AIMS: To determine if immunohistochemistry (IHC) could be used to monitor nuclear factor-kappaB (NF-kappaB) activity in oesophageal adenocarcinoma and pre-malignant (Barrett's) oesophageal tissues, relative to normal oesophageal mucosa. The pro-inflammatory cytokine interleukin-8 (IL-8), a transcriptional target of NF-kappaB, was also studied to better understand NF-kappaB functionality; its RNA and protein levels were assessed in oesophageal tissues. METHODS: IHC was employed using an antibody against the nuclear localisation sequence (NLS) of the p65 subunit as well as an antibody against IL-8. To assess NF-kappaB function, changes in gene expression of NF-kappaB controlled genes (IL-8 and I-kappaB) were also assessed in the histological sequence using real-time PCR. More global expression changes were also studied using membrane arrays. RESULTS: IHC was effective at monitoring overall NF-kappaB activity and IL-8 abundance. This method also allowed NF-kappaB activity and IL-8 abundance to be pinpointed in specific cell types. There were significant increases in nuclear NF-kappaB activity and IL-8 abundance across the histological series. Gene expression analysis also showed consistent up-regulation of IL-8, confirming the IHC data and showing enhanced transcriptional NF-kappaB activity. I-kappaB (another NF-kappaB target) showed down-regulation in dysplastic and adenocarcinoma tissues. Down-regulation of I-kappaB gene expression may partly explain increased NF-kappaB activity. CONCLUSION: IHC, using antibodies against the NLS of p65, may be useful in monitoring overall NF-kappaB activity in oesophageal tissues. As IHC is amenable to high-throughput screening (whereas traditional electrophoretic mobility shift assay methods are not), this may lead to the development of a better screening tool for early cancer risk.
AIMS: To determine if immunohistochemistry (IHC) could be used to monitor nuclear factor-kappaB (NF-kappaB) activity in oesophageal adenocarcinoma and pre-malignant (Barrett's) oesophageal tissues, relative to normal oesophageal mucosa. The pro-inflammatory cytokine interleukin-8 (IL-8), a transcriptional target of NF-kappaB, was also studied to better understand NF-kappaB functionality; its RNA and protein levels were assessed in oesophageal tissues. METHODS: IHC was employed using an antibody against the nuclear localisation sequence (NLS) of the p65 subunit as well as an antibody against IL-8. To assess NF-kappaB function, changes in gene expression of NF-kappaB controlled genes (IL-8 and I-kappaB) were also assessed in the histological sequence using real-time PCR. More global expression changes were also studied using membrane arrays. RESULTS: IHC was effective at monitoring overall NF-kappaB activity and IL-8 abundance. This method also allowed NF-kappaB activity and IL-8 abundance to be pinpointed in specific cell types. There were significant increases in nuclear NF-kappaB activity and IL-8 abundance across the histological series. Gene expression analysis also showed consistent up-regulation of IL-8, confirming the IHC data and showing enhanced transcriptional NF-kappaB activity. I-kappaB (another NF-kappaB target) showed down-regulation in dysplastic and adenocarcinoma tissues. Down-regulation of I-kappaB gene expression may partly explain increased NF-kappaB activity. CONCLUSION: IHC, using antibodies against the NLS of p65, may be useful in monitoring overall NF-kappaB activity in oesophageal tissues. As IHC is amenable to high-throughput screening (whereas traditional electrophoretic mobility shift assay methods are not), this may lead to the development of a better screening tool for early cancer risk.
Authors: J M O'Riordan; M M Abdel-latif; N Ravi; D McNamara; P J Byrne; G S A McDonald; P W N Keeling; D Kelleher; J V Reynolds Journal: Am J Gastroenterol Date: 2005-06 Impact factor: 10.864
Authors: G J S Jenkins; K Harries; S H Doak; A Wilmes; A P Griffiths; J N Baxter; J M Parry Journal: Carcinogenesis Date: 2003-12-04 Impact factor: 4.944
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