A groundbreaking study compares immune responses in urban and rural infants, revealing why city kids develop more allergies. Researchers identified hyper-inflammatory T cells in urban babies versus regulatory cells in Old Order Mennonite children. The farming environment's microbial richness may train the immune system to avoid overreactions. This NIH-funded work could lead to microbiome-based allergy prevention strategies.
May 15, 2025
Study shows how allergies differ in urban, rural children
"These pro-allergic T cells
are more inflammatory than anything previously described in this context"
– Kirsi Jarvinen-Seppo, URMC"
Scientists
discovered that a previously uncharacterized subset of immune cells may play an
important role in the development of allergy illnesses and explain disparities
between urban and rural populations.
Key Points
1 Urban infants show aggressive
allergy-linked T cells
2 Rural Mennonite kids have more
balanced immune regulators
3 Gut microbiome differences may
drive immune disparities
4 NIH-funded study explores
preventive allergy therapies
The study sheds light on how the
immune system develops in early life and why urban children are more prone to
allergies than rural children.
Led by researchers from the
University of Rochester Medical Center (URMC) Department of Pediatrics,
including MD/PhD student Catherine Pizzarello and senior author Kirsi
Jarvinen-Seppo, MD, PhD, the study uncovered a unique subpopulation of T cells
known as helper 2 (Th2) cells with distinct molecular characteristics.
T-cells are the foundational
immune cells that fight off infections, but there is evidence that this
specific subtype is recognizing certain foods as allergenic and attacking them,
according to Jarvinen-Seppo.
"These pro-allergic T cells
are more inflammatory than anything previously described in this context,"
said Jarvinen-Seppo, chief of Pediatric Allergy and Immunology at UR Medicine
Golisano Children's Hospital. "They were found more frequently in urban
infants who later developed allergies, suggesting they may be a predictive
biomarker or even a mechanistic driver of allergic disease."
The study compared blood samples
from urban infants with those from infants in a farming community, specifically
the Old Order Mennonites (OOM) of New York's Finger Lakes region--known for
their low rates of allergies. Researchers found that while urban infants had
higher levels of the aggressive Th2 cells, OOM infants had more regulatory T
cells that help keep the immune system in balance and reduce the likelihood of
allergic responses.
While additional research is
needed to identify a possible cause, Jarvinen-Seppo speculates that differences
in the development of the gut microbiome between the two populations, and more
exposure to "healthy" bacteria in rural children, may be a factor.
"The farming environment,
which is rich in microbial exposure, appears to support the development of a
more tolerant immune system. Meanwhile, the urban environment may promote the
emergence of immune cells that are primed for allergic inflammation," said
Jarvinen-Seppo.
The work is part of a broader,
NIH-funded investigation into how early-life exposures influence long-term
immune outcomes. In 2023, Jarvinen-Seppo's team received a $7 million grant
from the National Institute of Allergy and Infectious Diseases (NIAID) to study
environmental, microbiome, and immune differences between OOM and urban
infants. The goal is to continue this foundational work to uncover protective
factors that could be translated into preventive therapies, including
probiotics or microbiome-supporting interventions.
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