Confounding effects of microbiome on the susceptibility of TNFSF15 to Crohn’s disease in the Ryukyu Islands

Crohn’s disease (CD) involves chronic inflammation in the gastrointestinal tract due to dysregulation of the host immune response to the gut microbiome. Even though the host-microbiome interactions are likely contributors to the development of CD, a few studies have detected genetic variants that ch...

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Veröffentlicht in:Human genetics 2017-04, Vol.136 (4), p.387-397
Hauptverfasser: Nakagome, Shigeki, Chinen, Hiroshi, Iraha, Atsushi, Hokama, Akira, Takeyama, Yasuaki, Sakisaka, Shotaro, Matsui, Toshiyuki, Kidd, Judith R., Kidd, Kenneth K., Said, Heba S., Suda, Wataru, Morita, Hidetoshi, Hattori, Masahira, Hanihara, Tsunehiko, Kimura, Ryosuke, Ishida, Hajime, Fujita, Jiro, Kinjo, Fukunori, Mano, Shuhei, Oota, Hiroki
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Sprache:eng
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Zusammenfassung:Crohn’s disease (CD) involves chronic inflammation in the gastrointestinal tract due to dysregulation of the host immune response to the gut microbiome. Even though the host-microbiome interactions are likely contributors to the development of CD, a few studies have detected genetic variants that change bacterial compositions and increase CD risk. We focus on one of the well-replicated susceptible genes, tumor necrosis factor superfamily member 15 ( TNFSF15 ), and apply statistical analyses for personal profiles of genotypes and salivary microbiota collected from CD cases and controls in the Ryukyu Islands, southernmost islands of the Japanese archipelago. Our association test confirmed the susceptibility of TNFSF15 in the Ryukyu Islands. We found that the recessive model was supported to fit the observed genotype frequency of risk alleles slightly better than the additive model, defining the genetic effect on CD if a pair of the chromosomes in an individual consists of all risk alleles. The combined analysis of haplotypes and salivary microbiome from a small set of samples showed a significant association of the genetic effect with the increase of Prevotella , which led to a significant increase of CD risk. However, the genetic effect on CD disappeared if the abundance of Prevotella was low, suggesting the genetic contribution to CD is conditionally independent given a fixed amount of Prevotella . Although our statistical power is limited due to the small sample size, these results support an idea that the genetic susceptibility of TNFSF15 to CD may be confounded, in part, by the increase of Prevotella .
ISSN:0340-6717
1432-1203
DOI:10.1007/s00439-017-1764-0