Objective:To observe the effects of testosterone on optic nerve an d retinal ganglion cells (RGC) in experimental autoimmune encephalomyelitis (EAE ). Methods:Fourty one female Wistar rats were randomly divide d into 3 groups: the normal group (10 rats), the untreated control group (15 rats) and the testos terone group (16 rats). The rats in the first two groups were fed with 1% ethano l every day, and the rats in the testosterone group were fed with methyltestoste rone (0.25 mg/kg) every day. On the 20th day, EAE model was induced in the untre ated control group and the testosterone group by injecting guinea pig spinal cor d homogenate in complete Freund's adjuvant and bordetella pertussis vaccine. RGC were labeled with flurogold (FG) by injecting it in superior colliculus and lat eral geniculate body 7 days before establishing EAE model. All rats were fed wit h drugs continuously, and after 1430 days, rats in normal group and rats in un t reated control and testosterone groups who had symptoms within 48~72 hours were observed by light microscopy and flash visual evoked potential (FVEP) to detect the functional and morphological changes of optic nerve. The number of RGC was counted by fluorescence microscopy,and apoptosis of RGC was observed by termina l deoxynucleotidyl transferasemediated biotinylated UTP nick end labeling (TUN E L) Results:EAE rats presented weakness or paralysis of tail a nd hind limbs 10 days after establishing EAE model. Compared with the rats in the untreated contr ol group, the rats in the testosterone group had longer disease delitescence and lower clinical score (P=0.042). Extensive demyelination of optic nerves wi th the circuitous configuration was found in the untreated control group; while mild demyelination of optic nerves with regular figure was found in the testosterone group. In the testosterone group, the latency of N1、P and N2 wave was shorter w hile the amplitude ofN1-P and P-N2was higher than that in the untreated cont rol group (P lt;0.05). The number of RGC was (2284 plusmn;132), (934 plusmn;78, and (1725 plusmn;95)cells/mm2 in the normal, untreated control and testosterone groups, respectively; w hich was higher in testosterone group than that in untreated control group (P=0.028). The number of TUNEL positive cells was (4.02 plusmn;0.16), (24.44 plusmn;2.22), and (9.84 plusmn;2.36) cells per high power field ( times;400) in the 3 grou ps, respectively; wh ich was less in testosterone group than that in untreated control group (P=0.025). Conclusions:Testosterone may reduce the incidence and clinical score of EAE, inhibit the apoptosis of RGC, alleviate the demyelinatio n of optic nerves, and improved the conduction function of optic nerves.
Citation: GAO Yang,LIU Ying,YUAN Miner,et al.. Effects of testosterone on optic nerve and retinal ganglion cells in experimenta l autoimmune encephalomyelitis. Chinese Journal of Ocular Fundus Diseases, 2007, 23(5): 327-331. doi: Copy