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Deprecated: Implicit conversion from float 245.2 to int loses precision in C:\Inetpub\vhosts\kidney.de\httpdocs\pget.php on line 534 Glia 2001 ; 34 (3): 190-9 Nephropedia Template TP
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Electrophysiological properties of rat retinal Muller (glial) cells in postnatally developing and in pathologically altered retinae #MMPMID11329181
Felmy F; Pannicke T; Richt JA; Reichenbach A; Guenther E
Glia 2001[May]; 34 (3): 190-9 PMID11329181show ga
Retinal glial Muller cells are characterized by dominant K(+) conductances. The cells may undergo changes of their membrane currents during ontogeny and gliosis as described in rabbit and man. Although the rat retina is often used in physiological experiments, the electrophysiology of rat Muller cells is less well studied. The aim of the present study was to characterize their membrane currents in postnatal development and in two models of retinal degeneration. Freshly isolated cells were subjected to whole-cell patch clamp recordings. During the first 4 weeks after birth of rats, their Muller cells displayed an increase in all membrane currents, particularly in the inward currents elicited at hyperpolarizing potentials. The decrease of the membrane resistance from more than 760 MOmega to less than 50 MOmega was accompanied by a shift of the zero current potential from about -20 mV to -80 mV, similar as earlier observed in developing rabbit Muller cells. These developmental changes were found in pigmented Brown Norway rats as well as in rats with inherited retinal dystrophy (RCS rats). Moreover, an infection of Lewis rats with the Borna disease virus caused substantial neuroretinal degeneration but did not result in a strong reduction of inward currents and of the zero current potential of the Muller cells. Thus, rat Muller cells fail to change their basic membrane properties in two different models of retinal pathology. This is in contrast to human and rabbit Muller cells, which have been shown to undergo dramatic changes of their membrane physiology in response to retinal diseases and injuries.