Predicting type 2 diabetes using genetic and environmental risk factors in a multi-ethnic Malaysian cohort

Abdullah, N.; Abdul Murad, N. A.; Jamal, R.; Scott, R. J.; Holliday, E. G.; Mohd Haniff, E. A.; Syafruddin, S. E.; Attia, J.; Oldmeadow, C.; Kamaruddin, M. A.; Abd Jalal, N.; Ismail, N.; Ishak, M.

Title: Predicting type 2 diabetes using genetic and environmental risk factors in a multi-ethnic Malaysian cohort
Creator: Abdullah, N.; Abdul Murad, N. A.; Jamal, R.; Scott, R. J.; Holliday, E. G.; Mohd Haniff, E. A.; Syafruddin, S. E.; Attia, J.; Oldmeadow, C.; Kamaruddin, M. A.; Abd Jalal, N.; Ismail, N.; Ishak, M.
Relation: Public Health Vol. 149, Issue August 2017, p. 31-38
Publisher Link: http://dx.doi.org/10.1016/j.puhe.2017.04.003
Publisher: Elsevier
Resource Type: journal article
Date: 2017
Description: Objective: Malaysia has a high and rising prevalence of type 2 diabetes (T2D). While environmental (non-genetic) risk factors for the disease are well established, the role of genetic variations and gene–environment interactions remain understudied in this population. This study aimed to estimate the relative contributions of environmental and genetic risk factors to T2D in Malaysia and also to assess evidence for gene–environment interactions that may explain additional risk variation. Study design: This was a case–control study including 1604 Malays, 1654 Chinese and 1728 Indians from the Malaysian Cohort Project. Methods: The proportion of T2D risk variance explained by known genetic and environmental factors was assessed by fitting multivariable logistic regression models and evaluating McFadden's pseudo R² and the area under the receiver-operating characteristic curve (AUC). Models with and without the genetic risk score (GRS) were compared using the log likelihood ratio Chi-squared test and AUCs. Multiplicative interaction between genetic and environmental risk factors was assessed via logistic regression within and across ancestral groups. Interactions were assessed for the GRS and its 62 constituent variants. Results: The models including environmental risk factors only had pseudo R² values of 16.5–28.3% and AUC of 0.75–0.83. Incorporating a genetic score aggregating 62 T2D-associated risk variants significantly increased the model fit (likelihood ratio P-value of 2.50 × 10⁻⁴–4.83 × 10⁻¹²) and increased the pseudo R² by about 1–2% and AUC by 1–3%. None of the gene–environment interactions reached significance after multiple testing adjustment, either for the GRS or individual variants. For individual variants, 33 out of 310 tested associations showed nominal statistical significance with 0.001 < P < 0.05. Conclusion: This study suggests that known genetic risk variants contribute a significant but small amount to overall T2D risk variation in Malaysian population groups. If gene–environment interactions involving common genetic variants exist, they are likely of small effect, requiring substantially larger samples for detection.
Subject: type 2 diabetes; gene–environment interaction; Asian population; epidemiology; population studies
Identifier: http://hdl.handle.net/1959.13/1352935
Identifier: uon:30988
Identifier: ISSN:0033-3506
Language: eng
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