Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping

Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping

Abstract Previous studies suggested that genetic, environmental factors and their interactions could affect body fat mass (BFM). However, studies describing these effects were performed at a single time point in a population. In this study, we investigated the interaction between genetic and environ...

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Main Authors: Joon Ho Kang, Heewon Kim, Jinki Kim, Jong-Hwa Seo, Soyeon Cha, Hyunjung Oh, Kyunga Kim, Seong-Jin Park, Eunbin Kim, Sunga Kong, Jae-Hak Lee, Joon Seol Bae, Hong-Hee Won, Je-Gun Joung, Yoon Jung Yang, Jinho Kim, Woong-Yang Park
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-92229-5
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spelling doaj-eae3c884d01446a0a19bbc0f516945fa2021-06-27T11:32:00ZengNature Publishing GroupScientific Reports2045-23222021-06-011111910.1038/s41598-021-92229-5Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotypingJoon Ho Kang0Heewon Kim1Jinki Kim2Jong-Hwa Seo3Soyeon Cha4Hyunjung Oh5Kyunga Kim6Seong-Jin Park7Eunbin Kim8Sunga Kong9Jae-Hak Lee10Joon Seol Bae11Hong-Hee Won12Je-Gun Joung13Yoon Jung Yang14Jinho Kim15Woong-Yang Park16Department of Molecular Cell Biology, Sungkyunkwan University School of MedicineSamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversityAI&SW Center, SAIT, SECAI&SW Center, SAIT, SECSamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversitySamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversitySamsung Medical CenterAI&SW Center, SAIT, SECDepartment of Clinical Nutrition, School of Public Health, Dongduk Women’s UniversityDepartment of Clinical Research Design and Evaluation, SAIHST, Sungkyunkwan UniversitySamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversitySamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversitySamsung Advanced Institute for Health Sciences and Technology, Sungkyunkwan University of MedicineSamsung Medical CenterDepartment of Foods and Nutrition, College of Natural Sciences, Dongduk Women’s UniversitySamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversitySamsung Genome Institute, Samsung Medical Center, Sungkyunkwan UniversityAbstract Previous studies suggested that genetic, environmental factors and their interactions could affect body fat mass (BFM). However, studies describing these effects were performed at a single time point in a population. In this study, we investigated the interaction between genetic and environmental factors in affecting BFM and implicate the healthcare utilization of lifestyle modifications from a personalized and genomic perspective. We examined how nutritional intake or physical activity changes in the individuals affect BFM concerning the genetic composition. We conducted an observational study including 259 adult participants with single nucleotide polymorphism (SNP) genotyping and longitudinal lifestyle monitoring, including food consumption and physical activities, by following lifestyle modification guidance. The participants’ lifelog data on exercise and diet were collected through a wearable device for 3 months. Moreover, we measured anthropometric and serologic markers to monitor their potential changes through lifestyle modification. We examined the influence of genetic composition on body fat reduction induced by lifestyle changes using genetic risk scores (GRSs) of three phenotypes: GRS-carbohydrate (GRS-C), GRS-fat (GRS-F), and GRS-exercise (GRS-E). Our results showed that lifestyle modifications affected BFM more significantly in the high GRS class compared to the low GRS class, indicating the role of genetic factors affecting the efficiency of the lifestyle modification-induced BFM changes. Interestingly, the influence of exercise modification in the low GRS class with active lifestyle change was lower than that in the high GRS class with inactive lifestyle change (P = 0.022), suggesting the implication of genetic factors for efficient body fat control.https://doi.org/10.1038/s41598-021-92229-5
collection DOAJ
language English
format Article
sources DOAJ
author Joon Ho Kang
Heewon Kim
Jinki Kim
Jong-Hwa Seo
Soyeon Cha
Hyunjung Oh
Kyunga Kim
Seong-Jin Park
Eunbin Kim
Sunga Kong
Jae-Hak Lee
Joon Seol Bae
Hong-Hee Won
Je-Gun Joung
Yoon Jung Yang
Jinho Kim
Woong-Yang Park
spellingShingle Joon Ho Kang
Heewon Kim
Jinki Kim
Jong-Hwa Seo
Soyeon Cha
Hyunjung Oh
Kyunga Kim
Seong-Jin Park
Eunbin Kim
Sunga Kong
Jae-Hak Lee
Joon Seol Bae
Hong-Hee Won
Je-Gun Joung
Yoon Jung Yang
Jinho Kim
Woong-Yang Park
Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
Scientific Reports
author_facet Joon Ho Kang
Heewon Kim
Jinki Kim
Jong-Hwa Seo
Soyeon Cha
Hyunjung Oh
Kyunga Kim
Seong-Jin Park
Eunbin Kim
Sunga Kong
Jae-Hak Lee
Joon Seol Bae
Hong-Hee Won
Je-Gun Joung
Yoon Jung Yang
Jinho Kim
Woong-Yang Park
author_sort Joon Ho Kang
title Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
title_short Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
title_full Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
title_fullStr Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
title_full_unstemmed Interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
title_sort interaction of genetic and environmental factors for body fat mass control: observational study for lifestyle modification and genotyping
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-06-01
description Abstract Previous studies suggested that genetic, environmental factors and their interactions could affect body fat mass (BFM). However, studies describing these effects were performed at a single time point in a population. In this study, we investigated the interaction between genetic and environmental factors in affecting BFM and implicate the healthcare utilization of lifestyle modifications from a personalized and genomic perspective. We examined how nutritional intake or physical activity changes in the individuals affect BFM concerning the genetic composition. We conducted an observational study including 259 adult participants with single nucleotide polymorphism (SNP) genotyping and longitudinal lifestyle monitoring, including food consumption and physical activities, by following lifestyle modification guidance. The participants’ lifelog data on exercise and diet were collected through a wearable device for 3 months. Moreover, we measured anthropometric and serologic markers to monitor their potential changes through lifestyle modification. We examined the influence of genetic composition on body fat reduction induced by lifestyle changes using genetic risk scores (GRSs) of three phenotypes: GRS-carbohydrate (GRS-C), GRS-fat (GRS-F), and GRS-exercise (GRS-E). Our results showed that lifestyle modifications affected BFM more significantly in the high GRS class compared to the low GRS class, indicating the role of genetic factors affecting the efficiency of the lifestyle modification-induced BFM changes. Interestingly, the influence of exercise modification in the low GRS class with active lifestyle change was lower than that in the high GRS class with inactive lifestyle change (P = 0.022), suggesting the implication of genetic factors for efficient body fat control.
url https://doi.org/10.1038/s41598-021-92229-5
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