Abstract
In this study, we seek to exclude other pathophysiological mechanisms by which Frmd7 knock-down may cause Idiopathic Infantile Nystagmus (IIN) using the Frmd7.tm1a and Frmd7.tm1b murine models. We used a combination of genetic, histological and visual function techniques to characterize the role of Frmd7 gene in IIN using a novel murine model for the disease. We demonstrate that the Frmd7.tm1b allele represents a more robust model of Frmd7 knock-out at the mRNA level. The expression of Frmd7 was investigated using both antibody staining and X-gal staining confirming previous reports that Frmd7 expression in the retina is restricted to starburst amacrine cells and demonstrating that X-gal staining recapitulates the expression pattern in this model. Thus, it offers a useful tool for further expression studies. We also show that gross retinal morphology and electrophysiology are unchanged in these Frmd7 mutant models when compared with wild-type mice. High-speed eye-tracking recordings of Frmd7 mutant mice confirm a specific horizontal optokinetic reflex defect. In summary, our study confirms the likely role for Frmd7 in the optokinetic reflex in mice mediated by starburst amacrine cells. We show that the Frmd7.tm1b model provides a more robust knock-out than the Frmd7.tm1a model at the mRNA level, although the functional consequence is unchanged. Finally, we establish a robust eye-tracking technique in mice that can be used in a variety of future studies using this model and others. Although our data highlight a deficit in the optiokinetic reflex as a result of the starburst amacrine cells in the retina, this does not rule out the involvement of other cells, in the brain or the retina where Frmd7 is expressed, in the pathophysiology of IIN.
Highlights
Nystagmus is a condition of the eye characterized by involuntary and uncontrolled eye movements, initiated by abnormal slow phases away from the visual target [1,2]
Infantile Nystagmus (IIN) individuals with Frmd7 mutations show no changes in the thickness of retinal layers [2]. This result is consistent with the assumption that retinal thickness is unaffected by Frmd7 in the murine retina as is observed in humans with FRMD7 mutations for extra-foveal retinal regions, which suggests that the Frmd7.tm1a and Frmd7.tm1b mice are not abnormal, similar to the phenotype in individuals with IIN
We have shown no difference in ERG or ocular coherence tomography (OCT) parameters between the two strains and wild-type mice
Summary
Nystagmus is a condition of the eye characterized by involuntary and uncontrolled eye movements, initiated by abnormal slow phases away from the visual target [1,2]. Typically occurring in the first 6 months of life, or acquired [4,5]. Over 40 different types of nystagmus have been described and differ according to onset, pathology, and nature of the eye movement [2,4,6]. Nystagmus Syndrome (INS) is a form of nystagmus that classically presents between 4 and 6 months of age, stays horizontal in vertical gaze, has accelerating slow phases and may be associated with abnormal head postures due to null zones and dampening on convergence [7].
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