PURPOSE: To determine the electrophysiological properties of Müller (glial) cells from experimentally detached rabbit retinas. METHODS: A stable local retinal detachment was induced by subretinal injection of a sodium hyaluronate solution. Müller cells were acutely dissociated and studied by the whole-cell voltage-clamp technique. RESULTS: The cell membranes of Müller cells from normal retinas were dominated by a large inwardly rectifying potassium ion (K+) conductance that caused a low-input resistance (<100 M(Omega)) and a high resting membrane potential (-82 +/- 6 mV). During the first week after detachment, the Müller cells became reactive as shown by glial fibrillary acidic protein (GFAP) immunoreactivity, and their inward currents were markedly reduced, accompanied by an increased input resistance (>200 M(Omega)). After 3 weeks of detachment, the input resistance increased further (>300 M(Omega)), and some cells displayed significantly depolarized membrane potentials (mean -69 +/- 18 mV). When PVR developed (in 20% of the cases) the inward K+ currents were virtually completely eliminated. The input resistance increased dramatically (>1000 MOmega), and almost all cells displayed strongly depolarized membrane potentials (-44 +/- 16 mV). CONCLUSIONS: Reactive Müller cells are characterized by a severe reduction of their K+ inward conductance, accompanied by depolarized membrane potentials. These changes must impair physiological glial functions, such as neurotransmitter recycling and K+ ion clearance. Furthermore, the open probability of certain types of voltage-dependent ion channels (e.g., Ca2+-dependent K+ maxi channels) increases that may be a precondition for Müller cell proliferation, particularly in PVR when a dramatic downregulation of both inward current density and resting membrane potential occurs.
PURPOSE: To determine the electrophysiological properties of Müller (glial) cells from experimentally detached rabbit retinas. METHODS: A stable local retinal detachment was induced by subretinal injection of a sodium hyaluronate solution. Müller cells were acutely dissociated and studied by the whole-cell voltage-clamp technique. RESULTS: The cell membranes of Müller cells from normal retinas were dominated by a large inwardly rectifying potassium ion (K+) conductance that caused a low-input resistance (<100 M(Omega)) and a high resting membrane potential (-82 +/- 6 mV). During the first week after detachment, the Müller cells became reactive as shown by glial fibrillary acidic protein (GFAP) immunoreactivity, and their inward currents were markedly reduced, accompanied by an increased input resistance (>200 M(Omega)). After 3 weeks of detachment, the input resistance increased further (>300 M(Omega)), and some cells displayed significantly depolarized membrane potentials (mean -69 +/- 18 mV). When PVR developed (in 20% of the cases) the inward K+ currents were virtually completely eliminated. The input resistance increased dramatically (>1000 MOmega), and almost all cells displayed strongly depolarized membrane potentials (-44 +/- 16 mV). CONCLUSIONS: Reactive Müller cells are characterized by a severe reduction of their K+ inward conductance, accompanied by depolarized membrane potentials. These changes must impair physiological glial functions, such as neurotransmitter recycling and K+ ion clearance. Furthermore, the open probability of certain types of voltage-dependent ion channels (e.g., Ca2+-dependent K+ maxi channels) increases that may be a precondition for Müller cell proliferation, particularly in PVR when a dramatic downregulation of both inward current density and resting membrane potential occurs.
Authors: Antje Wurm; Thomas Pannicke; Ianors Iandiev; Eva Bühner; Uta-Carolin Pietsch; Andreas Reichenbach; Peter Wiedemann; Susann Uhlmann; Andreas Bringmann Journal: Am J Pathol Date: 2006-12 Impact factor: 4.307
Authors: Michelle C Callegan; Michael S Gilmore; Meredith Gregory; Raniyah T Ramadan; Brandt J Wiskur; Andrea L Moyer; Jonathan J Hunt; Billy D Novosad Journal: Prog Retin Eye Res Date: 2007-01-22 Impact factor: 21.198
Authors: David G Charteris; John Downie; G William Aylward; Charanjit Sethi; Philip Luthert Journal: Graefes Arch Clin Exp Ophthalmol Date: 2006-04-13 Impact factor: 3.117
Authors: Abdoulaye Sene; Ramin Tadayoni; Thomas Pannicke; Antje Wurm; Brahim El Mathari; Romain Benard; Michel Joseph Roux; David Yaffe; Dominique Mornet; Andreas Reichenbach; Jose-Alain Sahel; Alvaro Rendon Journal: PLoS One Date: 2009-10-07 Impact factor: 3.240