Mutant α2-chimaerin signals via bidirectional ephrin pathways in Duane retraction syndrome
Alicia A. Nugent, … , Long Cheng, Elizabeth C. Engle
Alicia A. Nugent, … , Long Cheng, Elizabeth C. Engle
Published March 27, 2017
Citation Information: J Clin Invest. 2017;127(5):1664-1682. https://doi.org/10.1172/JCI88502.
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Research Article Neuroscience Ophthalmology

Mutant α2-chimaerin signals via bidirectional ephrin pathways in Duane retraction syndrome

Abstract

Duane retraction syndrome (DRS) is the most common form of congenital paralytic strabismus in humans and can result from α2-chimaerin (CHN1) missense mutations. We report a knockin α2-chimaerin mouse (Chn1KI/KI) that models DRS. Whole embryo imaging of Chn1KI/KI mice revealed stalled abducens nerve growth and selective trochlear and first cervical spinal nerve guidance abnormalities. Stalled abducens nerve bundles did not reach the orbit, resulting in secondary aberrant misinnervation of the lateral rectus muscle by the oculomotor nerve. By contrast, Chn1KO/KO mice did not have DRS, and embryos displayed abducens nerve wandering distinct from the Chn1KI/KI phenotype. Murine embryos lacking EPH receptor A4 (Epha4KO/KO), which is upstream of α2-chimaerin in corticospinal neurons, exhibited similar abducens wandering that paralleled previously reported gait alterations in Chn1KO/KO and Epha4KO/KO adult mice. Findings from Chn1KI/KI Epha4KO/KO mice demonstrated that mutant α2-chimaerin and EphA4 have different genetic interactions in distinct motor neuron pools: abducens neurons use bidirectional ephrin signaling via mutant α2-chimaerin to direct growth, while cervical spinal neurons use only ephrin forward signaling, and trochlear neurons do not use ephrin signaling. These findings reveal a role for ephrin bidirectional signaling upstream of mutant α2-chimaerin in DRS, which may contribute to the selective vulnerability of abducens motor neurons in this disorder.

Authors

Alicia A. Nugent, Jong G. Park, Yan Wei, Alan P. Tenney, Nicole M. Gilette, Michelle M. DeLisle, Wai-Man Chan, Long Cheng, Elizabeth C. Engle

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Figure 10

Chn1KI/KI embryos exhibit first cervical spinal nerve (C1) projection abnormalities that are reversed by Epha4KO allele.

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Chn1KI/KI embryos exhibit first cervical spinal nerve (C1) projection a...
(AF) C1 projections in E11.5 Chn1WT/WT (A; n = 10), Chn1KI/KI (B; n = 5), Chn1KO/KO (C; n = 5), Epha4KO/KO (D; n = 5), Epha4fl/fl IslCre/+ (E; n = 5), and Epha4fl/fl Twist2Cre/+ (F; n = 3) embryos. Arrow, direction of C1 dorsal turning toward dermomyotome; green, Hb9-GFP; XII, hypoglossal; C1, first cervical spinal segment. Scale bar: 100 μm. (G) Ephrin-A5 protein localization in C1 axons and area immediately adjacent to axons. Scale bar: 100 μm; n = 2. White box, enlargement in H; scale bar: 50 μm; red, ephrin-A5; green, Hb9-GFP; blue: DAPI. (I) Epha4 ISH in C1 (box) and mesenchyme surrounding C1 (arrow) in sagittal view of WT E11.5 embryo. Scale bar: 100 μm; n = 2. White box, enlargement in J; scale bar: 50 μm; red, Epha4; green, Hb9-GFP; blue, DAPI. (KM) Sholl analysis of E11.5 Chn1WT/WT (blue) and Chn1WT/KI (green) C1 explants cultured in 50 ng/ml FC with 25 ng/ml GDNF (K; Chn1WT/WT: n = 23, Chn1WT/KI: n = 28, 4 experiments); 50 ng/ml ephrin-A5 with 25 ng/ml GDNF (L; Chn1WT/WT: n = 43, Chn1WT/KI: n = 37, 6 experiments); and 1 μg/ml EphA4 with 25 ng/ml GDNF (M; Chn1WT/WT: n = 14, Chn1WT/KI: n = 26, 3 experiments). (N and O) Quantification of initial outgrowth (N; AUC from 0 to 200 μm) and total outgrowth (O; total AUC). *P < 0.05, ***P < 0.001; black asterisk, comparison within Chn1WT/WT between cues; red asterisks, comparison within Chn1WT/KI between cues by 1-way ANOVA with Dunnett’s test; blue asterisks, comparison between Chn1WT/WT and Chn1WT/KI within each cue by unpaired 2-tailed t test. Data represent mean ± SEM. (P) C1 projections in E11.5 Chn1KI/KI Epha4KO/KO embryo; n = 5.