Developing a patient-derived induced pluripotent stem cell model to understand the clinical and pathological changes in macular degeneration

Late-onset retinal macular degeneration (L-ORMD) is a fully penetrant autosomal dominant macular degeneration resulting from a Ser163Arg substitution in the gene encoding the protein C1QTNF5. Clinically L-ORMD results in dark adaptation delay in the fifth decade, central visual loss in the sixth decade and further progressive visual field loss in successive decades of life. Pathologically the disease results in thick sub-retinal deposits, which have a similar composition to drusen seen in AMD, retinal pigment epithelial (RPE) loss, and neuro-retinal atrophy. The function of C1QTNF5 is incompletely understood however within the eye it is expressed most strongly by the RPE cells. An in vitro model for L-ORMD was developed using human induced pluripotent stem cells (hiPSCs) derived from patients and with stem cells from patient’s unaffected siblings used as controls. The hiPSCs were differentiated to RPE (hiPSC-RPE). L-ORMD hiPSC-RPE shared baseline characteristics with sibling control hiPSC-RPE. In order to model in vivo conditions hiPSC-RPE were grown on permeable supports in human serum enriched media. Case hiPSC-RPE cell lines were found to activate the complement pathway resulting in increased deposition of the terminal complement complex (TCC) C5b-9 when compared to control hiPSC-RPE. Using depleted serum, deposition was not affected by depletion of classical and lectin pathway components but was reduced by depletion of alternative complement pathway components. Depletion of complement components C3 and C5 abolished TCC deposition. The addition of a monoclonal antibody against C5 also reduced TCC deposition. The role of complement dysregulation in L-ORMD pathogenesis was confirmed by immunostaining of L-ORMD and age-matched control human donor retinal sections. L-ORMD retinal sections displayed increased C3d and C5b-9 deposition. Using mutant and wild type-protein generated from a bacterial expression system it was found that the mutant protein was less stable than the wild-type. In addition the wild type protein formed multimers whilst the mutant was mainly monomeric. A surface plasmon resonance (SPR) study showed an increased affinity of wild-type C1QTNF5, especially in multimeric form for complement factor H (CFH), a key regulator of the alternative complement pathway when compared to mutant protein. Taken together these studies implicate dysfunction of the alternative complement pathway in L-ORMD disease mechanism and have suggested a role for C1Q TNF5 in the extracellular matrix. The studies also show that L-ORMD and AMD share a pathogenic and clinical similarities

Comparison of Multicolor Scanning Laser Imaging and Color Fundus Photography in Evaluating Vessel Whitening in Branch Retinal Vein Occlusion

IntroductionFew studies have explored MultiColor™ imaging (MCI) in evaluating retinal vascular diseases, particularly branch retinal vein occlusion (BRVO). This study aimed to compare the identification of retinal vessel whitening in BRVO using MCI by scanning confocal laser versus conventional white-flash color fundus photography (CFP).MethodsPaired images of consecutive patients diagnosed with BRVO who underwent same-day MCI and CFP were reviewed. Visualization of vessel whitening on MCI and CFP was graded and scored using a scale by two masked graders. A longitudinal analysis of the vessel grading score was performed to evaluate the vessel whitening detection by MCI. A correlation analysis was conducted between vessel whitening on MCI and the measured area of retinal ischemia on fluorescein angiography to evaluate the MCI performance.ResultsForty-four eyes of 41 patients (mean age 69 ± 14 years; 61% female) were analyzed. MCI demonstrated superior vessel whitening visibility score than CFP (p < 0.001). Longitudinal analysis showed no significant changes in vessel whitening visibility scores over a mean follow-up time of 430 ± 648 days (p = 0.655). There was a significantly positive correlation between the grading score of vessels whitening by MCI and the area of ischemia by fluorescein angiography (r2 = 0.15; p = 0.036).ConclusionMCI appears to provide a superior detection of whitening BRVO compared to CFP, serving as a rapid and non-invasive correlate of retinal ischemia

Reticular pseudodrusen in late-onset retinal degeneration

PURPOSE: To characterize the association of reticular pseudodrusen (RPD) with late-onset retinal degeneration (L-ORD) using multimodal imaging. DESIGN: Prospective, two-center, longitudinal case series. SUBJECTS: Twenty-nine cases with L-ORD. METHODS: All subjects were evaluated within a three-year interval with near-infrared reflectance, fundus autofluorescence, and spectral-domain optical coherence tomography. In addition, a subset of patients also underwent indocyanine green angiography, fundus fluorescein angiography, mesopic microperimetry, and multifocal electroretinography. Main outcome measures: Prevalence, topographic distribution, and temporal phenotypic changes of RPD in L-ORD. RESULTS: A total of 29 molecularly confirmed L-ORD cases were included in this prospective study. RPD was detected in 18 cases (62%) at baseline, of which 10 were male. The prevalence of RPD varied with age. The mean age of RPD patients was 57.3±7.2 years. RPD was not seen in cases below the fifth decade (n=3 patients) or in the eighth decade (n=5 patients). RPD were found commonly in the macula with relative sparing of the fovea and were also identified in the peripheral retina. The morphology of RPD changed with follow-up. Two cases (3 eyes) demonstrated RPD regression. CONCLUSIONS: RPD is found frequently in cases with L-ORD and at a younger age than in individuals with AMD. RPD exhibits quick formation and collapse, change in type and morphology with time, relative foveal-sparing, and also has a peripheral retinal location in L-ORD

Identification of a Novel Large Multigene Deletion and a Frameshift Indel in PDE6B as the Underlying Cause of Early-Onset Recessive Rod-Cone Degeneration

A family, with two affected identical twins with early-onset recessive inherited retinal degeneration, was analyzed to determine the underlying genetic cause of pathology. Exome sequencing revealed a rare and previously reported causative variant (c.1923_1969delinsTCTGGG; p.Asn643Glyfs*29) in th

Effect of C9orf72 hexanucleotide repeat expansions on human induced pluripotent stem cell derived oligodendrocytes

A hexanucleotide repeat expansion in the C9orf72 gene is the most common cause of familial amyotrophic lateral sclerosis and frontotemporal dementia. Genetic testing for this pathogenic mutation is challenging due to its GC rich, repetitive nature. I developed PCR based assays to detect the presence of the pathogenic variant, which were used in screening an archival cohort of Scottish ALS patients, and have also been implemented within a diagnostic setting. These PCR assays allow amplification of larger repeat expansions than have previously been reported, and can determine whether a C9orf72 expansion of greater than 100 repeats is present or not. It is not well understood how the repeat expansion leads to disease, but several potential mechanisms have been hypothesised, including reduced expression, RNA toxicity and protein toxicity via dipeptide repeat proteins produced through repeat associated non-AUG translation. Motor neurons are an understandably well studied target in amyotrophic lateral sclerosis, however the role of glia, particularly oligodendrocytes, in the pathogenesis of the disease has recently been highlighted from studies on rodent models and post mortem tissue. To investigate the effect of the C9orf72 repeat expansion on oligodendrocytes, we have applied a differentiation protocol to hiPSCs with the expansion and controls, including an isogenic control which has been generated in the lab. There was no difference in the production of neuronal and glial cell types between these cell lines. I went on to look for evidence of the main proposed pathological mechanisms of C9orf72 repeat expansions: loss of function or gain of function through either RNA or protein toxicity. hiPSC derived oligodendrocytes from both carrier and control showed low expression of C9orf72 mRNA, and there was no difference due to the presence of a repeat expansion. Carrier hiPSC derived oligodendrocytes displayed sense RNA foci, which did not appear to have an effect on cellular morphology. The detection of dipeptide repeat proteins proved challenging, and the results were inconclusive as to their presence in hiPSC derived oligodendrocytes. I went on to show there was no evidence of mislocalisation of TDP-43 in C9orf72 carrier oligodendrocytes. Finally, the study showed similar levels of cell death in basal conditions in carrier and control cells, and no clear difference in the response to endoplasmic reticulum stress. Further research will be required to elucidate the role of oligodendrocytes in C9orf72 related amyotrophic lateral sclerosis

Late-onset retinal degeneration pathology de to mutations in CTRP5 is mediated through HTRA1

Late-onset retinal degeneration (L-ORD) is an autosomal dominant macular degeneration characterized by the formation of sub-retinal pigment epithelium (RPE) deposits and neuroretinal atrophy. L-ORD results from mutations in the C1q-tumor necrosis factor-5 protein (CTRP5), encoded by the CTRP5/C1QTNF5 gene. To understand the mechanism underlying L-ORD pathology, we used a human cDNA library yeast two-hybrid screen to identify interacting partners of CTRP5. Additionally, we analyzed the Bruch's membrane/choroid (BM-Ch) from wild-type (Wt), heterozygous S163R Ctrp5 mutation knock-in (Ctrp5S163R/wt ), and homozygous knock-in (Ctrp5S163R/S163R ) mice using mass spectrometry. Both approaches showed an association between CTRP5 and HTRA1 via its C-terminal PDZ-binding motif, stimulation of the HTRA1 protease activity by CTRP5, and CTRP5 serving as an HTRA1 substrate. The S163R-CTRP5 protein also binds to HTRA1 but is resistant to HTRA1-mediated cleavage. Immunohistochemistry and proteomic analysis showed significant accumulation of CTRP5 and HTRA1 in BM-Ch of Ctrp5S163R/S163R and Ctrp5S163R/wt mice compared with Wt. Additional extracellular matrix (ECM) components that are HTRA1 substrates also accumulated in these mice. These results implicate HTRA1 and its interaction with CTRP5 in L-ORD pathology