Abstract

Mutations in the cytochrome P450-1B1 (Cyp1b1) gene is a common genetic predisposition associated with various human glaucomas, most prominently in primary congenital glaucoma (PCG). The role of Cyp1b1 in the eye is largely unknown, however, its absence appears to drive the maldevelopment of anterior eye structures responsible for aqueous fluid drainage in murine models. Nevertheless, vision loss in glaucoma ultimately results from the structural and functional loss of retinal ganglion cells (RGCs). Cyp1b1’s influence in the development and support of retinal ganglion cell structure and function under normal conditions or during stress, such as elevated ocular pressure; the most common risk factor in glaucoma, remains grossly unknown. Thus, to determine the role of Cyp1b1 in normal retinal projection development we first assessed the strucutrual integrity of RGCs in the retina, optic nerve, and superior colliculus in un-manipulated (naïve) Cyp1b1-knockout (Cyp1b1–/–) mice. In addition, in a separate cohort of Cyp1b1–/– and wildtype mice, we elevated and maintained intraocular pressure (IOP) at glaucomatous levels for 5-weeks, after which we compared RGC density, node of Ranvier morphology, and axonal transport between the genotypes. Our results demonstrate that naïve Cyp1b1–/– mice develop an anatomically intact retinal projection absent of overt glaucomatous pathology. Following pressure elevation, Cyp1b1–/– accelerated degradation of axonal transport from the retina to the superior colliculus and altered morphology of the nodes of Ranvier and adjacent paranodes in the optic nerves. Together this data suggests the absence Cyp1b1 expression alone is insufficient to drive murine glaucomatous pathology, however, may increase the vulnerability of retinal axons to disease relevant elevations in IOP.

Highlights

  • Glaucoma is a group of heterogeneous neuro-ophthalmologic conditions that impair vision through the functional disruption and eventual degeneration of retinal ganglion cells (RGCs), the neuronal substrates responsible for eye-brain communication (Davis et al, 2016; Quigley and Broman, 2006)

  • We propose that the absence of cytochrome P450-1B1 (Cyp1b1) expression alone is insufficient to drive murine glaucomatous pathology, the lack of its expression may increase the vulnerability of retinal neurons to disease relevant mechanisms following pathological elevations in intraocular pressure (IOP)

  • Using tonometry to record IOPs in both left and right eyes in Cyp1b1−/− mice aging from postnatal day 16 (P16) to 12-months there was no significant difference in IOP between the left and right eyes across all ages (Figure 1A; F1,28 = 0.18, p > 0.1)

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Summary

Introduction

Glaucoma is a group of heterogeneous neuro-ophthalmologic conditions that impair vision through the functional disruption and eventual degeneration of retinal ganglion cells (RGCs), the neuronal substrates responsible for eye-brain communication (Davis et al, 2016; Quigley and Broman, 2006). Glaucoma is most often attributed to the aging adult (Davis et al, 2016; Tham et al, 2014), befalls pediatric and adolescent populations (Kaur et al, 2011), thereby placing it in a unique group of neurodegenerative conditions that afflict populations on both ends of the lifespan. Primary congenital glaucoma (PCG) is the most prevalent form of pediatric glaucoma manifesting at birth or within 3 years of age (Aponte et al, 2010). PCG can be difficult to diagnose and if not managed effectively will result in progressive vision loss which can have critical ramifications on a child’s overall development and long-term quality of life (Mandal et al, 2004; Khitri et al, 2012)

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