RESUMO
Cognitive impairment in diabetes ( CID) is one of the complications of diabetes .The features of mild or moderate cognitive disorder and the decread abilities in memory and studying are the main symptoms of CID .But it′s mechanism is still un-known .NF-κB is the original signal activator , it can activate other signal pathway of cell dysfunction .With the influence of hyperglyce-mia and oxidative stress, the expression of NF-κB is enhanced, that leads to the changes of the expression of NOS , MMP-9, TNF-α, then, these changes lead to the apoptosis of hippocampus neuron cell .This review focuses on NF-κB in order to provide evidences in studying CID by reviewing the relationship between NF-κB and it′s relative factors of NOS, MMP-9, TNF-αand CID.
RESUMO
Objective:The aim of the current study was to investigate the expression of nuclear factor-?B(NF-?B) and metalloproteinase-9(MMP-9) in the small intestine and to explore the potential role of NF-?B and MMP-9 in the damage of gut mucosal barrier after traumatic brain injury.Methods:The trauma was produced by a free-falling weight on the exposed dura of right parietal lobe.The rats were randomly divided into control group and traumatic brain injury groups at hours 3,12,24 and 72,and on day 7.NF-?B binding activity in the small intestine was studied by electrophoretic mobility shift assay(EMSA),and the expression of MMP-9 was studied by immunohistochemistry.Results:The results showed that NF-?B binding activity and MMP-9 expression in the small intestine was progressively increased,reached the maximum at 72 h and kept at high level up to 7 d after TBI.Concomitant upregulation of NF-?B~()and MMP-9 was observed.MMP-9 positively immunostained cells were mainly located at villous interstitium,lamina propria,crypt and submucosal layer,including endothelial cells,lymphocytes and neutrophils.Conclusion:It was concluded that cortical contusion trauma could induce a concomitant and persistent upregulation of NF-?B binding activity and MMP-9 expression in the small intestine which might play a central role in the~()damage of gut mucosal barrier.