Growing up on an Amish farm protects children against asthma by reprogramming immune cells
Cows in an Amish barn
House dust differences between communities affect immune development
By probing the differences between two farming communities—the Amish of Indiana and the Hutterites of South Dakota—an interdisciplinary team of researchers found that specific aspects of the Amish environment are associated with changes to immune cells that appear to protect children from developing asthma.
In the Aug. 4, 2016, issue of the New England Journal of Medicine, the researchers showed that substances in the house dust from Amish, but not Hutterite, homes were able to engage and shape the innate immune system (the body’s front-line response to most microbes) in young Amish children in ways that may suppress pathologic responses leading to allergic asthma.
Carole Ober, PhD
“It shows that the source of protection is not simply farming, and has narrowed in on what the specific protection might be,” said study co-author Carole Ober, PhD, professor and chairman of human genetics at the University of Chicago. “We also clearly show, in humans and in mice, that this protection requires engagement of the innate immune system.”
“Over a decade ago, our colleague Erika von Mutius discovered that growing up on a farm can protect against asthma,” Ober said. “Our new study builds on her work, some initial observations made by co-author Mark Holbreich among the Amish, and our long-standing work on asthma in the Hutterites.
The Amish and Hutterite farming communities in the United States, founded by immigrants from Central Europe in the 18th and 19th centuries, respectively, provide textbook opportunities for such comparative studies. The Amish and the Hutterites have similar genetic ancestry. They share similar lifestyles and customs, such as no television and a Germanic farming diet. They have large families, get childhood vaccinations, breastfeed their children, drink raw milk and don’t allow indoor pets.
The communities, however, are distinct in two important ways. Although both groups depend on agriculture, their farming practices differ. The Amish have retained traditional methods. They live on single-family dairy farms and rely on horses for fieldwork and transportation. In contrast, the Hutterites live on large communal farms. They use modern, industrialized farm machinery. This distances young Hutterite children from the constant daily exposure to farm animals.
Milking cows in a Hutterite barn
The other striking difference is what Ober calls a “whopping disparity in asthma.” About 5 percent of Amish schoolchildren aged 6 to 14 have asthma. This is about half of the U.S. average (10.3%) for children aged 5 to 14, and one-fourth of the prevalence (21.3%) among Hutterite children.
To understand this disparity, the researchers studied 30 Amish children 7 to 14 years old, and 30 age-matched Hutterite children. They scrutinized the children’s genetic profiles, which confirmed the remarkable similarities between Amish and Hutterite children. They compared the types of immune cells in the children’s blood, collected airborne dust from Amish and Hutterite homes and measured the microbial load in homes in both communities.
The first gee-whiz moment came from the blood studies. These revealed startling differences between the innate immune response from the Amish and Hutterites.
Anne Sperling, PhD
“The Amish had more and younger neutrophils, blood cells crucial to fight infections, and fewer eosinophils, blood cells that promote allergic inflammation,” said study co-author, immunologist Anne Sperling, PhD, associate professor of medicine at the University of Chicago. Gene expression profiles in blood cells also revealed enhanced activation of key innate immunity genes in Amish children.
The second eureka moment came from experiments using mice. When study co-author, immunologist Donata Vercelli, MD, professor of cellular and molecular medicine and associate director of the Asthma and Airway Disease Research Center at the University of Arizona, exposed mice to house-dust extracts, she found the airways of mice that received Amish dust were protected from asthma-like responses to allergens. In contrast, mice exposed to Hutterite house dust were not protected.
What was different? Dust collected from Amish homes was “much richer in microbial products,” the authors note, than dust from Hutterite homes.
“Neither the Amish nor the Hutterites have dirty homes,” Ober explained. “Both are tidy. The Amish barns, however, are much closer to their homes. Their children run in and out of them, often barefoot, all day long. There’s no obvious dirt in the Amish homes, no lapse of cleanliness. It’s just in the air, and in the dust.”
To better understand how asthma protection was achieved, the researchers used mice that lack MyD88 and Trif, genes crucial for innate immune responses. In these mice, the protective effect of the Amish dust was completely lost.
“The results of the mouse experiments conclusively prove that products from the Amish environment are sufficient to confer protection from asthma, and highlight the novel, central role that innate immunity plays in directing this process,” Vercelli said.
Carole Ober, PhD, (standing in back) while collecting health data with Hutterite children
“In the end,” the authors concluded, “the novelty of our work lies in the identification of innate immunity as the primary target of the protective Amish environment.”
“We hope that our findings will allow the identification of relevant substances that will lead to completely novel strategies to prevent asthma and allergy,” said co-author Erika von Mutius, PhD, professor at Dr. von Hauner Children Hospital in Munich, Germany.
“You can’t put a cow in every family’s house,” Ober added, “but we may be able to protect children from asthma by finding a way to re-create the time-tested Amish experience.”
The National Institutes of Health, the St. Vincent Foundation and the American Academy of Allergy, Asthma & Immunology Foundation supported the study. Additional authors were Michelle Stein, Cara Hrusch, Catherine Igartua and Jack Gilbert from the University of Chicago; Justyna Gozdz, Vadim Pivniouk, Julie Ledford, Mauricius Marques dos Santos, Julia Neilson, Sean Murray, Raina Maier and Fernando Martinez from the University of Arizona; Nervana Metwali and Peter Thorne from the University of Iowa.
The above post is reprinted from materials provided by The University of Chicago Medical Center.
Image Source: The University of Chicago Medical Center