A Genome-Wide Association Study of Prediabetes Status Change

doi:10.3389/fendo.2022.881633

Meta-Analysis

. 2022 Jun 13:13:881633.

doi: 10.3389/fendo.2022.881633. eCollection 2022.

A Genome-Wide Association Study of Prediabetes Status Change

Tingting Liu¹, Hongjin Li², Yvette P Conley³, Brian A Primack⁴, Jing Wang¹, Wen-Juo Lo⁴, Changwei Li⁵

Affiliations

¹ College of Nursing, Florida State University, Tallahassee, FL, United States.
² College of Nursing, University of Illinois at Chicago, Chicago, IL, United States.
³ School of Nursing, University of Pittsburgh, Pittsburgh, PA, United States.
⁴ College of Education and Health Professions, University of Arkansas, Fayetteville, AR, United States.
⁵ Department of Epidemiology, Tulane University School of Tropical Medicine and Public Health, New Orleans, LA, United States.

PMID: 35769078
PMCID: PMC9234217
DOI: 10.3389/fendo.2022.881633

Meta-Analysis

A Genome-Wide Association Study of Prediabetes Status Change

Tingting Liu et al. Front Endocrinol (Lausanne). 2022.

. 2022 Jun 13:13:881633.

doi: 10.3389/fendo.2022.881633. eCollection 2022.

Authors

Tingting Liu¹, Hongjin Li², Yvette P Conley³, Brian A Primack⁴, Jing Wang¹, Wen-Juo Lo⁴, Changwei Li⁵

Affiliations

¹ College of Nursing, Florida State University, Tallahassee, FL, United States.
² College of Nursing, University of Illinois at Chicago, Chicago, IL, United States.
³ School of Nursing, University of Pittsburgh, Pittsburgh, PA, United States.
⁴ College of Education and Health Professions, University of Arkansas, Fayetteville, AR, United States.
⁵ Department of Epidemiology, Tulane University School of Tropical Medicine and Public Health, New Orleans, LA, United States.

PMID: 35769078
PMCID: PMC9234217
DOI: 10.3389/fendo.2022.881633

Abstract

We conducted the first genome-wide association study of prediabetes status change (to diabetes or normal glycaemia) among 900 White participants of the Atherosclerosis Risk in Communities (ARIC) study. Single nucleotide polymorphism (SNP)-based analysis was performed by logistic regression models, controlling for age, gender, body mass index, and the first 3 genetic principal components. Gene-based analysis was conducted by combining SNP-based p values using effective Chi-square test method. Promising SNPs (p < 1×10-5) and genes (p < 1×10-4) were further evaluated for replication among 514 White participants of the Framingham Heart Study (FHS). To accommodate familial correlations, generalized estimation equation models were applied for SNP-based analyses in the FHS. Analysis results across ARIC and FHS were combined using inverse-variance-weighted meta-analysis method for SNPs and Fisher's method for genes. We robustly identified 5 novel genes that are associated with prediabetes status change using gene-based analyses, including SGCZ (ARIC p = 9.93×10-6, FHS p = 2.00×10-3, Meta p = 3.72×10-7) at 8p22, HPSE2 (ARIC p = 8.26×10-19, FHS p = 5.85×10-3, Meta p < 8.26×10-19) at 10q24.2, ADGRA1 (ARIC p = 1.34×10-5, FHS p = 1.13×10-3, Meta p = 2.88×10-7) at 10q26.3, GLB1L3 (ARIC p = 3.71×10-6, FHS p = 4.51×10-3, Meta p = 3.16×10-7) at 11q25, and PCSK6 (ARIC p = 6.51×10-6, FHS p = 1.10×10-2, Meta p = 1.25×10-6) at 15q26.3. eQTL analysis indicated that these genes were highly expressed in tissues related to diabetes development. However, we were not able to identify any novel locus in single SNP-based analysis. Future large scale genomic studies of prediabetes status change are warranted.

Keywords: diabetes mellitus; genome-wide association study; normoglycemia; prediabetes status change; type 2.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**Figure 1**
Flow Chart of Participant Selection in ARIC Cohort Study.

**Figure 2**
Flow Chart of Participant Selection in FHS Cohort Study.

**Figure 3**
Manhattan Plot for Genome-Wide Single SNP-Based Analysis for Prediabetes Status Change.

**Figure 4**
QQ Plot for Single SNP-Based Analysis Results.

**Figure 5**
Manhattan Plot for Genome-Wide Gene-Based Analysis Results.

**Figure 6**
QQ Plot for Gene-Based Analysis Results.

**Figure 7**
Regional Association Plots for Significant Genes.

See this image and copyright information in PMC

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1. International Diabetes Federation . IDF Diabetes Atlas. 10th ed. (2021).
1. Centers for Disease Control and Prevention . National Diabetes Statistics Report, 2020. Atlanta, GA: Centers for Disease Control and Prevention, US Department of Health and Human Services. (2020).
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1. American Diabetes Association . Economic Costs of Diabetes in the U.S. @ in 2017. Diabetes Care (2018) 41(5):917–28. doi: 10.2337/dci18-0007 - DOI - PMC - PubMed
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[1] International Diabetes Federation . IDF Diabetes Atlas. 10th ed. (2021).

[2] International Diabetes Federation . IDF Diabetes Atlas. 10th ed. (2021).

[3] Centers for Disease Control and Prevention . National Diabetes Statistics Report, 2020. Atlanta, GA: Centers for Disease Control and Prevention, US Department of Health and Human Services. (2020).

[4] Centers for Disease Control and Prevention . National Diabetes Statistics Report, 2020. Atlanta, GA: Centers for Disease Control and Prevention, US Department of Health and Human Services. (2020).

[5] Hales CM, Carroll MD, Fryar CD, Ogden CL. Prevalence of Obesity and Severe Obesity Among Adults: United States, 2017-2018. NCHS Data Brief (2020) 360):1–8. - PubMed

[6] Hales CM, Carroll MD, Fryar CD, Ogden CL. Prevalence of Obesity and Severe Obesity Among Adults: United States, 2017-2018. NCHS Data Brief (2020) 360):1–8. - PubMed

[7] American Diabetes Association . Economic Costs of Diabetes in the U.S. @ in 2017. Diabetes Care (2018) 41(5):917–28. doi: 10.2337/dci18-0007 - DOI - PMC - PubMed

[8] American Diabetes Association . Economic Costs of Diabetes in the U.S. @ in 2017. Diabetes Care (2018) 41(5):917–28. doi: 10.2337/dci18-0007 - DOI - PMC - PubMed

[9] DeFronzo RA, Tripathy D, Schwenke DC, Banerji M, Bray GA, Buchanan TA, et al. . Pioglitazone for Diabetes Prevention in Impaired Glucose Tolerance. N Engl J Med (2011) 364(12):1104–15. doi: 10.1056/NEJMoa1010949 - DOI - PubMed

[10] DeFronzo RA, Tripathy D, Schwenke DC, Banerji M, Bray GA, Buchanan TA, et al. . Pioglitazone for Diabetes Prevention in Impaired Glucose Tolerance. N Engl J Med (2011) 364(12):1104–15. doi: 10.1056/NEJMoa1010949 - DOI - PubMed

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A Genome-Wide Association Study of Prediabetes Status Change

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A Genome-Wide Association Study of Prediabetes Status Change

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Abstract

Conflict of interest statement

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