Genetic association of insulin-like growth factor-1 polymorphisms with high-grade myopia in an international family cohort

doi:10.1167/iovs.09-4912

. 2010 Sep;51(9):4476-9.

doi: 10.1167/iovs.09-4912. Epub 2010 Apr 30.

Genetic association of insulin-like growth factor-1 polymorphisms with high-grade myopia in an international family cohort

Ravikanth Metlapally¹, Chang-Seok Ki, Yi-Ju Li, Khanh-Nhat Tran-Viet, Diana Abbott, Francois Malecaze, Patrick Calvas, David A Mackey, Thomas Rosenberg, Sandrine Paget, Jeremy A Guggenheim, Terri L Young

Affiliations

PMID: 20435602
PMCID: PMC2941166
DOI: 10.1167/iovs.09-4912

Free PMC article

Genetic association of insulin-like growth factor-1 polymorphisms with high-grade myopia in an international family cohort

Ravikanth Metlapally et al. Invest Ophthalmol Vis Sci. 2010 Sep.

Free PMC article

. 2010 Sep;51(9):4476-9.

doi: 10.1167/iovs.09-4912. Epub 2010 Apr 30.

Authors

Affiliation

¹ Center for Human GeneticsDepartment of Biostatistics and Bioinformatics, Duke University Medical Center, Durham, NC 27710, USA.

PMID: 20435602
PMCID: PMC2941166
DOI: 10.1167/iovs.09-4912

Abstract

Purpose: Evidence from human myopia genetic mapping studies (MYP3 locus), modulated animal models, and observations of glycemic control in humans suggests that insulin-like growth factor (IGF)-1 plays a role in the control of eye growth. This study was conducted to determine whether IGF-1 polymorphisms are associated with myopia in a large, international dataset of Caucasian high-grade myopia pedigrees.

Methods: Two hundred sixty-five multiplex families with 1391 subjects participated in the study. IGF-1 genotyping was performed with 13 selected tag single nucleotide polymorphisms (SNPs) using allelic discrimination assays. A family-based pedigree disequilibrium test (PDT) was performed to test for association. Myopia status was defined using sphere (SPH) or spherical equivalent (SE), and analyses assessed the association of (1) high-grade myopia (<or=-5.00 D), and (2) any myopia (<or=-0.50 D) with IGF-1 markers. Results were declared significant at P<or=0.0038 after Bonferroni correction. Q values that take into account multiple testing were also obtained.

Results: In all, three SNPs-rs10860860, rs2946834, and rs6214-were present at P<0.05. SNP rs6214 showed positive association with both the high-grade- and any-myopia groups (P=2x10(-3) and P=2x10(-3), respectively) after correction for multiple testing.

Conclusions: The study supports a genetic association between IGF-1 and high-grade myopia. These findings are in line with recent evidence in an experimental myopia model showing that IGF-1 promotes ocular growth and axial myopia. IGF-1 may be a myopia candidate gene for further investigation.

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Figures

**Figure 1.**
Representation of the 13 SNPs selected for the *IGF-1* gene (source; Human Genome Browser (http://genome.ucsc.edu/ provided in the public domain by UCSC Genome Bioinformatics, University of California at Santa Cruz). The HapMap linkage disequilibrium map for the region for European samples from the CEPH (30 trios) is also displayed.

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References

1. Vitale S, Ellwein L, Cotch MF, Ferris FL, III, Sperduto R. Prevalence of refractive error in the United States 1999–2004. Arch Ophthalmol. 2008;126:1111–1119 - PMC - PubMed
1. Norton TT, Metlapally R, Young TL. Myopia. In: Klintworth GK, Garner A. eds. Garner and Klintworth's Pathobiology of Ocular Disease. 3rd ed.London, UK: Informa Healthcare; 2008:537–556
1. Vitale S, Cotch MF, Sperduto R, Ellwein L. Costs of refractive correction of distance vision impairment in the United States 1999–2002. Ophthalmology. 2006;113:2163–2170 - PubMed
1. Curtin BJ. The Myopias: Basic Science and Clinical Management. Philadelphia: Harper & Row; 1985
1. Young TL, Metlapally R, Shay AE. Complex trait genetics of refractive error. Arch Ophthalmol. 2007;125:38–48 - PubMed

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[1] Vitale S, Ellwein L, Cotch MF, Ferris FL, III, Sperduto R. Prevalence of refractive error in the United States 1999–2004. Arch Ophthalmol. 2008;126:1111–1119 - PMC - PubMed

[2] Vitale S, Ellwein L, Cotch MF, Ferris FL, III, Sperduto R. Prevalence of refractive error in the United States 1999–2004. Arch Ophthalmol. 2008;126:1111–1119 - PMC - PubMed

[3] Norton TT, Metlapally R, Young TL. Myopia. In: Klintworth GK, Garner A. eds. Garner and Klintworth's Pathobiology of Ocular Disease. 3rd ed.London, UK: Informa Healthcare; 2008:537–556

[4] Norton TT, Metlapally R, Young TL. Myopia. In: Klintworth GK, Garner A. eds. Garner and Klintworth's Pathobiology of Ocular Disease. 3rd ed.London, UK: Informa Healthcare; 2008:537–556

[5] Vitale S, Cotch MF, Sperduto R, Ellwein L. Costs of refractive correction of distance vision impairment in the United States 1999–2002. Ophthalmology. 2006;113:2163–2170 - PubMed

[6] Vitale S, Cotch MF, Sperduto R, Ellwein L. Costs of refractive correction of distance vision impairment in the United States 1999–2002. Ophthalmology. 2006;113:2163–2170 - PubMed

[7] Curtin BJ. The Myopias: Basic Science and Clinical Management. Philadelphia: Harper & Row; 1985

[8] Curtin BJ. The Myopias: Basic Science and Clinical Management. Philadelphia: Harper & Row; 1985

[9] Young TL, Metlapally R, Shay AE. Complex trait genetics of refractive error. Arch Ophthalmol. 2007;125:38–48 - PubMed

[10] Young TL, Metlapally R, Shay AE. Complex trait genetics of refractive error. Arch Ophthalmol. 2007;125:38–48 - PubMed

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Genetic association of insulin-like growth factor-1 polymorphisms with high-grade myopia in an international family cohort

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Genetic association of insulin-like growth factor-1 polymorphisms with high-grade myopia in an international family cohort

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