PURPOSE: To evaluate the consequences of altering retinal sterol metabolism and composition on the development, histologic organization, and electrophysiological function of the retina, under conditions that mimic the biochemical hallmarks of the Smith-Lemli-Opitz (SLO) syndrome. METHODS: Pregnant Sprague-Dawley rats were fed cholesterol-free chow containing AY9944 (treated group), an inhibitor of 3beta-hydroxysterol delta7-reductase, from gestational day 6 through postnatal day (P)28. Control animals were fed the same chow, but without AY9944. In addition, progeny in the treated group were injected subcutaneously every other day from birth to P28 with an olive oil emulsion containing AY9944; control animals received olive oil emulsion alone. At various postnatal times, tissues from treated and control animals were harvested, and their sterol profiles were analyzed by reversed-phase high-performance liquid chromatography. Companion eyes from animals of both groups were examined histologically at P1. At P28, animals were evaluated by electroretinography; tissues were then harvested for biochemical analysis and companion eyes were subjected to histologic and ultrastructural analyses. RESULTS: Treatment of developing rats with AY9944 caused markedly abnormal accumulation of 7-dehydrosterols and severely reduced cholesterol levels in all tissues examined, relative to control animals. Despite this, treated animals exhibited normal retinal development and had no overt ocular defects or decrease in electroretinographic function, up to P28. CONCLUSIONS: These results were unexpected, given the known biophysical effects of such sterol alterations on membrane properties and the profound dysmorphic and cognitive abnormalities associated with genetic defects in 3beta-hydroxysterol delta7-reductase that have been linked to the SLO syndrome. The results suggest that 7-dehydrosterols can substitute functionally for cholesterol in the retina or perhaps can act synergistically with subthreshold levels of residual cholesterol to allow normal cellular structure and function to be achieved.
PURPOSE: To evaluate the consequences of altering retinal sterol metabolism and composition on the development, histologic organization, and electrophysiological function of the retina, under conditions that mimic the biochemical hallmarks of the Smith-Lemli-Opitz (SLO) syndrome. METHODS: Pregnant Sprague-Dawley rats were fed cholesterol-free chow containing AY9944 (treated group), an inhibitor of 3beta-hydroxysterol delta7-reductase, from gestational day 6 through postnatal day (P)28. Control animals were fed the same chow, but without AY9944. In addition, progeny in the treated group were injected subcutaneously every other day from birth to P28 with an olive oil emulsion containing AY9944; control animals received olive oil emulsion alone. At various postnatal times, tissues from treated and control animals were harvested, and their sterol profiles were analyzed by reversed-phase high-performance liquid chromatography. Companion eyes from animals of both groups were examined histologically at P1. At P28, animals were evaluated by electroretinography; tissues were then harvested for biochemical analysis and companion eyes were subjected to histologic and ultrastructural analyses. RESULTS: Treatment of developing rats with AY9944 caused markedly abnormal accumulation of 7-dehydrosterols and severely reduced cholesterol levels in all tissues examined, relative to control animals. Despite this, treated animals exhibited normal retinal development and had no overt ocular defects or decrease in electroretinographic function, up to P28. CONCLUSIONS: These results were unexpected, given the known biophysical effects of such sterol alterations on membrane properties and the profound dysmorphic and cognitive abnormalities associated with genetic defects in 3beta-hydroxysterol delta7-reductase that have been linked to the SLO syndrome. The results suggest that 7-dehydrosterols can substitute functionally for cholesterol in the retina or perhaps can act synergistically with subthreshold levels of residual cholesterol to allow normal cellular structure and function to be achieved.
Authors: Steven J Fliesler; Dana K Vaughan; Erin C Jenewein; Michael J Richards; Barbara A Nagel; Neal S Peachey Journal: Pediatr Res Date: 2007-03 Impact factor: 3.756
Authors: Dana K Vaughan; Neal S Peachey; Michael J Richards; Blake Buchan; Steven J Fliesler Journal: Exp Eye Res Date: 2005-12-19 Impact factor: 3.467
Authors: Kathleen Boesze-Battaglia; Monika Damek-Poprawa; Drake C Mitchell; Laura Greeley; Richard S Brush; Robert E Anderson; Michael J Richards; Steven J Fliesler Journal: J Lipid Res Date: 2008-03-14 Impact factor: 5.922