Author
Listed:
- Karani S Vimaleswaran
- Diane J Berry
- Chen Lu
- Emmi Tikkanen
- Stefan Pilz
- Linda T Hiraki
- Jason D Cooper
- Zari Dastani
- Rui Li
- Denise K Houston
- Andrew R Wood
- Karl Michaëlsson
- Liesbeth Vandenput
- Lina Zgaga
- Laura M Yerges-Armstrong
- Mark I McCarthy
- Josée Dupuis
- Marika Kaakinen
- Marcus E Kleber
- Karen Jameson
- Nigel Arden
- Olli Raitakari
- Jorma Viikari
- Kurt K Lohman
- Luigi Ferrucci
- Håkan Melhus
- Erik Ingelsson
- Liisa Byberg
- Lars Lind
- Mattias Lorentzon
- Veikko Salomaa
- Harry Campbell
- Malcolm Dunlop
- Braxton D Mitchell
- Karl-Heinz Herzig
- Anneli Pouta
- Anna-Liisa Hartikainen
- the Genetic Investigation of Anthropometric Traits (GIANT) consortium
- Elizabeth A Streeten
- Evropi Theodoratou
- Antti Jula
- Nicholas J Wareham
- Claes Ohlsson
- Timothy M Frayling
- Stephen B Kritchevsky
- Timothy D Spector
- J Brent Richards
- Terho Lehtimäki
- Willem H Ouwehand
- Peter Kraft
- Cyrus Cooper
- Winfried März
- Chris Power
- Ruth J F Loos
- Thomas J Wang
- Marjo-Riitta Järvelin
- John C Whittaker
- Aroon D Hingorani
- Elina Hyppönen
Abstract
A mendelian randomization study based on data from multiple cohorts conducted by Karani Santhanakrishnan Vimaleswaran and colleagues re-examines the causal nature of the relationship between vitamin D levels and obesity. Background: Obesity is associated with vitamin D deficiency, and both are areas of active public health concern. We explored the causality and direction of the relationship between body mass index (BMI) and 25-hydroxyvitamin D [25(OH)D] using genetic markers as instrumental variables (IVs) in bi-directional Mendelian randomization (MR) analysis. Methods and Findings: We used information from 21 adult cohorts (up to 42,024 participants) with 12 BMI-related SNPs (combined in an allelic score) to produce an instrument for BMI and four SNPs associated with 25(OH)D (combined in two allelic scores, separately for genes encoding its synthesis or metabolism) as an instrument for vitamin D. Regression estimates for the IVs (allele scores) were generated within-study and pooled by meta-analysis to generate summary effects. Conclusions: On the basis of a bi-directional genetic approach that limits confounding, our study suggests that a higher BMI leads to lower 25(OH)D, while any effects of lower 25(OH)D increasing BMI are likely to be small. Population level interventions to reduce BMI are expected to decrease the prevalence of vitamin D deficiency. Background: Obesity—having an unhealthy amount of body fat—is increasing worldwide. In the US, for example, a third of the adult population is now obese. Obesity is defined as having a body mass index (BMI, an indicator of body fat calculated by dividing a person's weight in kilograms by their height in meters squared) of more than 30.0 kg/m2. Although there is a genetic contribution to obesity, people generally become obese by consuming food and drink that contains more energy than they need for their daily activities. Thus, obesity can be prevented by having a healthy diet and exercising regularly. Compared to people with a healthy weight, obese individuals have an increased risk of developing diabetes, heart disease and stroke, and tend to die younger. They also have a higher risk of vitamin D deficiency, another increasingly common public health concern. Vitamin D, which is essential for healthy bones as well as other functions, is made in the skin after exposure to sunlight but can also be obtained through the diet and through supplements. Why Was This Study Done?: Observational studies cannot prove that obesity causes vitamin D deficiency because obese individuals may share other characteristics that reduce their circulating 25-hydroxy vitamin D [25(OH)D] levels (referred to as confounding). Moreover, observational studies cannot indicate whether the larger vitamin D storage capacity of obese individuals (vitamin D is stored in fatty tissues) lowers their 25(OH)D levels or whether 25(OH)D levels influence fat accumulation (reverse causation). If obesity causes vitamin D deficiency, monitoring and treating vitamin D deficiency might alleviate some of the adverse health effects of obesity. Conversely, if low vitamin D levels cause obesity, encouraging people to take vitamin D supplements might help to control the obesity epidemic. Here, the researchers use bi-directional “Mendelian randomization” to examine the direction and causality of the relationship between BMI and 25(OH)D. In Mendelian randomization, causality is inferred from associations between genetic variants that mimic the influence of a modifiable environmental exposure and the outcome of interest. Because gene variants do not change over time and are inherited randomly, they are not prone to confounding and are free from reverse causation. Thus, if a lower vitamin D status leads to obesity, genetic variants associated with lower 25(OH)D concentrations should be associated with higher BMI, and if obesity leads to a lower vitamin D status, then genetic variants associated with higher BMI should be associated with lower 25(OH)D concentrations. What Did the Researchers Do and Find?: The researchers created a “BMI allele score” based on 12 BMI-related gene variants and two “25(OH)D allele scores,” which are based on gene variants that affect either 25(OH)D synthesis or breakdown. Using information on up to 42,024 participants from 21 studies, the researchers showed that the BMI allele score was associated with both BMI and with 25(OH)D levels among the study participants. Based on this information, they calculated that each 10% increase in BMI will lead to a 4.2% decrease in 25(OH)D concentrations. By contrast, although both 25(OH)D allele scores were strongly associated with 25(OH)D levels, neither score was associated with BMI. This lack of an association between 25(OH)D allele scores and obesity was confirmed using data from more than 100,000 individuals involved in 46 studies that has been collected by the GIANT (Genetic Investigation of Anthropometric Traits) consortium. What Do These Findings Mean?: These findings suggest that a higher BMI leads to a lower vitamin D status whereas any effects of low vitamin D status on BMI are likely to be small. That is, these findings provide evidence for obesity as a causal factor in the development of vitamin D deficiency but not for vitamin D deficiency as a causal factor in the development of obesity. These findings suggest that population-level interventions to reduce obesity should lead to a reduction in the prevalence of vitamin D deficiency and highlight the importance of monitoring and treating vitamin D deficiency as a means of alleviating the adverse influences of obesity on health. Additional Information: Please access these Web sites via the online version of this summary at http://dx.doi.org/10.1371/journal.pmed.1001383.
Suggested Citation
Karani S Vimaleswaran & Diane J Berry & Chen Lu & Emmi Tikkanen & Stefan Pilz & Linda T Hiraki & Jason D Cooper & Zari Dastani & Rui Li & Denise K Houston & Andrew R Wood & Karl Michaëlsson & Liesbeth, 2013.
"Causal Relationship between Obesity and Vitamin D Status: Bi-Directional Mendelian Randomization Analysis of Multiple Cohorts,"
PLOS Medicine, Public Library of Science, vol. 10(2), pages 1-13, February.
Handle:
RePEc:plo:pmed00:1001383
DOI: 10.1371/journal.pmed.1001383
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Cited by:
- Christian Dustmann & Uta Schoenberg & Malte Sandner, 2022.
"The effects of sun intensity during pregnancy and in the first 12 months of life on childhood obesity,"
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2215, Rockwool Foundation Berlin (RF Berlin) - Centre for Research and Analysis of Migration (CReAM).
- Raouf Afif, 2019.
"Do Obesity and Vitamin D Correlate with Each Other A Mini Review,"
Current Research in Diabetes & Obesity Journal, Juniper Publishers Inc., vol. 11(2), pages 38-40, June.
- Ee Yin Chua & Zalilah Mohd Shariff & Norhasmah Sulaiman & Geeta Appannah & Heng Yaw Yong, 2020.
"Associations of Serum 25-Hydroxyvitamin D with Adiposity and At-Risk Lipid Profile Differ for Indigenous (Orang Asli) Male and Female Adults of Peninsular Malaysia,"
IJERPH, MDPI, vol. 17(8), pages 1-16, April.
- Sofus C Larsen & Lars Ängquist & Max Moldovan & Ville Huikari & Sylvain Sebert & Alana Cavadino & Tarunveer Singh Ahluwalia & Tea Skaaby & Allan Linneberg & Lise Lotte N Husemoen & Ulla Toft & Oluf Pe, 2016.
"Serum 25-Hydroxyvitamin D Status and Longitudinal Changes in Weight and Waist Circumference: Influence of Genetic Predisposition to Adiposity,"
PLOS ONE, Public Library of Science, vol. 11(4), pages 1-18, April.
- May Fouad Nassar & Mohamed Farouk Allam, 2020.
"Vitamin D Predicament in Obese Children and Adolescents,"
Biomedical Journal of Scientific & Technical Research, Biomedical Research Network+, LLC, vol. 25(1), pages 18732-18734, January.
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