[ÕªÒª] Ä¿µÄ£º¹Û²ìÈ˲ξ¥Ò¶ÔíÜÕ(ginsenosides, GSS)¶ÔÈÈËðÉË´óÊó²»Í¬ÔàÆ÷ÌÇƤÖʼ¤ËØÊÜÌå(glucocorticoid receptor, GR)µÄÓ°Ï죬²¢Ì½ÌÖÆä×÷ÓûúÖÆ¡£·½·¨£ºÐÛÐÔSD´óÊóËæ»ú·ÖΪ£º(1)Õý³£¶ÔÕÕ×飬ÊÒÎÂÏÂËÇÑø£¬ÕôÁóË®¹àθ£»(2)GSSÖÎÁÆ×飬ÊÒÎÂÏÂËÇÑø£¬GSS¹àθ£»(3)ÈÈËðÉËÄ£ÐÍ×飬ÕôÁóË®¹à裬ÖÆ×÷ÈÈËðÉËÄ£ÐÍ£»(4)ÈÈËðÉËÄ£ÐÍGSSÖÎÁÆ×飬GSS¹à裬ÖÆ×÷ÈÈËðÉËÄ£ÐÍ¡£²ÉÓ÷ÅÉäÅäÌå½áºÏ·¨¼ì²â´óÊóÄÔ¡¢ÐØÏÙ¡¢·ÎºÍ¸Îϸ°ûÒºGR½áºÏ»îÐÔ£»Äæת¼ª²¾ÛºÏøÁ´·´Ó¦·¨²â¶¨ÄÔ¡¢¸Îϸ°ûÒºGR mRNAµÄˮƽ£»·ÅÉäÃâÒß·¨²â¶¨Ñª½¬´ÙÉöÉÏÏÙƤÖʼ¤ËØ(adrenocorticotropin, ACTH)ºÍƤÖÊͪ(corticosterone, CS)µÄŨ¶È¡£½á¹û£ºÈÈËðÉËÄ£ÐÍGSSÖÎÁÆ×é´óÊóÄÔ¡¢·ÎºÍ¸Îϸ°ûÒºGR½áºÏ»îÐÔÒÔ¼°ÄԺ͸Îϸ°ûÒºGR mRNA±í´ïˮƽ¾ùÃ÷ÏÔ¸ßÓÚµ¥´¿ÈÈËðÉËÄ£ÐÍ×é(P<0.05»òP<0.01)£»ÈÈËðÉËÄ£ÐÍGSSÖÎÁÆ×é´óÊóѪ½¬ACTHºÍCSŨ¶ÈÓëµ¥´¿ÈÈËðÉËÄ£ÐÍ×é±È½ÏÔòÎÞÃ÷ÏÔ²îÒì¡£½áÂÛ£ºGSS¿É»º½âÈÈËðÉË´óÊó²»Í¬ÔàÆ÷GR½áºÏ»îÐÔµÄϽµ·ù¶È£¬Æä×÷ÓûúÖÆ¿ÉÄÜÓë´Ù½øGR mRNAµÄ±í´ïÓйء£

    [¹Ø¼ü´Ê] È˲ÎÔíÜÕ; È˲ξ¥Ò¶; ÌÇƤÖʼ¤ËØÊÜÌå; ÈÈËðÉË; ´óÊó

    Effects of ginsenosides extracted from ginseng stem and leaves on glucocorticoid receptor in different viscera in heatª²damaged rats

    Min LI, Changª²Quan LING, Xueª²Qiang HUANG, Zhiª²Lei SHEN

    (Department of Military Hygiene, Second Military Medical University, Shanghai 200433, China; Department of Traditional Chinese Medicine, Changhai Hospital, Second Military Medical University, Shanghai 200433, China)

    ABSTRACT Objective: To evaluate the effects of ginsenosides (GSS) extracted from ginseng stem and leaves on glucocorticoid receptor (GR) in different viscera in heatª²damaged rats, and to find out its action mechanism. Methods: Thirtyª²two male SD rats were divided into control group and experimental group, and fed 2 mg/d GSS and equalª²quantity of distilled water respectively for 7 days. Eight rats of each group were exposed to (42¡À1)¡æ for one hour. The binding activities of GR in brain, thymus, lung and liver cytosols in rats were detected by radioligand binding assay. The expression levels of GR mRNA in brain and liver cytosols were determined by reverse transcriptionª²polymerase chain reaction (RTª²PCR) assay. Plasma adrenocorticotropin (ACTH) and corticosterone (CS) concentrations were determined by radioimmunoassay. Results: The binding activities of GR in brain, lung and liver cytosols, and the expression levels of GR mRNA in brain and liver cytosols were all higher in the GSSª²treated and heatª²damaged rats than those in the untreated heatª²damaged rats (P<0.05 or P<0.01). There were no significant differences in plasma concentrations of ACTH and CS between the GSSª²treated heatª²damaged rats and the untreated heatª²damaged rats. Conclusion: GSS can lessen the descending degree of the binding activity of GR in brain, thymus, lung and liver cytosols, and such efficacy of GSS may be related to improvment of the expression of GR mRNA. ......