Making friends: active selection of symbionts and rejection of pathogens by the neonatal immune system

Sedney, Colleen J.; Harvill, Eric T.

doi:10.3389/fimmu.2023.1287518

Front. Immunol.

2023

DOI: 10.3389/fimmu.2023.1287518

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Making friends: active selection of symbionts and rejection of pathogens by the neonatal immune system

Colleen J. Sedney,

Eric T. Harvill

Abstract: The neonatal immune system is generally viewed as deficient compared to adults, often attributed to its incomplete development. This view is reinforced by the extraordinary sensitivity and susceptibility of neonates to certain pathogens. Examination of the basis for this susceptibility has characterized neonatal immunity as skewed strongly toward anti-inflammatory responses, which are interpreted as the lack of full development of the strong inflammatory responses observed in adults. Here we examine the altern… Show more

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2024

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Cited by 1 publication

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Neonatal Neutrophil-mediated Control of Bordetella pertussis Is Disrupted by Pertussis Toxin

Sedney,

Masters,

Callender

et al. 2024

The Journal of Immunology

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The increased susceptibility of infants and young children to some diseases has often been explained as the neonatal immune system (NIS) being incomplete and/or underdeveloped. However, our recent work demonstrated that neonatal mice could clear a Bordetella pertussis (Bp) strain lacking pertussis toxin (PTx) (BpΔptx) much more efficiently than adult mice, indicating that the NIS can be extremely effective, but this ability is highly sensitive to being blocked by PTx. In this article, we investigated immunological mechanisms by which neonates efficiently and rapidly clear BpΔptx to better understand how the NIS functions and how PTx disrupts it. Depleting neutrophils, or blocking their recruitment, inhibited pups’ ability to rapidly clear BpΔptx, revealing a critical role for neutrophils. Pups deficient in complement (C3−/−) failed to recruit neutrophils and did not efficiently clear BpΔptx but recovered these abilities upon treatment with C3a. Neutrophil depletion in C3−/− pups led to further failure to control BpΔptx, suggesting that neutrophils and complement have independent roles in rapid clearance of BpΔptx. Depleting or disrupting neutrophils and complement had negligible effect on the rapid growth of wild-type Bp, indicating that PTx blocks these otherwise highly effective aspects of the NIS.

show abstract

Neonatal Neutrophil-mediated Control of Bordetella pertussis Is Disrupted by Pertussis Toxin

Sedney,

Masters,

Callender

et al. 2024

The Journal of Immunology

View full text Add to dashboard Cite

show abstract

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Making friends: active selection of symbionts and rejection of pathogens by the neonatal immune system

Cited by 1 publication

References 21 publications

Neonatal Neutrophil-mediated Control of Bordetella pertussis Is Disrupted by Pertussis Toxin

Neonatal Neutrophil-mediated Control of Bordetella pertussis Is Disrupted by Pertussis Toxin

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