Patterns of population differentiation and natural selection on the celiac disease background risk network

Celiac disease is a common small intestinal inflammatory condition induced by wheat gluten and related proteins from rye and barley. Left untreated, the clinical presentation of CD can include failure to thrive, malnutrition, and distension in juveniles. The disease can additionally lead to vitamin...

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Veröffentlicht in:	PloS one 2013-07, Vol.8 (7), p.e70564-e70564
Hauptverfasser:	Sams, Aaron, Hawks, John
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Sprache:	eng
Schlagworte:	Adaptation Agricultural production Anemia Autoimmune diseases Barley Biocompatibility Biology Biomedical materials Celiac disease Celiac Disease - genetics Celiac Disease - immunology Demographics Demography Differentiation Disease Distension Europe Evolution & development Evolution, Molecular Fitness Gene loci Gene Regulatory Networks - genetics Gene Regulatory Networks - immunology Genetic Predisposition to Disease - genetics Genetics Genetics, Population Genome, Human - genetics Genome-Wide Association Study Genomes Gluten Haplotypes Health risk assessment Health risks Histocompatibility antigen HLA Holocene Humans Hunter-gatherers Hypotheses Immune system Immunity Immunity - genetics Immunology Inflammation Intestine Localization Loci Malnutrition Medicine Natural selection Neolithic Null hypothesis Osteoporosis Polymorphism, Single Nucleotide Population Population differentiation Positive selection Proteins Reproductive fitness Risk Risk Factors Rye Selection, Genetic Social and Behavioral Sciences Studies Triticum Vitamin deficiency Wheat
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description	Celiac disease is a common small intestinal inflammatory condition induced by wheat gluten and related proteins from rye and barley. Left untreated, the clinical presentation of CD can include failure to thrive, malnutrition, and distension in juveniles. The disease can additionally lead to vitamin deficiencies, anemia, and osteoporosis. Therefore, CD potentially negatively affected fitness in past populations utilizing wheat, barley, and rye. Previous analyses of CD risk variants have uncovered evidence for positive selection on some of these loci. These studies also suggest the possibility that risk for common autoimmune conditions such as CD may be the result of positive selection on immune related loci in the genome to fight infection. Under this evolutionary scenario, disease phenotypes may be a trade-off from positive selection on immunity. If this hypothesis is generally true, we can expect to find a signal of natural selection when we survey across the network of loci known to influence CD risk. This study examines the non-HLA autosomal network of gene loci associated with CD risk in Europe. We reject the null hypothesis of neutrality on this network of CD risk loci. Additionally, we can localize evidence of selection in time and space by adding information from the genome of the Tyrolean Iceman. While we can show significant differentiation between continental regions across the CD network, the pattern of evidence is not consistent with primarily recent (Holocene) selection across this network in Europe. Further localization of ancient selection on this network may illuminate the ecological pressures acting on the immune system during this critically interesting phase of our evolution.
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Left untreated, the clinical presentation of CD can include failure to thrive, malnutrition, and distension in juveniles. The disease can additionally lead to vitamin deficiencies, anemia, and osteoporosis. Therefore, CD potentially negatively affected fitness in past populations utilizing wheat, barley, and rye. Previous analyses of CD risk variants have uncovered evidence for positive selection on some of these loci. These studies also suggest the possibility that risk for common autoimmune conditions such as CD may be the result of positive selection on immune related loci in the genome to fight infection. Under this evolutionary scenario, disease phenotypes may be a trade-off from positive selection on immunity. If this hypothesis is generally true, we can expect to find a signal of natural selection when we survey across the network of loci known to influence CD risk. This study examines the non-HLA autosomal network of gene loci associated with CD risk in Europe. We reject the null hypothesis of neutrality on this network of CD risk loci. Additionally, we can localize evidence of selection in time and space by adding information from the genome of the Tyrolean Iceman. While we can show significant differentiation between continental regions across the CD network, the pattern of evidence is not consistent with primarily recent (Holocene) selection across this network in Europe. 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Left untreated, the clinical presentation of CD can include failure to thrive, malnutrition, and distension in juveniles. The disease can additionally lead to vitamin deficiencies, anemia, and osteoporosis. Therefore, CD potentially negatively affected fitness in past populations utilizing wheat, barley, and rye. Previous analyses of CD risk variants have uncovered evidence for positive selection on some of these loci. These studies also suggest the possibility that risk for common autoimmune conditions such as CD may be the result of positive selection on immune related loci in the genome to fight infection. Under this evolutionary scenario, disease phenotypes may be a trade-off from positive selection on immunity. If this hypothesis is generally true, we can expect to find a signal of natural selection when we survey across the network of loci known to influence CD risk. This study examines the non-HLA autosomal network of gene loci associated with CD risk in Europe. 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Academic</collection><collection>PubMed Central (Full Participant titles)</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>PloS one</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Sams, Aaron</au><au>Hawks, John</au><au>De Re, Valli</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Patterns of population differentiation and natural selection on the celiac disease background risk network</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2013-07-31</date><risdate>2013</risdate><volume>8</volume><issue>7</issue><spage>e70564</spage><epage>e70564</epage><pages>e70564-e70564</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Celiac disease is a common small intestinal inflammatory condition induced by wheat gluten and related proteins from rye and barley. Left untreated, the clinical presentation of CD can include failure to thrive, malnutrition, and distension in juveniles. The disease can additionally lead to vitamin deficiencies, anemia, and osteoporosis. Therefore, CD potentially negatively affected fitness in past populations utilizing wheat, barley, and rye. Previous analyses of CD risk variants have uncovered evidence for positive selection on some of these loci. These studies also suggest the possibility that risk for common autoimmune conditions such as CD may be the result of positive selection on immune related loci in the genome to fight infection. Under this evolutionary scenario, disease phenotypes may be a trade-off from positive selection on immunity. If this hypothesis is generally true, we can expect to find a signal of natural selection when we survey across the network of loci known to influence CD risk. This study examines the non-HLA autosomal network of gene loci associated with CD risk in Europe. We reject the null hypothesis of neutrality on this network of CD risk loci. Additionally, we can localize evidence of selection in time and space by adding information from the genome of the Tyrolean Iceman. While we can show significant differentiation between continental regions across the CD network, the pattern of evidence is not consistent with primarily recent (Holocene) selection across this network in Europe. Further localization of ancient selection on this network may illuminate the ecological pressures acting on the immune system during this critically interesting phase of our evolution.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23936230</pmid><doi>10.1371/journal.pone.0070564</doi><oa>free_for_read</oa></addata></record>
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subjects	Adaptation Agricultural production Anemia Autoimmune diseases Barley Biocompatibility Biology Biomedical materials Celiac disease Celiac Disease - genetics Celiac Disease - immunology Demographics Demography Differentiation Disease Distension Europe Evolution & development Evolution, Molecular Fitness Gene loci Gene Regulatory Networks - genetics Gene Regulatory Networks - immunology Genetic Predisposition to Disease - genetics Genetics Genetics, Population Genome, Human - genetics Genome-Wide Association Study Genomes Gluten Haplotypes Health risk assessment Health risks Histocompatibility antigen HLA Holocene Humans Hunter-gatherers Hypotheses Immune system Immunity Immunity - genetics Immunology Inflammation Intestine Localization Loci Malnutrition Medicine Natural selection Neolithic Null hypothesis Osteoporosis Polymorphism, Single Nucleotide Population Population differentiation Positive selection Proteins Reproductive fitness Risk Risk Factors Rye Selection, Genetic Social and Behavioral Sciences Studies Triticum Vitamin deficiency Wheat
title	Patterns of population differentiation and natural selection on the celiac disease background risk network
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