Transplacental immune modulation with a bacterial-derived agent protects against allergic airway inflammation
Kyle T. Mincham, … , Patrick G. Holt, Deborah H. Strickland
Kyle T. Mincham, … , Patrick G. Holt, Deborah H. Strickland
Published August 28, 2018
Citation Information: J Clin Invest. 2018;128(11):4856-4869. https://doi.org/10.1172/JCI122631.
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Research Article Cell biology Immunology

Transplacental immune modulation with a bacterial-derived agent protects against allergic airway inflammation

Abstract

Chronic allergic inflammatory diseases are a major cause of morbidity, with allergic asthma alone affecting over 300 million people worldwide. Epidemiological studies demonstrate that environmental stimuli are associated with either the promotion or prevention of disease. Major reductions in asthma prevalence are documented in European and US farming communities. Protection is associated with exposure of mothers during pregnancy to microbial breakdown products present in farm dusts and unprocessed foods and enhancement of innate immune competence in the children. We sought to develop a scientific rationale for progressing these findings toward clinical application for primary disease prevention. Treatment of pregnant mice with a defined, clinically approved immune modulator was shown to markedly reduce susceptibility of their offspring to development of the hallmark clinical features of allergic airway inflammatory disease. Mechanistically, offspring displayed enhanced dendritic cell–dependent airway mucosal immune surveillance function, which resulted in more efficient generation of mucosal-homing regulatory T cells in response to local inflammatory challenge. We provide evidence that the principal target for maternal treatment effects was the fetal dendritic cell progenitor compartment, equipping the offspring for accelerated functional maturation of the airway mucosal dendritic cell network following birth. These data provide proof of concept supporting the rationale for developing transplacental immune reprogramming approaches for primary disease prevention.

Authors

Kyle T. Mincham, Naomi M. Scott, Jean-Francois Lauzon-Joset, Jonatan Leffler, Alexander N. Larcombe, Philip A. Stumbles, Sarah A. Robertson, Christian Pasquali, Patrick G. Holt, Deborah H. Strickland

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Figure 5

Treatment of mothers with OM-85 during pregnancy limits inflammatory airway mucosal DC responses in sensitized and aeroallergen-challenged offspring.

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Treatment of mothers with OM-85 during pregnancy limits inflammatory air...
(A) Absolute numbers of CD11b+ and (B) CD103+ cDCs within ADLNs, trachea, and peripheral lung. (CE) MFI of IAIE expression on (C) CD11b+ and CD103+ cDCs within ADLNs, (D) trachea, and (E) peripheral lung. (F) Peripheral lung pDCs as a proportion of total CD45+ cells. (G) MFI of IAIE on peripheral lung pDCs. Data are presented from individual animals comparing naive controls versus OVA-sensitized and aerosol-challenged offspring from OM-85–treated and untreated mothers and displayed as box-and-whisker plots showing median, Q1, and Q3 and minimum to maximum values of n ≥ 5 independent experiments. Total peripheral lung cells displayed as cells per milligram of tissue (A and B). Statistical significance was determined using Student’s t test or Mann-Whitney U test and is presented as *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.