JMIR Research Protocols (Jul 2020)

Exploring the Paradoxical Relationship of a Creb 3 Regulatory Factor Missense Variant With Body Mass Index and Diabetes Among Samoans: Protocol for the Soifua Manuia (Good Health) Observational Cohort Study

  • Hawley, Nicola L,
  • Pomer, Alysa,
  • Rivara, Anna C.,
  • Rosenthal, Samantha L,
  • Duckham, Rachel L,
  • Carlson, Jenna C,
  • Naseri, Take,
  • Reupena, Muagututia Sefuiva,
  • Selu, Melania,
  • Lupematisila, Vaimoana,
  • Unasa, Folla,
  • Vesi, Lupesina,
  • Fatu, Tracy,
  • Unasa, Seipepa,
  • Faasalele-Savusa, Kima,
  • Wetzel, Abigail I,
  • Soti-Ulberg, Christina,
  • Prescott, Angela T,
  • Siufaga, Gloria,
  • Penaia, Corina,
  • To, Sophie B.,
  • LaMonica, Lauren C,
  • Lameko, Viali,
  • Choy, Courtney C,
  • Crouter, Scott E,
  • Redline, Susan,
  • Deka, Ranjan,
  • Kershaw, Erin E,
  • Urban, Zsolt,
  • Minster, Ryan L.,
  • Weeks, Daniel E.,
  • McGarvey, Stephen T

DOI
https://doi.org/10.2196/17329
Journal volume & issue
Vol. 9, no. 7
p. e17329

Abstract

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BackgroundThe prevalence of obesity and diabetes in Samoa, like many other Pacific Island nations, has reached epidemic proportions. Although the etiology of these conditions can be largely attributed to the rapidly changing economic and nutritional environment, a recently identified genetic variant, rs373863828 (CREB 3 regulatory factor, CREBRF: c.1370G>A p.[R457Q]) is associated with increased odds of obesity, but paradoxically, decreased odds of diabetes. ObjectiveThe overarching goal of the Soifua Manuia (Good Health) study was to precisely characterize the association of the CREBRF variant with metabolic (body composition and glucose homeostasis) and behavioral traits (dietary intake, physical activity, sleep, and weight control behaviors) that influence energy homeostasis in 500 adults. MethodsA cohort of adult Samoans who participated in a genome-wide association study of adiposity in Samoa in 2010 was followed up, based on the presence or absence of the CREBRF variant, between August 2017 and March 2019. Over a period of 7-10 days, each participant completed the main study protocol, which consisted of anthropometric measurements (weight, height, circumferences, and skinfolds), body composition assessment (bioelectrical impedance and dual-energy x-ray absorptiometry), point-of-care glycated hemoglobin measurement, a fasting blood draw and oral glucose tolerance test, urine collection, blood pressure measurement, hand grip strength measurement, objective physical activity and sleep apnea monitoring, and questionnaire measures (eg, health interview, cigarette and alcohol use, food frequency questionnaire, socioeconomic position, stress, social support, food and water insecurity, sleep, body image, and dietary preferences). In January 2019, a subsample of the study participants (n=118) completed a buttock fat biopsy procedure to collect subcutaneous adipose tissue samples. ResultsEnrollment of 519 participants was completed in March 2019. Data analyses are ongoing, with results expected in 2020 and 2021. ConclusionsWhile the genetic variant rs373863828, in CREBRF, has the largest known effect size of any identified common obesity gene, very little is currently understood about the mechanisms by which it confers increased odds of obesity but paradoxically lowered odds of type 2 diabetes. The results of this study will provide insights into how the gene functions on a whole-body level, which could provide novel targets to prevent or treat obesity, diabetes, and associated metabolic disorders. This study represents the human arm of a comprehensive and integrated approach involving humans as well as preclinical models that will provide novel insights into metabolic disease. International Registered Report Identifier (IRRID)RR1-10.2196/17329