Applicability of ancestral genotyping in pharmacogenomic research with hormonal contraception

Aaron Lazorwitz, Christina L Aquilante, Jonathan A Shortt, Jeanelle Sheeder, Stephanie Teal, Christopher R Gignoux, Aaron Lazorwitz, Christina L Aquilante, Jonathan A Shortt, Jeanelle Sheeder, Stephanie Teal, Christopher R Gignoux

Abstract

To compare etonogestrel pharmacokinetic and pharmacodynamic outcomes by both self-reported race/ethnicity and genetically determined ancestry among contraceptive implant users. We conducted a secondary analysis of our parent pharmacogenomic study of 350 implant users. We genotyped these reproductive-aged (18-45 years) women for 88 ancestry-informative single nucleotide polymorphisms. We then assigned each participant a proportion value for African (AFR), European (EUR), and Indigenous American (AMR) ancestry based on reference population data. We correlated genetic ancestry with self-reported race/ethnicity and utilized genetic ancestry proportion values as variables for previously performed association analyses with serum etonogestrel concentrations and progestin-related side effects (e.g., bothersome bleeding and subjective weight gain). We successfully estimated genetically determined ancestry for 332 participants. EUR, AFR, and AMR ancestry were each highly correlated with self-reported White/non-Hispanic race (r = 0.64, p = 4.14 × 10-40 ), Black/African American race (r = 0.88, p = 1.36 × 10-107 ), and Hispanic/Latina ethnicity (r = 0.68, p = 4.03 × 10-47 ), respectively. Neither genetically determined ancestry nor self-reported race/ethnicity were significantly associated with serum etonogestrel concentrations. AFR ancestry and self-reported Black race had similar associations with reporting monthly periods (odds ratio [OR] 2.18, p = 0.09 vs. OR 2.22, p = 0.02) and having received treatment for bothersome bleeding (OR 5.19, p = 0.005 vs. OR 4.73, p = 2.0 × 10-4 ). In multivariable logistic regression for subjective weight gain, AMR ancestry dropped out of the model in preference for self-reported Hispanic/Latina ethnicity. We found no new associations between genetically determined ancestry and contraceptive implant pharmacodynamics/pharmacokinetics. Self-reported race/ethnicity were strong surrogates for genetically determined ancestry among this population of contraceptive implant users. Our data suggest that self-reported race/ethnicity, capturing societal and cultural aspects, remain important to the investigation of progestin-related side effects.

Trial registration: ClinicalTrials.gov NCT03092037.

Conflict of interest statement

Dr. Teal serves on a Data Monitoring Board for a study funded by Merck and Co. and has served as a consultant for Bayer Healthcare. The University of Colorado Department of Obstetrics and Gynecology has received research funding from Bayer, Agile Therapeutics, Merck and Co., and Medicines360. All other authors declared no competing interest for this work.

© 2021 The Authors. Clinical and Translational Science published by Wiley Periodicals LLC on behalf of the American Society for Clinical Pharmacology and Therapeutics.

References

    1. Hatcher R, Trussell J, Nelson A, Cates W, Stewart F, Kowal D. Contraceptive technology. New York, NY: Ardent Media. Inc; 2011.
    1. Lazorwitz A, Aquilante CL, Sheeder J, Guiahi M, Teal S. Relationship between patient characteristics and serum etonogestrel concentrations in contraceptive implant users. Contraception. 2019;100:37‐41.
    1. Grunloh DS, Casner T, Secura GM, Peipert JF, Madden T. Characteristics associated with discontinuation of long‐acting reversible contraception within the first 6 months of use. Obstet Gynecol. 2013;122:1214‐1221.
    1. Lazorwitz A, Aquilante CL, Dindinger E, Harrison M, Sheeder J, Teal S. Relationship between etonogestrel concentrations and bleeding patterns in contraceptive implant users. Obstet Gynecol. 2019;134:807‐813.
    1. Mansour D, Korver T, Marintcheva‐Petrova M, Fraser IS. The effects of Implanon on menstrual bleeding patterns. Euro J Cont Reprod Health Care. 2008;13(Suppl 1):13‐28.
    1. Lazorwitz A, Dindinger E, Harrison M, Aquilante CL, Sheeder J, Teal S. An exploratory analysis on the influence of genetic variants on weight gain among etonogestrel contraceptive implant users. Contraception. 2020;102:180‐185.
    1. Mersha TB, Abebe T. Self‐reported race/ethnicity in the age of genomic research: its potential impact on understanding health disparities. Hum Genom. 2015;9:1.
    1. Shah RR, Gaedigk A. Precision medicine: does ethnicity information complement genotype‐based prescribing decisions? Therap Advan Drug Safety. 2018;9:45‐62.
    1. Lamba JK, Lin YS, Schuetz EG, Thummel KE. Genetic contribution to variable human CYP3A‐mediated metabolism. Adv Drug Deliv Rev. 2002;54:1271‐1294.
    1. Caudle KE, Klein TE, Hoffman JM, et al. Incorporation of pharmacogenomics into routine clinical practice: the clinical pharmacogenetics implementation consortium (CPIC) guideline development process. Curr Drug Metab. 2014;15:209‐217.
    1. Race, Ethnicity, and Genetics Working Group The use of racial, ethnic, and ancestral categories in human genetics research. Am J Hum Genet. 2005;77:519‐532.
    1. Burchard EG, Ziv E, Coyle N, et al. The importance of race and ethnic background in biomedical research and clinical practice. N Engl J Med. 2003;348:1170‐1175.
    1. Lazorwitz A, Aquilante CL, Oreschak K, Sheeder J, Guiahi M, Teal S. Influence of genetic variants on steady‐state etonogestrel concentrations among contraceptive implant users. Obstet Gynecol. 2019;133:783‐794.
    1. University of Minnesota Genomics Center . Agena Bioscience iPLEX. . Accessed July 23, 2019.
    1. 1000 Genomes Brower (Phase 3). .
    1. Avena S, Via M, Ziv E, et al. Heterogeneity in genetic admixture across different regions of Argentina. PLoS One. 2012;7:e34695.
    1. Racial and ethnic categories and definitions for NIH diversity programs and for other reporting purposes. NOT‐OD‐15‐089. 2015. . Accessed August 3, 2020.
    1. Murray Horwitz ME, Pace LE, Ross‐Degnan D. Trends and disparities in sexual and reproductive health behaviors and service use among young adult women (aged 18–25 years) in the United States, 2002–2015. Am J Public Health. 2018;108:S336‐S343.

Source: PubMed

Sponsors and Collaborators

Medical Conditions

Drug Interventions

3
Subscribe