OBJECTIVE:To determine the mechanisms by which Kangxianling(KXL) treats renal interstitial fibrosis using a customized gene chip.METHODS:Twelve out of 18 specific pathogen-free sprague dawley(SPF SD) rats underwent a ...OBJECTIVE:To determine the mechanisms by which Kangxianling(KXL) treats renal interstitial fibrosis using a customized gene chip.METHODS:Twelve out of 18 specific pathogen-free sprague dawley(SPF SD) rats underwent a unilateral ureteral occlusion.These rats were then randomly assigned into either the model unilateral ureteral obstruction(UUO) or Kangxianling(KXL) group.The other six rats were assigned to the sham-operated group.The UUO and sham-operated groups were given normal saline via intragastric administration,whereas the KXL group was given KXL via intragastric administration.All rats were sacrificed for renal tissue collection(i.e.left nephridial tissue),and the detection of genetic changes with the customized chip.RESULTS:Compared to the sham-operated group,transforming growth factor-β1(TGF-β1),Smad2,and Smad3 genes were significantly up-regulated in the UUO group,with >1.5-fold rise(P<0.01).The Smad7 gene was significantly reduced in the UUO versus sham-operated group,with a down-regulation of >1.5-fold(P<0.01).In the KXL group,TGF-β1,Smad2,and Smad3 genes were significantly reduced compared to the UUO group,with a down-regulation of >1.5-fold(P<0.01),whereas the Smad7 gene was significantly increased compared to the UUO group,with an up-regulation of >1.5-fold(P<0.01).CONCLUSION:It was found that KXL can significantly reduce the gene levels of TGF-β1,Smad2,and Smad3.Immunohistochemistry findings also revealed significantly lower TGF-β1/Smads-mediated gene transcription activity.These findings suggest that KXL may negatively regulate the TGF-β1/Smads signal pathway to inhibit the occurrence of renal fibrosis.展开更多
As technology scales down, the reliability issues are becoming more crucial, especially for networks-on-chip (NoCs) that provide the communication requirements of multi-processor systems-on-chip. Reliability evaluatio...As technology scales down, the reliability issues are becoming more crucial, especially for networks-on-chip (NoCs) that provide the communication requirements of multi-processor systems-on-chip. Reliability evaluation based on analytical models is a precise method for dependability analysis before and after designing the fault-tolerant systems. In this paper, we accurately formulate the inherent reliability and vulnerability of some popular NoC architectures against permanent faults, also depending on the employed routing algorithm and traffic model. Based on this analysis, effects of failures in the links, switches and network interfaces on the packet delivery of NoCs are determined. Besides, some extensions to evaluate a fault-tolerant method and some routing algorithms are described. The analyses are validated through appropriate simulations. The results thus obtained are exactly the same as or very close to the analytical ones.展开更多
基金Supported by National Natural Science Foundation of China Grant(30873259)/(81173219)Ministry of Science and Technology in the pharmaceutical industry,scientific research and special(201007005)+7 种基金Shanghai Science and Technology Innovation Plan of Action(11DZ1973100)Shanghai Excellent academic leaders Project Grant(08XD14039)E-institute of TCM Internal Medicine of Shanghai Municipal Education Commission Grant(E03008)Innovative Research Team in Universities,Shanghai Municipal Education Commission of GrantWenzhou Science & Technology Bureau of Grant(Y20070049)Wenzhou Municipal Health Bureau of Grant(2010A012)Wenzhou Center of Traditional Chinese Medicine Laboratory GrantZhejiang Province 151 and Wenzhou Municipal 551 Talented Grant
文摘OBJECTIVE:To determine the mechanisms by which Kangxianling(KXL) treats renal interstitial fibrosis using a customized gene chip.METHODS:Twelve out of 18 specific pathogen-free sprague dawley(SPF SD) rats underwent a unilateral ureteral occlusion.These rats were then randomly assigned into either the model unilateral ureteral obstruction(UUO) or Kangxianling(KXL) group.The other six rats were assigned to the sham-operated group.The UUO and sham-operated groups were given normal saline via intragastric administration,whereas the KXL group was given KXL via intragastric administration.All rats were sacrificed for renal tissue collection(i.e.left nephridial tissue),and the detection of genetic changes with the customized chip.RESULTS:Compared to the sham-operated group,transforming growth factor-β1(TGF-β1),Smad2,and Smad3 genes were significantly up-regulated in the UUO group,with >1.5-fold rise(P<0.01).The Smad7 gene was significantly reduced in the UUO versus sham-operated group,with a down-regulation of >1.5-fold(P<0.01).In the KXL group,TGF-β1,Smad2,and Smad3 genes were significantly reduced compared to the UUO group,with a down-regulation of >1.5-fold(P<0.01),whereas the Smad7 gene was significantly increased compared to the UUO group,with an up-regulation of >1.5-fold(P<0.01).CONCLUSION:It was found that KXL can significantly reduce the gene levels of TGF-β1,Smad2,and Smad3.Immunohistochemistry findings also revealed significantly lower TGF-β1/Smads-mediated gene transcription activity.These findings suggest that KXL may negatively regulate the TGF-β1/Smads signal pathway to inhibit the occurrence of renal fibrosis.
文摘As technology scales down, the reliability issues are becoming more crucial, especially for networks-on-chip (NoCs) that provide the communication requirements of multi-processor systems-on-chip. Reliability evaluation based on analytical models is a precise method for dependability analysis before and after designing the fault-tolerant systems. In this paper, we accurately formulate the inherent reliability and vulnerability of some popular NoC architectures against permanent faults, also depending on the employed routing algorithm and traffic model. Based on this analysis, effects of failures in the links, switches and network interfaces on the packet delivery of NoCs are determined. Besides, some extensions to evaluate a fault-tolerant method and some routing algorithms are described. The analyses are validated through appropriate simulations. The results thus obtained are exactly the same as or very close to the analytical ones.
