Increased susceptibility of human limbal aniridia fibroblasts to oxidative stress.

Aniridia-associated keratopathy originates from a haploinsufficiency of the transcription factor PAX6 (PAX6+/-). In the corneal epithelium of PAX6+/- mice, a significant increase in oxidized proteins was observed, accompanied by impaired compensation for elevated oxidative stress (OS). The extent to which limbal fibroblast cells (LFCs) are affected by an increased susceptibility to OS in cases of congenital aniridia (AN) has not been determined, yet. Our aim was to examine the impact of OS on antioxidant enzyme expression in normal and AN-LFCs. Following isolation and culture of primary LFCs (n = 8) and AN-LFCs (n = 8), cells were treated with cobalt chloride for 48 h to chemically induce hypoxic conditions and OS. Subsequently, HIF-1α/-2α, PHD1/2, Nrf2, CAT, SOD1, PRDX6, and GPX1 gene expression was examined by qPCR. SOD1, PRDX6, and GPX1 protein levels were assessed from the cell lysate by Western blot. The induction of hypoxia led to reduced HIF-1α gene expression in both fibroblast groups (p≤0.008), while the decrease in PHD1 was limited to AN-LFCs (p = 0.0007). On the other hand, under hypoxic conditions, PHD2 showed higher mRNA expression in AN-LFCs compared to normal LFCs (p = 0.013). As a result of OS, the mRNA levels of Nrf2 (p<0.0001) and the antioxidant enzymes CAT (p = 0.005), SOD1 (p = 0.005), GPX1 (p = 0.002) decreased in AN-LFCs. This was accompanied by an increased protein expression of SOD1 (p = 0.019) and PRDX6 (p=0.0009). In the normal LFC group, the induced extent of OS had no impact on the gene (p≥0.151) and protein expression (p ≥ 0.629) of antioxidant enzymes, except for the GPX1 mRNA level (p = 0.027). AN-LFCs exhibit higher susceptibility to OS than normal LFCs. Therefore, in AN-LFCs, there are sustained alterations in gene and protein expression of antioxidative enzymes even after 48 h of CoCl2 treatment.

A Novel Cre Recombinase Mouse Strain for Cell-Specific Deletion of Floxed Genes in Ribbon Synapse-Forming Retinal Neurons.

We generated a novel Cre mouse strain for cell-specific deletion of floxed genes in ribbon synapse-forming retinal neurons. Previous studies have shown that the RIBEYE promotor targets the expression of recombinant proteins such as fluorescently tagged RIBEYE to photoreceptors and retinal bipolar cells and generates fluorescent synaptic ribbons in situ in these neurons. Here, we used the same promotor to generate a novel transgenic mouse strain in which the RIBEYE promotor controls the expression of a Cre-ER(T2) recombinase (RIBEYE-Cre). To visualize Cre expression, the RIBEYE-Cre animals were crossed with ROSA26 tau-GFP (R26-τGFP) reporter mice. In the resulting RIBEYE-Cre/R26 τGFP animals, Cre-mediated removal of a transcriptional STOP cassette results in the expression of green fluorescent tau protein (tau-GFP) that binds to cellular microtubules. We detected robust tau-GFP expression in retinal bipolar cells. Surprisingly, we did not find fluorescent tau-GFP expression in mouse photoreceptors. The lack of tau-GFP reporter protein in these cells could be based on the previously reported absence of tau protein in mouse photoreceptors which could lead to the degradation of the recombinant tau protein. Consistent with this, we detected Cre and tau-GFP mRNA in mouse photoreceptor slices by RT-PCR. The transgenic RIBEYE-Cre mouse strain provides a new tool to study the deletion of floxed genes in ribbon synapse-forming neurons of the retina and will also allow for analyzing gene deletions that are lethal if globally deleted in neurons.

Ciliary Proteins Repurposed by the Synaptic Ribbon: Trafficking Myristoylated Proteins at Rod Photoreceptor Synapses.

The Unc119 protein mediates transport of myristoylated proteins to the photoreceptor outer segment, a specialized primary cilium. This transport activity is regulated by the GTPase Arl3 as well as by Arl13b and Rp2 that control Arl3 activation/inactivation. Interestingly, Unc119 is also enriched in photoreceptor synapses and can bind to RIBEYE, the main component of synaptic ribbons. In the present study, we analyzed whether the known regulatory proteins, that control the Unc119-dependent myristoylated protein transport at the primary cilium, are also present at the photoreceptor synaptic ribbon complex by using high-resolution immunofluorescence and immunogold electron microscopy. We found Arl3 and Arl13b to be enriched at the synaptic ribbon whereas Rp2 was predominantly found on vesicles distributed within the entire terminal. These findings indicate that the synaptic ribbon could be involved in the discharge of Unc119-bound lipid-modified proteins. In agreement with this hypothesis, we found Nphp3 (Nephrocystin-3), a myristoylated, Unc119-dependent cargo protein enriched at the basal portion of the ribbon in close vicinity to the active zone. Mutations in Nphp3 are known to be associated with Senior-Løken Syndrome 3 (SLS3). Visual impairment and blindness in SLS3 might thus not only result from ciliary dysfunctions but also from malfunctions of the photoreceptor synapse.

Rose Bengal Photodynamic Therapy (RB-PDT) Modulates the Inflammatory Response in LPS-Stimulated Human Corneal Fibroblasts By Influencing NF-κB and p38 MAPK Signaling Pathways.

PURPOSE: To investigate the effect of rose bengal photodynamic therapy on lipopolysaccharide-induced inflammation in human corneal fibroblasts. Furthermore, to analyze potential involvement of the mitogen-activated protein kinase and nuclear factor kappa B signaling pathways in this process. METHODS: Human corneal fibroblast cultures underwent 0-2.0 µg/mL lipopolysaccharide treatment, and 24 h later rose bengal photodynamic therapy (0.001% RB, 565 nm wavelength illumination, 0.17 J/cm2 fluence). Interleukin-6, interleukin-8, intercellular adhesion molecule-1, interferon regulatory factor-3, interferon α2, and interferon ß1 gene expressions were determined by quantitative PCR. Interleukin-6, interleukin-8, and C-C motif chemokine ligand-4 concentrations in the cell culture supernatant were measured by enzyme-linked immunosorbent assays and intercellular adhesion molecule-1 protein level in human corneal fibroblasts by western blot. In addition, the nuclear factor kappa B and mitogen-activated protein kinase signaling pathways were investigated by quantitative PCR and phosphorylation of nuclear factor kappa B p65 and p38 mitogen-activated protein kinase by western blot. RESULTS: Rose bengal photodynamic therapy in 2.0 µg/mL lipopolysaccharide-stimulated human corneal fibroblasts triggered interleukin-6 and interleukin-8 mRNA (p < .0001) and interleukin-6 protein increase (p < .0001), and downregulated intercellular adhesion molecule-1 expression (p < .001). C-C motif chemokine ligand-4, interferon regulatory factor-3, interferon α2, and interferon ß1 expressions remained unchanged (p ≥ .2). Rose bengal photodynamic therapy increased IκB kinase subunit beta, nuclear factor kappa B p65, extracellular signal-regulated kinases-2, c-Jun amino terminal kinase, and p38 transcription (p ≤ .01), and triggered nuclear factor kappa B p65 and p38 mitogen-activated protein kinase phosphorylation (p ≤ .04) in lipopolysaccharide treated human corneal fibroblasts. CONCLUSION: Rose bengal photodynamic therapy of lipopolysaccharide-stimulated human corneal fibroblasts can modify the inflammatory response by inducing interleukin-6 and interleukin-8 expression, and decreasing intercellular adhesion molecule-1 production. C-C motif chemokine ligand-4, interferon regulatory factor-3, and interferon α and ß expressions are not affected by rose bengal photodynamic therapy in these cells. The underlying mechanisms may be associated with nuclear factor kappa B and p38 mitogen-activated protein kinase pathway activation.

Effect of Ritanserin and Duloxetine on the Gene Expression of Primary Aniridia and Healthy Human Limbal Stromal Cells, In Vitro.

INTRODUCTION: In congenital aniridia caused by mutations in paired box 6 (PAX6), PAX6 influences the migration and differentiation of limbal epithelial cells (LECs), thereby playing a pivotal role in aniridia-associated keratopathy. The antidepressants ritanserin and duloxetine affect PAX6 expression in LECs. Limbal stromal cells, which support limbal epithelial stem cells, are crucial in the limbal stem cell niche. This study explores how ritanserin and duloxetine influence gene expression in primary human limbal stromal cells from subjects with congenital aniridia and from healthy subjects, in vitro. METHODS: Primary human limbal stromal cells from corneas affected by aniridia (AN-LSCs) (n = 8) and from healthy corneas (LSCs) (n = 8) were isolated and cultured in either low-glucose serum-free (LGSF) or normal-glucose serum-containing (NGSC) media. Cells were treated with 4 µM ritanserin or duloxetine for 24 h. Quantitative PCR (qPCR) and western blot were used to assess the expression of PAX6, FOSL2, TGF-ß1, ACTA2A1, LUM, COL1A1, COL5A1, DSG1, FABP5 and ADH7. RESULTS: In AN-LSCs with LGSF-medium, ritanserin increased PAX6 messenger RNA (mRNA) (p = 0.007) and decreased TGF-ß1 and FOSL2 mRNA levels (P = 0.005, P = 0.038). In addition, TGF-ß1 protein levels decreased with both treatments (P = 0.02, P = 0.007), and FABP5 protein level increased, using ritanserin (P = 0.019). In LSCs with LGSF-medium, ACTA2A1 mRNA levels decreased using ritanserin and duloxetine (P = 0.028; P = 0.031), while FABP5 mRNA levels increased with ritanserin treatment (P = 0.003). Also, duloxetine use reduced α-SMA protein (P = 0.013) and increased FABP5 protein levels (P = 0.029). In LSCs with NGSC-medium, ritanserin elevated LUM, FABP5 and ADH7 mRNA and protein levels (P = 0.025, P = 0.003, P = 0.047, P = 0.024, P = 0.013, P = 0.039). CONCLUSIONS: The results of our study confirmed that the antipsychotropic drugs ritanserin and duloxetine alter PAX6 and TGF-ß1 gene expression in AN-LSCs cultured in LGSF-medium. These drugs were found to have an impact on retinoic acid signaling pathways and keratocyte characteristic markers both in LSCs and AN-LSCs, using different culture media.

An easy, fast and "low-tech"-equipment-requiring alternative method to optimize immunolabelling conditions for pre-embedding immunogold electron microscopy and to correlate light and electron microscopical immunogold labelling results.

Correlating light microscopic immunolabelling results with electron microscopic data is of great interest in many fields of biomedical research but typically requires very specialized, expensive equipment and complex procedures which are not available in most labs. In this technical study, we describe an easy and "low-tech"-equipment-requiring pre-embedding immunolabelling approach that allows correlation of light microscopical immunolabelling results with electron microscopic (EM) data as demonstrated by the example of immunolabelled synaptic ribbons from retinal rod photoreceptor synapses. This pre-embedding approach does not require specialized embedding devices but only commonly available equipment. The cryostat section-based procedure allows optimization of the pre-embedding immunolabelling conditions at the less laborious and time-consuming light microscopic (LM) level before the ultrastructural analyses of the immunolabelled structures can be performed on the same sample after ultrathin sectioning without further modification. The same photoreceptor synapse that has been first studied at the light microscopic level can be subsequently analyzed with this approach at the electron microscopic level at individual ultrathin sections or serial ultrathin sections from individual, identical synapses. Higher resolution EM analyses of the immunolabelled synapses can be performed with only minor modifications of the combined LM/EM procedure. The detergent-free procedure is applicable even for weakly fixed cryostat sections which is a relevant aspect for many antibodies that do not work with more strongly fixed biological samples.