Abstract

Congenital strabismus is the pathological misalignment of the eyes associated with loss of binocular vision. It affects up to 4% of the population worldwide and 6-12 million people in the United States, and can reduce vision in one or both eyes, impair depth perception, and disturb interpersonal interactions and self-esteem. Congenital strabismus may be differentiated into comitant and incomitant forms. Incomitant forms account for 2% of cases, and affected individuals have limited eye movements such that the angle varies with gaze direction. Comitant congenital strabismus (CCS) accounts for 98% of cases, and affected individuals have full eye movements, with the angle of misalignment remaining constant with changes in gaze direction. It includes diagnoses such as esotropia, exotropia, and monofixation syndrome. Genetic and neurodevelopmental studies of rare forms of incomitant strabismus have revealed that it can result from mutations in genes critical to ocular cranial motor neuron development and to the proper growth and guidance of developing axons. In contrast, despite its high incidence, significant morbidity, and high cost to society in lost productivity, the underlying genetic contributors to CCS remain a mystery. Population, family-based, and twin studies all support a strong genetic contribution to CCS, with the relative risk to a first-degree relative of a proband estimated to be between 3 and 5. CCS is well suited for family-based analysis because of its early age of onset, high rate of family recurrence, and ease of family members'recruitment. Thus, the current proposal aims to utilize the existing infrastructure and multidisciplinary team to: (1) Expand ascertainment and phenotypic analysis of CCS for both clinical and genetic studies;(2) Acquire and curate genome-wide genotype data of CCS;(3) Identify rare genetic variants underlying CCS through genome-wide homozygosity mapping and linkage analysis;and (4) Identify common variants contributing to esotropia through genome-wide association study (GWAS). An improved understanding of the genetic etiologies of CCS should provide insight into its neuro-developmental basis and could have a profoundly positive impact on the health and well being of the population. Identification of patients or families at highest risk will improve the efficiency of screening programs, allowing for earlier detection and treatment. The response of individual patients to surgical intervention might be predicted with more accuracy and the surgical outcomes improved if their specific genetic etiology is understood. Finally, understanding the genetics of CCS may inspire the implementation of innovative nonsurgical therapies.

Public Health Relevance

Congenital strabismus, which affects up to 4% of the population worldwide and 6-12 million people in the United States, can reduce vision in one or both eyes, impair binocular vision (depth perception), and disturb interpersonal interactions and self-esteem. Despite its high incidence, significant morbidity, and high cost to society in lost productivity, its underlying cause remains obscure. This proposal aims to define the genetic contributions to congenital strabismus, which in turn should provide insight into its neurodevelopmental basis and lead to improved detection and treatment.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY015298-08
Application #
8474762
Study Section
Molecular Neurogenetics Study Section (MNG)
Program Officer
Steinmetz, Michael A
Project Start
2004-02-01
Project End
2016-03-31
Budget Start
2013-04-01
Budget End
2014-03-31
Support Year
8
Fiscal Year
2013
Total Cost
$413,250
Indirect Cost
$175,750

  Institution

Name
Children's Hospital Boston
Department
Type
DUNS #
076593722
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Shaaban, Sherin; MacKinnon, Sarah; Andrews, Caroline et al. (2018) Genome-Wide Association Study Identifies a Susceptibility Locus for Comitant Esotropia and Suggests a Parent-of-Origin Effect. Invest Ophthalmol Vis Sci 59:4054-4064
Baris, Hagit N; Chan, Wai-Man; Andrews, Caroline et al. (2013) Complex cytogenetic rearrangements at the DURS1 locus in syndromic Duane retraction syndrome. Clin Case Rep 1:
Högen, Tobias; Chan, Wai-Man; Riedel, Eva et al. (2012) Wildervanck's syndrome and mirror movements: a congenital disorder of axon migration? J Neurol 259:761-3
Webb, Bryn D; Shaaban, Sherin; Gaspar, Harald et al. (2012) HOXB1 founder mutation in humans recapitulates the phenotype of Hoxb1-/- mice. Am J Hum Genet 91:171-9
Chan, Wai-Man; Miyake, Noriko; Zhu-Tam, Lily et al. (2011) Two novel CHN1 mutations in 2 families with Duane retraction syndrome. Arch Ophthalmol 129:649-52
Engle, Elizabeth C (2010) Human genetic disorders of axon guidance. Cold Spring Harb Perspect Biol 2:a001784
Rankin, Jessica K; Andrews, Caroline; Chan, Wai-Man et al. (2010) HOXA1 mutations are not a common cause of Möbius syndrome. J AAPOS 14:78-80
Miyake, Noriko; Andrews, Caroline; Fan, Wen et al. (2010) CHN1 mutations are not a common cause of sporadic Duane's retraction syndrome. Am J Med Genet A 152A:215-7
Murillo-Correa, Claudia E; Kon-Jara, Veronica; Engle, Elizabeth C et al. (2009) Clinical features associated with an I126M alpha2-chimaerin mutation in a family with autosomal-dominant Duane retraction syndrome. J AAPOS 13:245-8
Oystreck, Darren T; Khan, Arif O; Vila-Coro, Antonio Aguirre et al. (2009) Synergistic divergence: a distinct ocular motility dysinnervation pattern. Invest Ophthalmol Vis Sci 50:5213-6

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