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Investigating neurodegeneration in the retina of tau P301L miceHo, Wing-lau., 何穎流. January 2012 (has links)
Neurodegeneration is a collective term for the progressive loss of structure, function or even death of neurons. This includes diseases like Alzheimer’s disease, frontotemporal dementia, Parkinson’s disease and motor neuron disease. Recent researches have shown great interest in the role of tau proteins, which have versatile functions including microtubule stabilization and signal relay in the central nervous system.
Retina and optic nerve, being part of the central nervous system, can also be affected by similar processes. In neurodegenerative diseases visual disturbances including difficulties in reading and finding object, depth perception, perceiving structure from motion, color recognition and impairment in spatial contrast sensitivity have all been observed. Some of these defects may be attributed to changes at ocular level.
The effect of tau mutation was investigated in this study utilizing a transgenic P301L tau mice model. Morphometric analysis has been utilized to quatify the neurodegenerative changes, including the thickness of inner nuclear layer(INL), density of retinal ganglion cells(RGCs) and size of RGCs. Retinal sections stained by hematoxylin and eosin(H&E) were analyzed. Comparisons were made between the P301L tau mice and the control mice in addition to comparisons between different age groups.
The study found that there was a significant decrease of thickness of INL of P301L tau mice when compared with control mice. The effect was more pronounced in the peripheral area and the effect increased with age. Regarding density of RGCs, P301L tau mice showed a similar age-related decline as control mice. And regarding the size of RGCs, the RGCs from P301L tau mice increased in size with age and the RGCs from control mice decreased in size with age. / published_or_final_version / Anatomy / Master / Master of Medical Sciences
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The influence of selected flavonoids on the survival of retinal cells subjected to different types of oxidative stressTengku Kamalden, Tengku Ain Fathlun Bt January 2012 (has links)
The general aim of the thesis was to deduce whether selected naturally occurring flavonoids (genistein, epicatechin gallate (EC), epigallocatechin gallate (EGCG), baicalin) attenuate various secondary insults that may cause death of ganglion cells in primary open angle glaucoma (POAG). An ischemic insult to the rat retina significantly causes the inner retina to degenerate indexed by changes of various antigens, proteins and mRNAs located to amacrine and ganglion cells. These changes are blunted in animals treated with genistein as has been shown for ECGC. Studies conducted on cells (RGC-5 cells) in culture showed that hydrogen peroxide, L-buthionine sulfoximine (BSO)/glutamate and serum deprivation (mimicking oxidative stress), rotenone, sodium azide (affecting mitochondria function in specific ways) and light (where the mitochondria are generally affected) all generated reactive oxygen species and caused death of RGC-5 cells. EGCG was able to attenuate cell death caused by hydrogen peroxide, sodium azide and rotenone. Only EC was able to attenuate BSO/glutamate-induced cell death, in addition to cell death caused by hydrogen peroxide and rotenone. Genistein had no positive effect on cell death in experiments carried out on RGC-5 cells. Exposure of RGC-5 cells to flavonoids showed that EC and EGCG increased the mRNA expression of endogenous antioxidants such as HO-l (heme oxygenase 1) and Nrf-2 (nuclear erythroid factor-z-related factor 2). Light insult, rotenone and sodium azide activate the p38 (protein kinase 38) pathway, while only light and rotenone activate the JNK (c-Jun amino-terminal kinase) pathway. Serum deprivation affects mitochondrial apoptotic proteins causing an increase in the ratio of Bax/Bcl2 (Bax: Bcl-2-associated X protein; Bcl-2: B-cell lymphoma 2). An insult of light to RGC-5 cells, unlike that induced by sodium azide, is inhibited by necrostatin-I and causes an activation of AlF (apoptosis-inducing factor) with alpha-fodrin being unaffected. These studies suggest that ganglion cell death caused by insults as may occur in POAG involves various cellular signaling pathways. The selected flavonoids have diverse actions in increasing cellular defense mechanisms, and in negating the effects of ischemia and specific types of oxidative stress. The results argue for the possible use of flavonoids in the treatment of POAG to slow down ganglion cell death.
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Non-apoptotic Caspase-8 Signaling Mediates Retinal AngiogenesisJohnson, Kendra Vincia January 2021 (has links)
The retina is one of the most metabolically active tissues in the body and the high energetic demand is met by a well-organized vascular network. Aberrant vasculature is a prominent feature of many vision-threatening diseases, and although angiogenic pathways have been extensively studied the limited efficacy of therapies currently available for the treatment of these diseases suggests that there is more to be elucidated. The caspase family of proteases is best known for their roles in programmed cell death and inflammation, however members of this family have been found to have essential functions independent of cell death. Caspase-8, in particular, has been previously shown to be essential for embryonic vascular development, however, a requirement for caspase-8 in postnatal vascular development has not been established and it is unclear how caspase-8 exerts its function.
In this study, we investigate the cell specific roles of caspase-8 in the development of the retinal vasculature using the postnatal mouse retina as our model and identified endothelial caspase-8 as a mediator of canonical Wnt signaling. Inducible endothelial cell-specific caspase-8 knockout (Casp8 iECKO) resulted in a delay in early angiogenesis and barrier establishment, and an increase in inflammation and premature vascular remodeling compared to littermate controls. Assessment of Lef1, a downstream effector of the Wnt pathway, confirmed that this phenotype was a result of inhibited Wnt signaling.
We additionally show that caspase-8 mediates this pathway through degradation of its substrate HDAC7. HDAC7 has been shown previously to bind to β-catenin blocking its nuclear translocation. Caspase-8 mediated HDAC7 degradation restores β-catenin translocation and downstream Wnt signaling.
We also explore the function of caspase-8 in myeloid cells – microglia and macrophages – during angiogenesis. We used an inducible myeloid-specific caspase-8 knockout (Casp8 imGKO) mouse and found that loss of caspase-8 in these cells did not affect angiogenesis. However, Casp8 imGKO resulted in a reduction in microglia number and a change in their morphology specifying a role for caspase-8 in mediating cell survival and activation in microglia.
Altogether we show that caspase-8 exerts cell specific functions during retinal angiogenesis that are independent of cell death. We elucidate a novel role of caspase-8 in mediating Wnt/β-catenin signaling, and implicate caspase-8 as a potential therapeutic target in pathological angiogenesis.
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