Genetic variants found to play key role in human immune system
University of Bonn News Sep 13, 2017
It is widely recognized that people respond differently to infections. This can partially be explained by genetics, shows a new study published in the journal Nature Communications, by an international collaboration of researchers from Germany and the United States. The study, ÂGenetic Regulatory Effects Modified by Immune Activation Contribute to Autoimmune Disease Associations, maped genetic variants that affect how much gene expression changes in response to immune stimulus.
ÂOur defense mechanisms against microbial pathogens rely on white blood cells that are specialized to detect infection. Upon encounter of microbes, these cells trigger cellular defense programs via activating and repressing the expression of hundreds of genes, explained one of the senior authors of the study, Dr. Veit Hornung from the Ludwig-Maxmilians-Universität in Germany (formerly University of Bonn). ÂWe wanted to understand how genetic differences between individuals affect this cellular response to infection, added human geneticist Dr. Johannes Schumacher from the University of Bonn in Germany, another senior author of the study.
The investigators collected blood from 134 volunteers, and treated monocytes - a type of white blood cells - in the laboratory with three components that mimic infection with bacteria or a virus. They then analyzed how cells from different individuals respond to infection by measuring gene expression both during the early and late immune response. Integrating the gene expression profiles with genome-wide genetic data of each individual, they were able to map how genetic variants affect gene expression, and how this genetic effect changes with immune stimulus.
The human immune system plays a central role in autoimmune and inflammatory diseases, cancer, metabolism and aging. The researchers discovered hundreds of genes where the response to immune stimulus depended on the genetic variants carried by the individual. ÂThese genes include many of the well known genes of the human immune system, demonstrating that genetic variation has an important role in how the human immune system works, noted Dr. Sarah Kim-Hellmuth, the lead author of the study, from the New York Genome Center, Columbia University, and Max Planck Institute in Munich (formerly University of Bonn). ÂWhile earlier studies have mapped some of these effects, this study is particularly comprehensive, with three stimuli and two time points analyzed. The findings offer novel insights into the genetic contribution to varying immune responses among individuals, and its consequences on immune-mediated diseases.
The study captured genetic variants whose effects on gene regulation was different depending on the different infectious state of the cells. These included four associations to diseases such as cholesterol level and celiac disease. Furthermore, the researchers discovered a trend of genetic risk for autoimmune diseases such as lupus and celiac disease to be enriched for gene regulatory effects modified by the immune state. ÂThis supports a paradigm where genetic disease risk is sometimes driven not by genetic variants causing constant cellular dysregulation, but by causing a failure to respond properly to environmental conditions such as infection, said co-senior author Dr. Tuuli Lappalainen, from the New York Genome Center and Columbia University.
ÂItÂs been known for a long time that most diseases have both genetic and environmental risk factors. But itÂs actually more complicated than that because genes and environment interact. As demonstrated in our study, a genetic risk factor may manifest only in certain environments, Â explained Dr Lappalainen. ÂWe are still in early stages of understanding the interplay of genetics and environment, but our results indicate that this is a key component of human biology and disease.Â
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ÂOur defense mechanisms against microbial pathogens rely on white blood cells that are specialized to detect infection. Upon encounter of microbes, these cells trigger cellular defense programs via activating and repressing the expression of hundreds of genes, explained one of the senior authors of the study, Dr. Veit Hornung from the Ludwig-Maxmilians-Universität in Germany (formerly University of Bonn). ÂWe wanted to understand how genetic differences between individuals affect this cellular response to infection, added human geneticist Dr. Johannes Schumacher from the University of Bonn in Germany, another senior author of the study.
The investigators collected blood from 134 volunteers, and treated monocytes - a type of white blood cells - in the laboratory with three components that mimic infection with bacteria or a virus. They then analyzed how cells from different individuals respond to infection by measuring gene expression both during the early and late immune response. Integrating the gene expression profiles with genome-wide genetic data of each individual, they were able to map how genetic variants affect gene expression, and how this genetic effect changes with immune stimulus.
The human immune system plays a central role in autoimmune and inflammatory diseases, cancer, metabolism and aging. The researchers discovered hundreds of genes where the response to immune stimulus depended on the genetic variants carried by the individual. ÂThese genes include many of the well known genes of the human immune system, demonstrating that genetic variation has an important role in how the human immune system works, noted Dr. Sarah Kim-Hellmuth, the lead author of the study, from the New York Genome Center, Columbia University, and Max Planck Institute in Munich (formerly University of Bonn). ÂWhile earlier studies have mapped some of these effects, this study is particularly comprehensive, with three stimuli and two time points analyzed. The findings offer novel insights into the genetic contribution to varying immune responses among individuals, and its consequences on immune-mediated diseases.
The study captured genetic variants whose effects on gene regulation was different depending on the different infectious state of the cells. These included four associations to diseases such as cholesterol level and celiac disease. Furthermore, the researchers discovered a trend of genetic risk for autoimmune diseases such as lupus and celiac disease to be enriched for gene regulatory effects modified by the immune state. ÂThis supports a paradigm where genetic disease risk is sometimes driven not by genetic variants causing constant cellular dysregulation, but by causing a failure to respond properly to environmental conditions such as infection, said co-senior author Dr. Tuuli Lappalainen, from the New York Genome Center and Columbia University.
ÂItÂs been known for a long time that most diseases have both genetic and environmental risk factors. But itÂs actually more complicated than that because genes and environment interact. As demonstrated in our study, a genetic risk factor may manifest only in certain environments, Â explained Dr Lappalainen. ÂWe are still in early stages of understanding the interplay of genetics and environment, but our results indicate that this is a key component of human biology and disease.Â
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