virus infection by upregulating specific sets of genes involved in biofilm release, dissemination from the nasopharynx to other sites, and protection against the host immune system. Furthermore, an understanding of the transcriptional and proteomic changes occurring in bacteria during transition to infection has led to identification of novel vaccine targets that are disease-specific and will not affect asymptomatic colonization. This approach will avoid major changes in the delicate balance of microorganisms in the respiratory tract microbiome due to elimination of S. pneumoniae.SummaryOur recent findings are reviewed in the context of the current literature on the epidemiology and pathogenesis of otitis media. We also discuss how other otopathogens, such as Haemophilus influenzae and Moraxella catarrhalis, as well as the normal respiratory microbiome, can modulate the ability of pneumococci to cause infection. Furthermore, the unsatisfactory protection offered by the pneumococcal conjugate vaccines is highlighted and we review potential future strategies emerging to confer a more specific protection against otitis media.

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Section: Vaccinesmentioning

confidence: 99%

Streptococcus pneumoniae Otitis Media Pathogenesis and How It Informs Our Understanding of Vaccine Strategies

Bergenfelz

Håkansson

2017

Curr Otorhinolaryngol Rep

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“…of protein epitopes from pneumococcus (157), and raising antibodies against some of these pneumococcal antigens by vaccinating mice can improve defense against pneumococcal pneumonia (157,334), by mechanisms including opsonophagocytosis, decreased adherence, disruption of toxins, and more. Human blood from any of at least three different continents consistently contains IgG antibodies against a common set of diverse pneumococcal proteins, and delivering human IgG (without antigen selection) to mice is sufficient to diminish the severity of infection during pneumococcal pneumonia (538). However, pneumococcus-recognizing antibodies found in the blood after pneumococcal infection are not necessarily capable of mediating heterotypic protection (84,157).…”

Section: Uninfected Lung Of Infant Humans and Naïve Spf Laboratory Micementioning

confidence: 99%

“…High levels of secondhand smoke or of air pollution also associate with increased risk for and severity of pneumonia (7,364,538). These exposures contain similar particulate matter and toxic compounds like acrolein, so pneumonia susceptibility due to secondhand smoke and air pollution may be from overlapping mechanisms with tobacco smoking.…”

Section: B Comorbiditiesmentioning

confidence: 99%

Integrative Physiology of Pneumonia

Quinton

Walkey

Mizgerd

2018

Physiological Reviews

174

203

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Pneumonia is a type of acute lower respiratory infection that is common and severe. The outcome of lower respiratory infection is determined by the degrees to which immunity is protective and inflammation is damaging. Intercellular and interorgan signaling networks coordinate these actions to fight infection and protect the tissue. Cells residing in the lung initiate and steer these responses, with additional immunity effectors recruited from the bloodstream. Responses of extrapulmonary tissues, including the liver, bone marrow, and others, are essential to resistance and resilience. Responses in the lung and extrapulmonary organs can also be counterproductive and drive acute and chronic comorbidities after respiratory infection. This review discusses cell-specific and organ-specific roles in the integrated physiological response to acute lung infection, and the mechanisms by which intercellular and interorgan signaling contribute to host defense and healthy respiratory physiology or to acute lung injury, chronic pulmonary disease, and adverse extrapulmonary sequelae. Pneumonia should no longer be perceived as simply an acute infection of the lung. Pneumonia susceptibility reflects ongoing and poorly understood chronic conditions, and pneumonia results in diverse and often persistent deleterious consequences for multiple physiological systems.

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“…[24 ] However, naturally acquired protection against IPD depends on antibody to protein antigens rather than capsule as shown in a murine model using human antibodies. [25]While there is a significant difference in quantitative expression of capsule between variants [26], it is unclear as to differences in expression of membrane proteins between variants of the same strain. [27–29]…”

Section: Capsular Polysaccharide Versus Protein-directed Antibody Effmentioning

confidence: 99%

“…[24 ] However, naturally acquired protection against IPD depends on antibody to protein antigens rather than capsule as shown in a murine model using human antibodies. [25]…”

Section: Capsular Polysaccharide Versus Protein-directed Antibody Effmentioning

confidence: 99%

Pneumococcal whole-cell and protein-based vaccines: changing the paradigm

Pichichero

2017

Expert Review of Vaccines

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Introduction. Epidemiologic evaluations of Streptococcus pneumoniae nasopharyngeal (NP) colonization and pneumococcal disease suggest that newer serotypes in future formulations of pneumococcal conjugate vaccines (PCVs) are needed and there may need to be continued reformulations because there are many new emerging serotypes expressed by pneumococci. Areas Covered: Mechanisms of protection by next-generation whole-cell vaccine (WCV) and/or multi-component pneumococcal purified protein vaccines (PPVs) in development for prevention of pneumococcal infections. Expert Commentary: A long-term strategy for prevention of pneumococcal disease will likely include WCV and PPVs. However these vaccines will impact disease pathogenesis in a different manner than PCVs. Prevention of pneumococcal NP colonization should not be expected, nor is it desirable because risks for NP colonization by other replacement organisms into the ecological niche vacated by all pneumococci may have consequences. The expression biology of capsule and surface protein antigens are phase dependent. Therefore, the immune response will be different and the mechanism of protection divergent. WCVs and PPVs may be alternative strategies in low income developing countries to protect against invasive disease and reduce NP carriage load.

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Naturally Acquired Human Immunity to Pneumococcus Is Dependent on Antibody to Protein Antigens

Cited by 77 publications

References 61 publications

Streptococcus pneumoniae Otitis Media Pathogenesis and How It Informs Our Understanding of Vaccine Strategies

Streptococcus pneumoniae Otitis Media Pathogenesis and How It Informs Our Understanding of Vaccine Strategies

Integrative Physiology of Pneumonia

Pneumococcal whole-cell and protein-based vaccines: changing the paradigm

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