中华物理医学与康复杂志
中華物理醫學與康複雜誌
중화물리의학여강복잡지
CHINESE JOURNAL OF PHYSICAL MEDICINE AND REHABILITATION
2010年
3期
182-185
,共4页
谢智慧%陈宗平%曹瑞%杨垒%陈佐勋%梁国标%黄莉
謝智慧%陳宗平%曹瑞%楊壘%陳佐勛%樑國標%黃莉
사지혜%진종평%조서%양루%진좌훈%량국표%황리
高压氧%缺血再灌注损伤%肾%低氧诱导因子-1α
高壓氧%缺血再灌註損傷%腎%低氧誘導因子-1α
고압양%결혈재관주손상%신%저양유도인자-1α
Hyperbaric oxygen%Ischemia-reperfusion injury%Kidneys%Hypoxia inducible factor-1α
目的 研究肾缺血再灌注损伤(IRI)时肾组织低氧诱导因子-1α(HIF-1α)mRNA表达的变化,探讨高压氧(HBO)对肾IRI的作用及其机制.方法 42只Wistar大鼠分为对照组、肾IRI组和HBO治疗组,对照组6只,其余2组各18只,建立大鼠肾IRI模型.肾IRI组和HBO治疗组分别于再灌注后1,3,5 h(每个时间点6只)采血测定肾功能,荧光定量聚合酶链反应(PCR)检测肾组织HIF-1α mRNA的表达,同时用电镜观察组织超微结构的变化.结果 ①随着再灌注时间的延长,血清Cr的水平逐渐增高,显著高于对照组(P<0.05);HBO治疗后血清Cr水平显著降低(P<0.05).②肾IRI组在再灌注1 h时肾组织HIF-1amRNA表达量明显低于正常水平,3 h时明显高于对照组(P<0.05),5 h时基本恢复至正常水平(P>0.05);与肾IRI组相比,HBO治疗组再灌注后1 h和3 h时HIF-1α mRNA表达量明显增加(P<0.05),5 h时显著减少(P<0.05).③随着时间的延长,肾IRI组肾小管上皮细胞内质网扩张、线粒体肿胀等损伤逐渐加重;HBO治疗后肾损伤的程度明显减轻,线粒体基本恢复正常,再灌注1 h和3 h时肾损伤减轻的程度明显优于再灌注5 h时.结论 HIF-1αmRNA参与了肾IRI的病理生理过程.HBO通过提前启动和上调HIF-1α mRNA的表达,明显减轻了肾IRI,保护了肾功能.HBO早期干预更有利于肾IRI的治疗.
目的 研究腎缺血再灌註損傷(IRI)時腎組織低氧誘導因子-1α(HIF-1α)mRNA錶達的變化,探討高壓氧(HBO)對腎IRI的作用及其機製.方法 42隻Wistar大鼠分為對照組、腎IRI組和HBO治療組,對照組6隻,其餘2組各18隻,建立大鼠腎IRI模型.腎IRI組和HBO治療組分彆于再灌註後1,3,5 h(每箇時間點6隻)採血測定腎功能,熒光定量聚閤酶鏈反應(PCR)檢測腎組織HIF-1α mRNA的錶達,同時用電鏡觀察組織超微結構的變化.結果 ①隨著再灌註時間的延長,血清Cr的水平逐漸增高,顯著高于對照組(P<0.05);HBO治療後血清Cr水平顯著降低(P<0.05).②腎IRI組在再灌註1 h時腎組織HIF-1amRNA錶達量明顯低于正常水平,3 h時明顯高于對照組(P<0.05),5 h時基本恢複至正常水平(P>0.05);與腎IRI組相比,HBO治療組再灌註後1 h和3 h時HIF-1α mRNA錶達量明顯增加(P<0.05),5 h時顯著減少(P<0.05).③隨著時間的延長,腎IRI組腎小管上皮細胞內質網擴張、線粒體腫脹等損傷逐漸加重;HBO治療後腎損傷的程度明顯減輕,線粒體基本恢複正常,再灌註1 h和3 h時腎損傷減輕的程度明顯優于再灌註5 h時.結論 HIF-1αmRNA參與瞭腎IRI的病理生理過程.HBO通過提前啟動和上調HIF-1α mRNA的錶達,明顯減輕瞭腎IRI,保護瞭腎功能.HBO早期榦預更有利于腎IRI的治療.
목적 연구신결혈재관주손상(IRI)시신조직저양유도인자-1α(HIF-1α)mRNA표체적변화,탐토고압양(HBO)대신IRI적작용급기궤제.방법 42지Wistar대서분위대조조、신IRI조화HBO치료조,대조조6지,기여2조각18지,건립대서신IRI모형.신IRI조화HBO치료조분별우재관주후1,3,5 h(매개시간점6지)채혈측정신공능,형광정량취합매련반응(PCR)검측신조직HIF-1α mRNA적표체,동시용전경관찰조직초미결구적변화.결과 ①수착재관주시간적연장,혈청Cr적수평축점증고,현저고우대조조(P<0.05);HBO치료후혈청Cr수평현저강저(P<0.05).②신IRI조재재관주1 h시신조직HIF-1amRNA표체량명현저우정상수평,3 h시명현고우대조조(P<0.05),5 h시기본회복지정상수평(P>0.05);여신IRI조상비,HBO치료조재관주후1 h화3 h시HIF-1α mRNA표체량명현증가(P<0.05),5 h시현저감소(P<0.05).③수착시간적연장,신IRI조신소관상피세포내질망확장、선립체종창등손상축점가중;HBO치료후신손상적정도명현감경,선립체기본회복정상,재관주1 h화3 h시신손상감경적정도명현우우재관주5 h시.결론 HIF-1αmRNA삼여료신IRI적병리생리과정.HBO통과제전계동화상조HIF-1α mRNA적표체,명현감경료신IRI,보호료신공능.HBO조기간예경유리우신IRI적치료.
Objective To study the expression of hypoxia inducible factor-1alpha (HIF-1α) mRNA in re-nal tissue after renal ischemia-reperfusion injury (IRI), and to investigate the effect of hyperbaric oxygen (HBO) on renal IRI and its mechanism. Methods Forty-two Wistar rats were randomly divided into a normal control group(n =6), a renal IRI group (n=18) and an HBO treatment group (n=18). Renal IRI models were established in all the rats. The plasma levels of Cr in the experimental groups were then measured after 1, 3 and 5 hours. The expres-sion of HIF-1α mRNA was also detected using real-time PCR and immunohistochemistry. Kidney tissue sections were preserved for ultrastructure examination. Results (1) The average levels of plasma Cr in the renal IRI group were significantly higher than those in the control group. Compared with the renal IRI group, plasma Cr was significantly lower in the HBO treatment group. (2) The average expression of HIF-1α mRNA was significantly lower an hour after reperfusion, but significantly higher after 3 hours than in the control group. There was no significant difference by the 5th hour after reperfusion. In the HBO treatment group, HIF-1α mRNA was up-regulated significantly at the 1st and 3rd hour after reperfusion compared with the renal IRI group, but it was reduced significantly by the 5th hour after reperfusion. (3) The severity of the kidney injury increased gradually with time in the renal IRI group. After HBO treatment, however, the damage to the renal tissues decreased significantly. Conclusions HIF-1α mRNA plays an important role in the development of renal IRI. The damage to renal tissues and renal function improves significantly after reperfusion and HBO treatment through earlier priming and up-regulating of HIF-1α mRNA expression. HBO should be applied early to help prevent renal IRI.
