癌变·畸变·突变
癌變·畸變·突變
암변·기변·돌변
CARCINOGENSES,TERATOGENSIS AND MUTAGENESIS
2014年
6期
434-437,440
,共5页
杜丽%王恺%韩春光%尹力%李鹏飞%原美茹%刘超%刘永学
杜麗%王愷%韓春光%尹力%李鵬飛%原美茹%劉超%劉永學
두려%왕개%한춘광%윤력%리붕비%원미여%류초%류영학
曲酸%照射%免疫%调节性T细胞%Th17细胞
麯痠%照射%免疫%調節性T細胞%Th17細胞
곡산%조사%면역%조절성T세포%Th17세포
kojic acid%radiation%immune%regulatory T cells%Th17
目的:观察曲酸(KA)对4 Gy 射线照射所致小鼠Treg/Th17细胞比例失衡的影响,以期为KA的辐射免疫损伤防护机制研究提供新思路。方法:C57BL/6雄性小鼠随机分为对照组、照射组、KA低剂量组和KA高剂量组。KA低、高剂量组小鼠分别于照射前27 h皮下注射75、300 mg/kg KA。照射组及KA低、高剂量组小鼠接受4 Gyγ射线一次性全身照射,对照组行假照射。照射后检测外周血白细胞(WBC)数量、脾脏/胸腺指数及脾脏调节性T细胞(Treg细胞)和Th17细胞比例的改变。结果:与对照组比较,4 Gyγ射线照射后,小鼠外周血WBC计数显著降低(<0.05或P<0.01),KA高剂量组WBC计数至照后19 d恢复正常,而照射组及KA低剂量未恢复。γ射线照射后,照射组及KA低、高剂量组小鼠胸腺及脾脏指数均显著降低(P均<0.01),但KA高剂量组的胸腺及脾脏指数明显高于照射组(P均<0.01)。照后4 d,照射组与KA高剂量组脾脏Treg细胞比例显著高于对照组(P均<0.01)。照射组Th17细胞比例亦显著增高,而KA高剂量组Th17比例却显著低于照射组(P<0.05),使得Treg/Th17比值在照后4 d明显增高,导致Treg/Th17平衡向Treg方向明显偏移。结论:适当剂量的KA预防给药能明显减轻γ射线照射所致的免疫损伤,并能抑制照射所致的Th17细胞比例增高,导致Treg/Th17平衡向Treg细胞方向偏移。表明KA可抑制照射所引起的炎性反应,从而减轻机体的炎症性损伤,发挥有效的保护作用。
目的:觀察麯痠(KA)對4 Gy 射線照射所緻小鼠Treg/Th17細胞比例失衡的影響,以期為KA的輻射免疫損傷防護機製研究提供新思路。方法:C57BL/6雄性小鼠隨機分為對照組、照射組、KA低劑量組和KA高劑量組。KA低、高劑量組小鼠分彆于照射前27 h皮下註射75、300 mg/kg KA。照射組及KA低、高劑量組小鼠接受4 Gyγ射線一次性全身照射,對照組行假照射。照射後檢測外週血白細胞(WBC)數量、脾髒/胸腺指數及脾髒調節性T細胞(Treg細胞)和Th17細胞比例的改變。結果:與對照組比較,4 Gyγ射線照射後,小鼠外週血WBC計數顯著降低(<0.05或P<0.01),KA高劑量組WBC計數至照後19 d恢複正常,而照射組及KA低劑量未恢複。γ射線照射後,照射組及KA低、高劑量組小鼠胸腺及脾髒指數均顯著降低(P均<0.01),但KA高劑量組的胸腺及脾髒指數明顯高于照射組(P均<0.01)。照後4 d,照射組與KA高劑量組脾髒Treg細胞比例顯著高于對照組(P均<0.01)。照射組Th17細胞比例亦顯著增高,而KA高劑量組Th17比例卻顯著低于照射組(P<0.05),使得Treg/Th17比值在照後4 d明顯增高,導緻Treg/Th17平衡嚮Treg方嚮明顯偏移。結論:適噹劑量的KA預防給藥能明顯減輕γ射線照射所緻的免疫損傷,併能抑製照射所緻的Th17細胞比例增高,導緻Treg/Th17平衡嚮Treg細胞方嚮偏移。錶明KA可抑製照射所引起的炎性反應,從而減輕機體的炎癥性損傷,髮揮有效的保護作用。
목적:관찰곡산(KA)대4 Gy 사선조사소치소서Treg/Th17세포비례실형적영향,이기위KA적복사면역손상방호궤제연구제공신사로。방법:C57BL/6웅성소서수궤분위대조조、조사조、KA저제량조화KA고제량조。KA저、고제량조소서분별우조사전27 h피하주사75、300 mg/kg KA。조사조급KA저、고제량조소서접수4 Gyγ사선일차성전신조사,대조조행가조사。조사후검측외주혈백세포(WBC)수량、비장/흉선지수급비장조절성T세포(Treg세포)화Th17세포비례적개변。결과:여대조조비교,4 Gyγ사선조사후,소서외주혈WBC계수현저강저(<0.05혹P<0.01),KA고제량조WBC계수지조후19 d회복정상,이조사조급KA저제량미회복。γ사선조사후,조사조급KA저、고제량조소서흉선급비장지수균현저강저(P균<0.01),단KA고제량조적흉선급비장지수명현고우조사조(P균<0.01)。조후4 d,조사조여KA고제량조비장Treg세포비례현저고우대조조(P균<0.01)。조사조Th17세포비례역현저증고,이KA고제량조Th17비례각현저저우조사조(P<0.05),사득Treg/Th17비치재조후4 d명현증고,도치Treg/Th17평형향Treg방향명현편이。결론:괄당제량적KA예방급약능명현감경γ사선조사소치적면역손상,병능억제조사소치적Th17세포비례증고,도치Treg/Th17평형향Treg세포방향편이。표명KA가억제조사소인기적염성반응,종이감경궤체적염증성손상,발휘유효적보호작용。
OBJECTIVE:To observe the effect of kojic acid (KA) on the disequilibrium of Treg/Th17 induced by 4 Gyγray irradiation,in order to provide new ideas for the study of protective mechanisms of KA on immune injury induced by radiation. METHODS:Male C57BL/6 mice were randomly divided into control group,radiation group,KA low group and KA high group. Mice in KA low,high group were treated with 75 or 300 mg/kg KA subcutaneously,respectively,27 h before irradiation. Mice in radiation group and KA low,high group received 4 Gyγray for whole body irradiation(WBI) and control group received sham irradiation. After WBI,peripheral blood count,spleen/thymus index and percentage of splenic regulatory T cells (Tregs) and Th17 cells were measured. RESULTS:Peripheral WBC count in mice was significantly decreased after 4 Gyγray irradiation. WBC count in KA high group recovered at 19 d post irradiation,while that in radiation and KA low groups did not recover. Mouse thymus and spleen index in radiation and KA low,high groups were significantly decreased post radiation,but thymus and spleen index in KA high group was significantly higher than that of radiation group. The proportion of splenic Tregs in radiation group and KA high group was significantly higher than that of control group at 4 d post irradiation. The proportion of Th17 in radiation group increased significantly,but the proportion of Th17 in KA high group did not change markedly,and was much lower than that of radiation group. Because of no increase of Th17 in KA high group,the ratio of Treg/Th17 was significantly raised at 4 d post irradiation,leading to an abvious shift towards Tregs. CONCLUSION:KA could significantly alleviate immune injury and inhibit the rise of Th17 induced by γ ray irradiation,causing Treg/Th17 towards to Tregs. These indicated that KA could play a protective role by inhibiting the inflammatory induced by irradiation,thus reduce the damage effect of inflammatory responses in the body.