Eph-ephrin signaling affects lens growth and shape, nucleus size, and gradient refractive index in adult mice
Gryffin M. Flowers, Kehao Wang, Masato Hoshino, Kentaro Uesugi, Naoto Yagi, Barbara Pierscionek, Catherine Cheng

TL;DR
This study shows that Eph-ephrin signaling affects lens shape, size, and refractive index in adult mice, but not overall lens stiffness.
Contribution
The study reveals EphA2's role in nuclear size and refractive index, independent of lens stiffness.
Findings
EphA2-/- lenses were stiffer in 8-month-old mice but not in 4-month-olds.
EphA2-/- lenses were smaller and more spherical with reduced refractive index gradients.
Lens nucleus size did not correlate with whole lens stiffness in Eph-ephrin signaling mutants.
Abstract
The function of the eye lens, to fine focus light from different distances onto the retina to form a clear image, relies on tissue biomechanical properties, refractive index, shape, and transparency. Increased lens stiffness with age, especially of the center or nucleus, has long been hypothesized to lead to presbyopia, a loss of accommodative ability, and the need for reading glasses. The cellular and molecular mechanisms that determine lens biomechanical properties and change during age-related stiffening remain unclear. Little is known about the factors that regulate lens shape and growth, nucleus size, and refractive index. We previously showed that loss of EphA2, a receptor tyrosine kinase, or ephrin-A5, a ligand for Eph receptors, leads to changes in lens shape and resilience in 2-month-old mice. Surprisingly, the loss of EphA2 led to smaller and softer lens nuclei with no change…
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Taxonomy
TopicsAxon Guidance and Neuronal Signaling · Connexins and lens biology · Developmental Biology and Gene Regulation
