Deirdre Brennan

Sonic hedgehog expression is disrupted following in ovo ethanol exposure during early chick eye development

The eye is particularly sensitive to ethanols teratogenic effects. Our previous work, using a chick embryo model system, has shown that ethanol acts rapidly to perturb vital processes of early eye development producing defects of the lens and retina. Ethanol-induced disruption of the midline ventral telencephalon, a key site for expression of ocular morphogens such as sonic hedgehog (Shh), was further established. Consequently, in this study we have examined the effects of ethanol on the Shh pathway during the period of optic vesicle/optic cup formation. Chick embryos were injected in ovo with 125μL of a 20% ethanol solution directly into the yolk-sac at HH-stage 7, resulting in peak ethanol uptake of 0.294g/dL. Subsequent molecular analysis at 12, 24 and 48h post-treatment revealed that ethanol had no affect on Shh transcription, while, a significant reduction in the expression of the active signalling Shh protein was found. Surprisingly, none of the downstream Shh pathway members (Ptc, Gli1 and Gli3) were significantly altered by ethanol exposure. Overall, our results indicate that ethanols disruption of Shh may be mediated through some alternative mechanism independent of the classical signalling pathway. However, the precise role of Shh in relation to ethanol teratogenicity continues to be debated. Thus, in conclusion, our findings are discussed in relation to the varied and often conflicting reports of ethanol-induced Shh perturbation found in the literature.

Ocular Involvement in Fetal Alcohol Spectrum Disorder: A Review

Fetal Alcohol Syndrome (FAS), the most severe manifestation of Fetal Alcohol Spectrum Disorder (FASD) is considered the leading non-hereditary cause of mental retardation and neurological deficit in the Western world. There lie a huge associated human cost to both FASD victims and their families and a considerable financial burden. This problem is being tackled on many fronts including community awareness programs, biomarker development for fetal alcohol exposure, research into preventative treatments and the development of more robust diagnostic systems for the early detection of FASD. Although ethanol can affect many of the major systems of the body, the eye is a primary target. Ocular aberrations including optic nerve hypoplasia, tortuosity of retinal vessels, coloboma and microphthalmia are frequently observed in children diagnosed with FAS. In this regard, ocular involvement in FAS has gained importance, particularly in relation to early diagnosis and identification of FAS. Furthermore, our considerable knowledge of the molecular mechanisms underlying eye development has provided a powerful tool for the investigation of the teratogenic actions of ethanol. In this review, we initially provide an overview of FASD in terms of historical background, epidemiology and current status. Next, we explore the role of ocular involvement in FASD and the use of eye measurements in the diagnosis of FAS. Lastly, we review how current knowledge of early eye development can be used to gain new insights into the molecular mechanisms of ethanol teratogenicity with particular reference to the sonic hedgehog pathway.

Histological characterisation of the ethanol-induced microphthalmia phenotype in a chick embryo model system.

The eye is a sensitive indicator of the teratogenic effects of ethanol with ophthalmic defects such as microphthalmia frequently observed in FAS children. In this study, we have optimised the chick-embryo model system to investigate ethanol-induced ocular defects. Injection of 20% ethanol (125μl) directly into the yolk sac of HH-stage 7 embryos resulted in an overall 30% incidence of eye anomalies including microphthalmia. Ocular measurements showed that this treatment regime caused a significant reduction in overall globe size. Histological examination of microphthalmic specimens revealed three subgroups: (1) all ocular structures developed but were significantly retarded compared to age matched controls, (2) the bi-layered optic cup developed but with no evidence of lens induction, and (3) the optic vesicle failed to invaginate but remained as a vesicular structure comprising of a single layer of retinal pigment cells with no evidence of a neuro-retinal cell layer or lens structure. Further analysis identified clusters of apoptotic bodies in the ventral telencephalon, a region responsible for the expression of important genes in ocular specification. These results support a growing body of evidence, indicating that ethanol targets inductive signals in early eye development involving lens formation and retinal ganglion cell differentiation. The possible involvement of Shh, Fgf8, Bmp4 and Pax6 is discussed in relation to these outcomes.

Activation of the NFAT–calcium signaling pathway in human lamina cribrosa cells in glaucoma

Purpose Optic nerve cupping in glaucoma is characterized by remodeling of the extracellular matrix (ECM) and fibrosis in the lamina cribrosa (LC). We have previously shown that glaucoma LC cells express raised levels of ECM genes and have elevated intracellular calcium ([Ca2+]i). Raised [Ca2+]i is known to promote proliferation, activation, and contractility in fibroblasts via the calcineurin-NFAT (nuclear factor of activated T-cells) signaling pathway. In this study, we examine NFAT expression in normal and glaucoma LC cells, and investigate the effect of cyclosporin A (CsA, a known inhibitor of NFAT activity) on [Ca2+]i and ECM gene expression in normal and glaucoma LC cells. Methods [Ca2+]i was measured with dual-wavelength Ca2+ imaging and confocal microscopy using Fura-2-AM and Fluo-4 under physiological isotonic and hypotonic cell stretch treatment. Human donor LC cells were cultured under normal physiological conditions or using a glaucoma-related stimulus, oxidative stress (H2O2, 100 μM), for 6 hours with or without CsA. NFATc3 protein levels were examined using Western blot analysis. Profibrotic ECM gene transcription (including transforming growth factor-β1 [TGFβ1], collagen 1A1 [Col1A1], and periostin) was analyzed using quantitative real time RT-PCR. Results Basal and hypotonic cell membrane stretch-induced [Ca2+]i were significantly (P < 0.05) elevated in glaucoma LC cells compared to normal controls. There was a significant delay in [Ca2+]i reuptake into internal stores in the glaucoma LC cells. NFATc3 protein levels were increased in glaucoma LC cells. CsA (10 μM) significantly inhibited the H2O2-induced expression of NFATc3 in normal and glaucoma LC cells. CsA also reduced the H2O2-induced NFATc3 dephosphorylation (and nuclear translocation), and also suppressed the H2O2-induced elevation in profibrotic ECM genes (TGFβ1, Col1A1, and periostin), both in normal and in glaucoma LC cells. Conclusions Intracellular Ca2+ and NFATc3 expression were significantly increased in glaucoma LC cells. CsA reduced the H2O2-induced enhancement in NFATc3 protein expression and nuclear translocation and the profibrotic gene expression both in normal and in glaucoma LC cells. Therefore, targeting the calcineurin-NFATc3 signaling pathway may represent a potential avenue for treating glaucoma-associated LC fibrosis.