中华生物医学工程杂志
中華生物醫學工程雜誌
중화생물의학공정잡지
CHINESE JOURNAL OF BIOMEDICAL ENGINEERING
2013年
1期
1-5
,共5页
朱国英%朱风尚%黄东平%沈晓莹%宋振云%郜恒骏
硃國英%硃風尚%黃東平%瀋曉瑩%宋振雲%郜恆駿
주국영%주풍상%황동평%침효형%송진운%고항준
胰腺炎,急性坏死性%寡核苷酸序列分析%基因表达谱%反转录聚合酶链反应%清胰汤
胰腺炎,急性壞死性%寡覈苷痠序列分析%基因錶達譜%反轉錄聚閤酶鏈反應%清胰湯
이선염,급성배사성%과핵감산서렬분석%기인표체보%반전록취합매련반응%청이탕
Acute necrotizing pancreatitis%Oligonucleotide sequence analysis%Gene expression profiling%Reverse transcriptase polymerase chain reaction%Qing-Yi decoction
目的 探讨清胰汤(QYD)对牛磺胆酸钠诱导的急性坏死性胰腺炎(ANP)大鼠胰腺基因表达谱的影响.方法 60只SD大鼠按随机数字法分为假手术组(SO组)、ANP组和QYD组,每组20只.4%牛磺胆酸钠胰胆管逆行注射复制ANP模型,SO组注射生理盐水,QYD组3次灌胃治疗(0.75 ml/100 g).观测大鼠存活率、血清淀粉酶和C-反应蛋白(CRP)变化;HE染色观察胰腺、肺组织病理改变;Illumina大鼠全基因组表达谱基因芯片分析胰腺表达谱变化;荧光定量RT-PCR验证部分基因(热休克蛋白A8和热休克蛋白b1).结果 QYD组存活率较ANP组高(80%比65%,P=0.031),而血清淀粉酶、CRP明显下降[(5789±798)比(7256± 1221) U/L,P=0.001;(78.6±18.5)比(126.4±24.3) mg/L,P=0.012],Schmidt胰腺病理评分好转.与ANP组比较,QYD组筛选出575个差异基因,其中上调92个,下调483个.基因本体论(GO)功能分析涉及到转录调节因子活性负调节、氧化还原酶类活性、酶抑制剂活性等.KEGG生物学通路主要涉及丝裂原活化蛋白激酶(MAPK)信号通路、NOD受体样信号通路、细胞周期、代谢通路、氧化还原酶类活性等.定量RT-PCR(热休克蛋白A8和热休克蛋白b1 mRNA)验证了基因芯片结果.结论 QYD可有效治疗实验性ANP,其机制涉及到MAPK信号通路、NOD受体样信号通路、细胞周期、代谢通路、氧化还原酶类活性等.
目的 探討清胰湯(QYD)對牛磺膽痠鈉誘導的急性壞死性胰腺炎(ANP)大鼠胰腺基因錶達譜的影響.方法 60隻SD大鼠按隨機數字法分為假手術組(SO組)、ANP組和QYD組,每組20隻.4%牛磺膽痠鈉胰膽管逆行註射複製ANP模型,SO組註射生理鹽水,QYD組3次灌胃治療(0.75 ml/100 g).觀測大鼠存活率、血清澱粉酶和C-反應蛋白(CRP)變化;HE染色觀察胰腺、肺組織病理改變;Illumina大鼠全基因組錶達譜基因芯片分析胰腺錶達譜變化;熒光定量RT-PCR驗證部分基因(熱休剋蛋白A8和熱休剋蛋白b1).結果 QYD組存活率較ANP組高(80%比65%,P=0.031),而血清澱粉酶、CRP明顯下降[(5789±798)比(7256± 1221) U/L,P=0.001;(78.6±18.5)比(126.4±24.3) mg/L,P=0.012],Schmidt胰腺病理評分好轉.與ANP組比較,QYD組篩選齣575箇差異基因,其中上調92箇,下調483箇.基因本體論(GO)功能分析涉及到轉錄調節因子活性負調節、氧化還原酶類活性、酶抑製劑活性等.KEGG生物學通路主要涉及絲裂原活化蛋白激酶(MAPK)信號通路、NOD受體樣信號通路、細胞週期、代謝通路、氧化還原酶類活性等.定量RT-PCR(熱休剋蛋白A8和熱休剋蛋白b1 mRNA)驗證瞭基因芯片結果.結論 QYD可有效治療實驗性ANP,其機製涉及到MAPK信號通路、NOD受體樣信號通路、細胞週期、代謝通路、氧化還原酶類活性等.
목적 탐토청이탕(QYD)대우광담산납유도적급성배사성이선염(ANP)대서이선기인표체보적영향.방법 60지SD대서안수궤수자법분위가수술조(SO조)、ANP조화QYD조,매조20지.4%우광담산납이담관역행주사복제ANP모형,SO조주사생리염수,QYD조3차관위치료(0.75 ml/100 g).관측대서존활솔、혈청정분매화C-반응단백(CRP)변화;HE염색관찰이선、폐조직병리개변;Illumina대서전기인조표체보기인심편분석이선표체보변화;형광정량RT-PCR험증부분기인(열휴극단백A8화열휴극단백b1).결과 QYD조존활솔교ANP조고(80%비65%,P=0.031),이혈청정분매、CRP명현하강[(5789±798)비(7256± 1221) U/L,P=0.001;(78.6±18.5)비(126.4±24.3) mg/L,P=0.012],Schmidt이선병리평분호전.여ANP조비교,QYD조사선출575개차이기인,기중상조92개,하조483개.기인본체론(GO)공능분석섭급도전록조절인자활성부조절、양화환원매류활성、매억제제활성등.KEGG생물학통로주요섭급사렬원활화단백격매(MAPK)신호통로、NOD수체양신호통로、세포주기、대사통로、양화환원매류활성등.정량RT-PCR(열휴극단백A8화열휴극단백b1 mRNA)험증료기인심편결과.결론 QYD가유효치료실험성ANP,기궤제섭급도MAPK신호통로、NOD수체양신호통로、세포주기、대사통로、양화환원매류활성등.
Objective To explore the effects of Qing-Yi Decoction (QYD) on gene expression profile in rats with sodium taurocholate-induced acute necrotizing pancreatitis(ANP).Methods Sixty SD rats were randomly assigned to Sham operation group(group SO,n=20),ANP group(n=20) and QYD group (n=20).The ANP model was established by pancreatic duct retrograde injection with 4% sodium taurocholate.SO group was treated with normal saline and QYD group received intragastric injection of QYD (0.75 ml/100 g) for thrice.The survival rates and changes in serum amylase and C-reactive protein (CRP)were determined.HE staining was emnployed for assessment of pathological changes in the pancreas and lung tissues.Measurement of the altered pancreatic RNA expression was conducted by using Illumina wholegenome expression biochips.Changes in particular genes,namely,Hspa8 and Hspb1,were verified via quantitative reverse transcriptase polymerase chain reaction(QRT-PCR).Results Compared with group ANP,a higher survival rate (80% vs 65%,P=0.031) and Schmidt pancreas pathological scores yet reducedserum amylase[(5789±798) U/L vs (7256±1221) U/L,P=0.001] and CRP[(78.6±18.5) mg/L vs (126.4±24.3) mg/L,P=0.012] were noted in group QYD.Of the 575 differential genes,when compared with group ANP,group QYD yielded 92 up-regulated and 483 down-regulated genes.The gene ontology was employed to analyze the negative modulation of transcription regulator,oxidoreductase and enzyme inhibitor activity.Effects of QYD on ANP were mainly linked to KEGG metabolic pathways that involved mitogen-activated protein kinase (MAPK) and NOD receptor-like signaling pathway,cell cycle,metabolic pathways and oxidoreductase activity.Changes of Hspa8 and Hspb1 mRNA in microarray were verified by QRT-PCR.Conclusion QYD is effective for the treatment of experimental ANP as a consequence of altered MAPK and NOD-like receptor signaling pathways,cell cycle,metabolic pathways and oxidoreductase activity.
