Experimental Injury to the Visual System [Elektronisk resurs] Molecular Studies of the Retina

• Retinal ganglion cells play a crucial role in the relay of visual signals from the eye to the brain. This cell type is affected and eventually lost in the eye disease glaucoma, resulting in progressive and irreversible loss of vision. Studies of the molecular mechanisms leading to retinal ganglion cell death are important for the understanding of the disease and for designing future treatments. This thesis addresses and studies these molecular mechanisms, including alterations in gene expression after experimental retinal injuries. The effects of a neuroprotective drug, brimonidine, after transient retinal ischemia were also studied in order to help explain the mechanisms behind the protective properties of this drug. Several methods, including quantitative reverse transcriptase PCR, micro-arrays, western blot and immunohistochemistry, were used. The results showed that transient retinal ischemia triggers cell division in Müller cells and alters the gene expression of growth factors, their receptors, and intermediate filaments in the retina. Several genes related to the apoptosis process were less affected. Pre-treatment with brimonidine increased the levels of certain growth factors (BDNF, NT3, CNTF, FGF9) compared with vehicle. Brimonidine also had marked effects on genes related to progenitor cells, among them the recognized neural stem cell marker nestin. The increase in levels of nestin after ischemia was countered by brimonidine treatment. Moreover, retinal ganglion cell death following either optic nerve transection or optic nerve crush appears to involve the extrinsic apoptotic pathway although the gene expression response appears to differ between these injuries. The results obtained in this work contribute to an increased understanding of retinal injuries and highlight the importance of Müller cells in the endogenous defense against retinal injuries. 

Ämnesord

Medical and Health Sciences  (hsv)

Basic Medicine  (hsv)

Neurosciences  (hsv)

Medicin och hälsovetenskap  (hsv)

Medicinska och farmaceutiska grundvetenskaper  (hsv)

Neurovetenskaper  (hsv)

MEDICINE  (svep)

Morphology, cell biology, pathology  (svep)

Cell biology  (svep)

Neuroscience  (svep)

MEDICIN  (svep)

Morfologi, cellbiologi, patologi  (svep)

Cellbiologi  (svep)

Neurovetenskap  (svep)

Genre

government publication  (marcgt)

Indexterm och SAB-rubrik

retina

injury

ischemia

gene expression

brimonidine

alpha-2-adrenergic agonist

neuroprotection

growth factors

apoptosis

Müller cells