Ophthalmology (Eye & Ear Hospital) - Research Publications
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ItemMicroRNA-143 plays a protective role in ischemia-induced retinal neovascularization( 2019-02-13)Retinal neovascularization is a severe complication of proliferative diabetic retinopathy. MicroRNAs (miRNAs) are master regulators of gene expression that play important roles in retinal neovascularization. Here, we investigated the retinal miRNA expression profile in a rat model of oxygen-induced retinopathy (OIR) through miRNA-Seq. We found that miR-143-3p, miR-126-3p, miR-150-5p and miR-145-5p were significantly down-regulated in the retina of OIR rats, and directly involved in the development of retinal neovascularization. Of these identified miRNAs, miR-143 is enriched in retina and was first reported being associated with pathological retinal angiogenesis. Our RNA-Seq data further suggested that miR-143 alleviates retinal neovascularization by mediating the inflammation/stress pathways via Fos. Moreover, the computational analysis indicated that Transforming Growth Factor-beta Activated Kinase 1 (TAK1) is involved in several key pathways associated with the dysregulated miRNAs. The pharmacological inhibition of TAK1 suppressed angiogenesis in vitro and retinal neovascularization in vivo. Our data highlight the utility of next-generation sequencing in the development of therapeutics for ocular neovascularization and further suggest that therapeutic targeting the dysregulated miRNAs or TAK1 may be a feasible adjunct therapeutic approach in patients with retinal neovascularization.
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ItemNo Preview AvailableA retinal imaging biomarker of Alzheimer's disease(Wiley, 2019-11-01)Background: Amyloid-beta (Ab) deposition in the brain is a diagnostic marker for Alzheimer's disease (AD), but current tests are costly and not widely available. Evidence from transgenic rodent models and post-mortem human tissues suggest that retinal accumulation of Ab may serve as a surrogate marker of brain Ab levels. As Ab has a wavelength-dependent effect on light scatter, we investigated the potential for in vivo retinal hyperspectral imaging to serve as a biomarker of brain Ab. Purpose: To develop and validate a retinal imaging biomarker of Alzheimer's disease. Methods: We performed human retinal hyperspectral imaging on individuals with high Ab burden on brain PET imaging and mild cognitive impairment (cases; n = 15), and age-matched PET-negative controls (n = 20). Image analysis methods were developed and validated on a second group of participants with and with (n = 4) and without (n = 13) moderate-to-high brain Ab burden and on transgenic mice (5xFAD) known to accumulate retinal Ab. Results: We show significant differences in retinal reflectance spectra between cases and controls in both cohorts (AUC ROC = 0.82, P = 0.001, 95% CI: 0.67-0.97). There was a moderate positive linear correlation between retinal imaging scores and brain Abburden (r = 0.46, 95%CI: 0.13-0.69, P = 0.008).The technique also enabled discrimination of AD-model mice from wild-type controls. Conclusion: We have developed a novel retinal imaging method to distinguish people with moderate-high brain Ab load from those without. This approach may have value for the diagnostic confirmation of AD.
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ItemNo Preview AvailableA tractable preclinical model of optic nerve demyelination(Association for Research in Vision and Ophthalmology, 2019-07-01)Purpose : Progress in the development of therapies to enhance remyelination in demyelinating diseases has been hampered by a lack of appropriate preclinical models - functional measures are often lacking or variable. We sought to develop a tractable and reproducible model of optic nerve demyelination with precise structural and functional measures. Methods : Oligodendrocytes of MBP-DTR 100a transgenic mice express diphtheria toxin receptor (DTR) and systemic diphtheria toxin (DT) administration induces diffuse demyelination of the central nervous system. In the present study we used retrobulbar DT injection to induce focal demyelination of the optic nerves of 3-month-old MBP-DTR 100a mice. Dose optimisation: anaesthetised mice underwent unilateral retrobulbar DT injection with 5, 10 or 15ng/kg DT (n=7 per dose, 1 µL per injection). Tissues were harvested three weeks after injection. Time-course study: Following baseline visual evoked potential (VEP) recording, electroretinogram (ERG) and optical coherence tomography (OCT), mice underwent retrobulbar DT injection with 15ng/kg DT or 1µL PBS. Follow-up measurements were taken at 2 (n=5 DT, 5 PBS), 4 (n=6 DT, 6 PBS), 8 (n=9 DT, 9 PBS) or 12-weeks (n=7 DT, 7 PBS). Animals were culled at each timepoint for tissue analysis. Tissue analysis: Optic nerves were resin embedded, sectioned (1µm) and stained with toluidine blue for myelin analysis, or cryosectioned for immunofluorescence, and retinas were flat-mounted for ganglion cell counts. Results : 3 weeks after injection with 15ng/kg DT, optic nerves showed colocalisation of activated caspase 3 & olig2, consistent with the apoptosis of oligodendroglia. Gliosis and axonal degeneration were evident.
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ItemNo Preview AvailableTAK1 blockade as a therapy for retinal neovascularization( 2021-01-29)Retinal neovascularization, or pathological angiogenesis in the retina, is a leading cause of blindness in developed countries. Transforming growth factor-β-activated kinase 1 (TAK1) is a mitogen-activated protein kinase kinase kinase (MAPKKK) activated by TGF-β1 and other pro-inflammatory cytokines. TAK1 is also a key mediator of inflammation, innate immune responses, apoptosis and tissue homeostasis and plays an important role in physiological angiogenesis. Its role in pathological angiogenesis, particularly in retinal neovascularization, remains unclear. We investigated the regulatory role of TAK1 in pathological angiogenesis in the retina. Transcriptome analysis of human retina featuring retinal neovascularization revealed enrichment of known TAK1-mediated signaling pathways. Selective inhibition of TAK1 activation by 5Z-7-oxozeaenol attenuated aberrant retinal angiogenesis in rats following oxygen-induced retinopathy. Transcriptome profiling revealed that TAK1 activation in human microvascular endothelial cells under TNFα stimulation led to increase the gene expression related to cytokines and leukocyte-endothelial interaction, mainly through nuclear factor kappa B (NFκB) signaling pathways. These results reveal that inhibition of TAK1 signaling may have therapeutic value for the treatment of pathological angiogenesis in the retina.