Visual system maldevelopment disrupts extraocular muscle-specific myosin expression

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Visual system maldevelopment disrupts extraocular muscle-specific myosin expression

Jennifer K. Brueckner¹ and John D. Porter²

¹ Departments of Anatomy and Neurobiology and of Ophthalmology, University of Kentucky Medical Center, Lexington, Kentucky 40536-0084; and ² Department of Ophthalmology, Case Western Reserve University, Cleveland, Ohio 44106-5068

The genetic and epigenetic influences that are responsible for the establishment and maintenance of the unique phenotype ofthe extraocular muscles (EOMs) are poorly understood. A role forvisual cues in shaping EOM maturation was assessed in rats byusing two visual deprivation paradigms, dark rearing and monoculardeprivation. Isoforms of the contractile protein myosin heavychain (MHC) were used as an index of phenotypic change in developingand adult EOMs after these visual insults. In rats that were darkreared during the visual critical period, the proportion of EOMfibers expressing either fast or slow MHCs was decreased significantly.EOM-specific myosin was also sensitive to dark rearing duringthe critical period, as evidenced by a significant decrease inits mRNA in EOMs from these rats. EOM-specific MHC did not changein either dark-reared rats returned to normally illuminated conditionsor in adult rats denied visual experience for a similar time period.These data suggest that there may be a critical period duringdevelopment when alterations in visual activity have significantconsequences for the eye muscle phenotype. In contrast to darkrearing, monocular deprivation had a minimal effect on expressionof the typical myosin isoforms and no effect on EOM-specific myosinexpression. Collectively, these data confirm the hypothesis thatvisual input to the oculomotor system during development modulatesEOM-specific MHC expression.

extraocular muscle; muscle development; myosin heavy chain; visual development

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