<p>Atopic diseases associated with allergens, as well as allergic diseases, frequently arise early in life; however, the age-dependent mechanisms governing immune responses to allergens remain poorly understood<sup><CitationRef CitationID="CR1">1</CitationRef></sup>. Here we find that in early life, exposure to common allergens triggers a distinct bifurcated immune response, simultaneously triggering type 17 inflammation in the skin and initiating canonical T helper 2 sensitization in the lymph nodes. This early-life γδ type 17-mediated dermatitis primes the exaggerated allergic lung inflammation upon secondary allergen exposure. Mechanistically, we find dendritic cell (DC)-mediated type 17 activation directly in the skin without requiring migration to lymph nodes; we term this state ‘peripheral immune inducer’ (pii) DC. CD301b<sup>+</sup> conventional type 2 DCs acquire allergen, adopt the pii-DC state, produce IL-23 and activate local γδ type 17 cells independently of lymph-node engagement. The pii-DC state is enabled by the immature hypothalamic–pituitary–adrenal axis and physiologically low systemic glucocorticoids characteristic of early life<sup><CitationRef CitationID="CR2">2</CitationRef>,<CitationRef CitationID="CR3">3</CitationRef></sup>; DC-specific deletion of the glucocorticoid receptor recapitulates the pii-DC phenotype. These findings define a developmental checkpoint, set by neuroendocrine maturation, that enables in situ DC activation and immune induction, thereby shaping age-dependent responses to allergens.</p>

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Peripheral immune-inducer dendritic cells drive early-life allergic inflammation

  • Yue Xing,
  • Ilana Reznikov,
  • Abonti Nur Ahmed,
  • Ikjot Sidhu,
  • Jill Wisnewski,
  • Asma Farhat,
  • Aleksandr Prystupa,
  • Piotr Konieczny,
  • Kody Mansfield,
  • Melissa L. Cooper,
  • Stephen T. Yeung,
  • Madeline Kim,
  • Sophia Adeghe,
  • Katherine D. Gaines,
  • Meredith Manson,
  • Ji Hyun Sim,
  • Qingrong Huang,
  • Ata S. Moshiri,
  • Kamal M. Khanna,
  • Theresa T. Lu,
  • Emma Guttman-Yassky,
  • Amanda W. Lund,
  • Niroshana Anandasabapathy,
  • Shruti Naik

摘要

Atopic diseases associated with allergens, as well as allergic diseases, frequently arise early in life; however, the age-dependent mechanisms governing immune responses to allergens remain poorly understood1. Here we find that in early life, exposure to common allergens triggers a distinct bifurcated immune response, simultaneously triggering type 17 inflammation in the skin and initiating canonical T helper 2 sensitization in the lymph nodes. This early-life γδ type 17-mediated dermatitis primes the exaggerated allergic lung inflammation upon secondary allergen exposure. Mechanistically, we find dendritic cell (DC)-mediated type 17 activation directly in the skin without requiring migration to lymph nodes; we term this state ‘peripheral immune inducer’ (pii) DC. CD301b+ conventional type 2 DCs acquire allergen, adopt the pii-DC state, produce IL-23 and activate local γδ type 17 cells independently of lymph-node engagement. The pii-DC state is enabled by the immature hypothalamic–pituitary–adrenal axis and physiologically low systemic glucocorticoids characteristic of early life2,3; DC-specific deletion of the glucocorticoid receptor recapitulates the pii-DC phenotype. These findings define a developmental checkpoint, set by neuroendocrine maturation, that enables in situ DC activation and immune induction, thereby shaping age-dependent responses to allergens.