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Redefining human diseases through the lens of your DNA

Date:
October 25, 2021
Source:
Osaka University
Summary:
Researchers performed genome-wide analysis studies (GWAS) to identify genetic elements associated with various diseases. To address inequities in previous GWAS, the team included 180,000 Japanese people and 220 health-related phenotypes in this analysis. After meta-analyzing the results with biobanks from the UK and Finland, they identified 5,000 novel genomic loci of phenotypic significance. They made their data publicly available to allow researchers worldwide examine genetic associations with human diseases in an unbiased manner.
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FULL STORY

Throughout most of medical history, physicians have diagnosed individuals with various diseases based upon their description and presentation of clinical symptoms. In recent years, investigations using genome-wide association studies (GWAS) have helped scientists understand genetic factors involved in different diseases. In a newly published article in Nature Genetics, a team led by researchers at Osaka University and Harvard Medical School performed GWAS in biobank samples from various populations to identify specific genomic loci related to a diverse array of medical indications and traits.

Although GWAS have intensively been performed for the past decades, their widespread applicability has not been sufficient. Most GWAS have used European population data, with a relatively small number of phenotypes, as individuals with certain diseases were recruited for participation. A methodical way to interpret the results and put them in context has also been lacking. Thus, the Osaka University group aimed to address these limitations and perform equitable GWAS.

To achieve this, the team performed GWAS using BioBank Japan, which includes medical data from 180,000 people and is one of the largest non-European biobanks. This incorporated 220 health-related diseases and traits and made the study extremely diverse and comprehensive, particularly in Asian populations.

"We wanted to significantly expand the scope of this GWAS to gain as much meaningful insight from this biobank as possible," says lead author of the study Saori Sakaue. "In fact, 108 of the phenotypes had never been part of GWAS in East Asian people," says the co-first author of the study Masahiro Kanai.

The researchers then performed cross-population meta-analyses with the UK Biobank (United Kingdom) and FinnGen (Finland), which involved 628,000 individuals. This work helped identify over 14,000 genomic loci of phenotypic significance. Of these, 5,000 loci were novel discoveries. The group ensured their summary statistics were publicly available on a web portal (https://pheweb.jp) as a resource for geneticists and researchers worldwide.

"We believed it was extremely important to create a way to let others in the greater genetics community access our data," explains Yukinori Okada, senior author. "We definitely want to foster global collaborations and hope meaningful functional follow-up experiments will be performed from our findings."

Because of the complex nature of their GWAS results and disease genetics in general, the team performed statistical deconvolution of their summary statistics and other data. This step was important because it allowed the researchers to make disease-relevant conclusions from their enormous dataset.

"The deconvolution allowed us to pinpoint specific genetic variants and shared mechanisms associated with various diseases across populations. Those mechanisms were in turn useful in reevaluating and restructuring human diseases through the lens of human genetics," explains Sakaue.

This work provides groundbreaking results that address pertinent predispositions within previous GWAS. The team's findings will allow investigators to examine human diseases through genetics with an unbiased eye.


Story Source:

Materials provided by Osaka University. Note: Content may be edited for style and length.


Journal Reference:

  1. Saori Sakaue, Masahiro Kanai, Yosuke Tanigawa, Juha Karjalainen, Mitja Kurki, Seizo Koshiba, Akira Narita, Takahiro Konuma, Kenichi Yamamoto, Masato Akiyama, Kazuyoshi Ishigaki, Akari Suzuki, Ken Suzuki, Wataru Obara, Ken Yamaji, Kazuhisa Takahashi, Satoshi Asai, Yasuo Takahashi, Takao Suzuki, Nobuaki Shinozaki, Hiroki Yamaguchi, Shiro Minami, Shigeo Murayama, Kozo Yoshimori, Satoshi Nagayama, Daisuke Obata, Masahiko Higashiyama, Akihide Masumoto, Yukihiro Koretsune, Kaoru Ito, Chikashi Terao, Toshimasa Yamauchi, Issei Komuro, Takashi Kadowaki, Gen Tamiya, Masayuki Yamamoto, Yusuke Nakamura, Michiaki Kubo, Yoshinori Murakami, Kazuhiko Yamamoto, Yoichiro Kamatani, Aarno Palotie, Manuel A. Rivas, Mark J. Daly, Koichi Matsuda, Yukinori Okada. A cross-population atlas of genetic associations for 220 human phenotypes. Nature Genetics, 2021; 53 (10): 1415 DOI: 10.1038/s41588-021-00931-x

Cite This Page:

Osaka University. "Redefining human diseases through the lens of your DNA." ScienceDaily. ScienceDaily, 25 October 2021. <www.sciencedaily.com/releases/2021/10/211025101751.htm>.
Osaka University. (2021, October 25). Redefining human diseases through the lens of your DNA. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2021/10/211025101751.htm
Osaka University. "Redefining human diseases through the lens of your DNA." ScienceDaily. www.sciencedaily.com/releases/2021/10/211025101751.htm (accessed November 20, 2024).

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