中华肾脏病杂志
中華腎髒病雜誌
중화신장병잡지
2008年
9期
632-636
,共5页
罗朋立%曹越%韩淑芬%钟英成%白振忠%靳国恩%杨应忠%格日力
囉朋立%曹越%韓淑芬%鐘英成%白振忠%靳國恩%楊應忠%格日力
라붕립%조월%한숙분%종영성%백진충%근국은%양응충%격일력
高原病%缺氧%血管升压素类%水通道蛋白2
高原病%缺氧%血管升壓素類%水通道蛋白2
고원병%결양%혈관승압소류%수통도단백2
Altitude Sickness%Anoxia%Vasopressins%Aquaporin 2
目的 研究高原低氧环境下大鼠肾脏内髓水通道蛋白2(AQP2)mRNA及蛋白的表达.方法 将40只雄性sD大鼠随机分为24 h、48 h、72 h及1周组,同时设立对照组(西宁地区).将4个实验组由西宁地区(2260 m)带至青海大学可可西里高原医学研究基地(4600 m),在不同时间点处死取材.用放射免疫法检测血浆抗利尿激素(AHD)浓度,Western印迹、实时定量PCR、免疫荧光等方法检测AQP2蛋白及mRNA的表达.结果 暴露于高原低氧环境后,大鼠AHD水平首先呈下降趋势,24 h为(142.46±10.57);48 h时达到最低水平,仅为对照组的28.5%[(86094±6.49)μg/L比(302.53±10.48)μg/L];后逐渐上升,72 h组为(169.65±11.15)μg/L,与对照组差异均有统计学意义(均P<0.01);1周时为(306.46±11.14)μg/L达到对照组水平.AQP2 mRNA的表达与AHD水平的变化相一致,初入高原后呈下降趋势,48 h时达到最低水平,后逐渐上升,24 h、48 h、72 h组与对照组差异均有统计学意义(分别为0.04±0.005,0.03±0.002,0.04±0.003比0.09±0.008,均P<0.01),1周时为(0.09±0.01),达到对照组水平.AQP2蛋白表达与mRNA的表达变化一致.免疫荧光结果显示,对照组及1周组大鼠肾脏荧光强度表达一致,其余各组较低,48 h组荧光强度最低.结论 在高原低氧环境下大鼠肾脏内髓AQP2 mRNA和蛋白的表达在缺氧早期呈下降趋势,后逐渐上升到正常水平,其改变可能和机体对缺氧的程度和高原低氧的习服过程有关.
目的 研究高原低氧環境下大鼠腎髒內髓水通道蛋白2(AQP2)mRNA及蛋白的錶達.方法 將40隻雄性sD大鼠隨機分為24 h、48 h、72 h及1週組,同時設立對照組(西寧地區).將4箇實驗組由西寧地區(2260 m)帶至青海大學可可西裏高原醫學研究基地(4600 m),在不同時間點處死取材.用放射免疫法檢測血漿抗利尿激素(AHD)濃度,Western印跡、實時定量PCR、免疫熒光等方法檢測AQP2蛋白及mRNA的錶達.結果 暴露于高原低氧環境後,大鼠AHD水平首先呈下降趨勢,24 h為(142.46±10.57);48 h時達到最低水平,僅為對照組的28.5%[(86094±6.49)μg/L比(302.53±10.48)μg/L];後逐漸上升,72 h組為(169.65±11.15)μg/L,與對照組差異均有統計學意義(均P<0.01);1週時為(306.46±11.14)μg/L達到對照組水平.AQP2 mRNA的錶達與AHD水平的變化相一緻,初入高原後呈下降趨勢,48 h時達到最低水平,後逐漸上升,24 h、48 h、72 h組與對照組差異均有統計學意義(分彆為0.04±0.005,0.03±0.002,0.04±0.003比0.09±0.008,均P<0.01),1週時為(0.09±0.01),達到對照組水平.AQP2蛋白錶達與mRNA的錶達變化一緻.免疫熒光結果顯示,對照組及1週組大鼠腎髒熒光彊度錶達一緻,其餘各組較低,48 h組熒光彊度最低.結論 在高原低氧環境下大鼠腎髒內髓AQP2 mRNA和蛋白的錶達在缺氧早期呈下降趨勢,後逐漸上升到正常水平,其改變可能和機體對缺氧的程度和高原低氧的習服過程有關.
목적 연구고원저양배경하대서신장내수수통도단백2(AQP2)mRNA급단백적표체.방법 장40지웅성sD대서수궤분위24 h、48 h、72 h급1주조,동시설립대조조(서저지구).장4개실험조유서저지구(2260 m)대지청해대학가가서리고원의학연구기지(4600 m),재불동시간점처사취재.용방사면역법검측혈장항이뇨격소(AHD)농도,Western인적、실시정량PCR、면역형광등방법검측AQP2단백급mRNA적표체.결과 폭로우고원저양배경후,대서AHD수평수선정하강추세,24 h위(142.46±10.57);48 h시체도최저수평,부위대조조적28.5%[(86094±6.49)μg/L비(302.53±10.48)μg/L];후축점상승,72 h조위(169.65±11.15)μg/L,여대조조차이균유통계학의의(균P<0.01);1주시위(306.46±11.14)μg/L체도대조조수평.AQP2 mRNA적표체여AHD수평적변화상일치,초입고원후정하강추세,48 h시체도최저수평,후축점상승,24 h、48 h、72 h조여대조조차이균유통계학의의(분별위0.04±0.005,0.03±0.002,0.04±0.003비0.09±0.008,균P<0.01),1주시위(0.09±0.01),체도대조조수평.AQP2단백표체여mRNA적표체변화일치.면역형광결과현시,대조조급1주조대서신장형광강도표체일치,기여각조교저,48 h조형광강도최저.결론 재고원저양배경하대서신장내수AQP2 mRNA화단백적표체재결양조기정하강추세,후축점상승도정상수평,기개변가능화궤체대결양적정도화고원저양적습복과정유관.
Objective To investigate the change of aquaporin 2 (AQP2) mRNA and protein levels in renal collecting duct of SD rats after hypoxin caused by rising of the altitude to 4600 m. Methods Forty male SD rats were randomly divided into 4 groups (24 h, 48 h, 72 h and 1 week group), and 10 rats in Xining city were used as control group. All the 40 SD rats were transported to Kekexili Natural Reservation areas (4600 m) in Qinghai province. Rats of four experimental groups were sacrificed and renal tissue samples were harvested at different time point respectively, the control group rats were treated in Xining city (2260 m) as well. The concentration of plasma antidiuretic hormone (ADH) was measured by radioimmunity method. The expression of AQP2 mRNA and proteins was evaluated by real-time fluorescent quantitative-PCR, Western blot and immunofluorescence assay. Results The concentration of plasma ADH was decreased at 24 h and was only 28.5% of that of control group, reaching the lowest concentration at 48 h [(86.94±6.49) μg/L vs (302.5±310.48) μg/L], then it increased gradually and was similar to the control group at 7 d [(306.46±11.14) μg/L vs (302.53±10.48)μg/L, P> 0.05]. There were significant differences of the control group with 24 h, 48 h and 72 h groups, respectively[(302.53± 10.48) μg/L vs (142.46±10.57)μg/L, (86.94±6.49)μg/L, (169.65±11.15) μg/L respectively, P<0.01]. The change of AQP2 gene expression level was consistent with the change of ADH. It was decreased at the begining when exposure to altitude and it reached its lowest level at 48 h. It was then returned to high level similarly to that of the control group at 7 d (0.09±0.01 vs 0.09± 0.008, P>0.05 ). There were significant differences of the control group with 24 h, 48 h and 72 h group, respectively (0.09±0.008 vs 0.04±0.005, 0.03±0.002, 0.04±0.003 respectively, P<0.01 ). Conclusions AQP2 expression in the renal collecting duct of SD rats is altered over the period exposed to altitude. It is decreased in the early hypoxia period, and is increased in later period. This change may be related to the intensity of hypoxia, which is mediated by a potential adaptation mechanisms against hypoxia caused by high altitude.
