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dc.contributor.authorRatchada Cresseyen_US
dc.contributor.authorSaranya Pimpaen_US
dc.contributor.authorBusyamas Chewaskulyongen_US
dc.contributor.authorNirush Lertprasertsukeen_US
dc.contributor.authorSomchareon Saetengen_US
dc.contributor.authorChatchai Tayapiwatanaen_US
dc.contributor.authorWatchara Kasinrerken_US
dc.date.accessioned2018-09-10T03:39:03Z-
dc.date.available2018-09-10T03:39:03Z-
dc.date.issued2008-02-20en_US
dc.identifier.issn14726750en_US
dc.identifier.other2-s2.0-41349089919en_US
dc.identifier.other10.1186/1472-6750-8-16en_US
dc.identifier.urihttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=41349089919&origin=inwarden_US
dc.identifier.urihttp://cmuir.cmu.ac.th/jspui/handle/6653943832/60181-
dc.description.abstractBackground: The recognition that human tumors stimulate the production of autoantibodies has initiated the use of this immune response as serological markers for the early diagnosis and management of cancer. The enzyme-linked immunosorbent assay (ELISA) is the most common method used in detecting autoantibodies, which involves coating the microtiter plate with the tumor associated antigen (TAA) of interest and allowing serum antibodies to bind. The patient's sample is directly in contact with the coating antigen so the protein used for coating must be pure to avoid non-specific binding. In this study, a simplified method to selectively and specifically immobilize TAAs onto microtiter plates in order to detect circulating autoantibodies in cancer patients without prior purification process was described. Wild type full-length p53 protein was produced in fusion with biotin carboxyl carrier peptide (BCCP) or hexahistidine [(His)6] using pAK400 and pET15b(+) vectors, respectively. The recombinant p53 fusion protein produced was then subjected to react with either a commercial p53 monoclonal antibody (mAb) or sera from lung cancer patients and healthy volunteers in an enzyme-linked immunosorbent assay (ELISA) format. Results: Both of the immobilized p53 fusion proteins as well as the purified (His)6-p53 fusion protein had a similar dose response of detection to a commercial p53 mAb (DO7). When the biotinylated p53-BCCP fusion protein was used as an antigen to detect p53 autoantibodies in clinical samples, the result showed that human serum reacted strongly to avidin-coated microwell even in the absence of the biotinylated p53-BCCP fusion protein, thus compromised its ability to differentiate weakly positive sera from those that were negative. In contrast, the (His)6-p53 protein immobilized directly onto Ni+ coated microplate was able to identify the p53 autoantibody positive serum. In addition, its reactivity to clinical serum samples highly correlated with those obtained from using purified p53 as an antigen (R = 0.9803, p < 0.0001). Moreover, this directly immobilized p53 antigen can clearly differentiate p53 autoantibody positive sera in cancer patients from healthy volunteers' sera. Conclusion: A method of coating directly and specifically TAAs onto a microtiter plate without the purification processes was developed in this study. Although in this study only one tumor antigen was examined, the simplicity and the ability of coated antigens to identify p53 specific autoantibodies in serum accurately might enable a larger panel of TAAs specific autoantibodies to be explored as serological markers for cancer. © 2008 Cressey et al; licensee BioMed Central Ltd.en_US
dc.subjectBiochemistry, Genetics and Molecular Biologyen_US
dc.subjectMedicineen_US
dc.titleSimplified approaches for the development of an ELISA to detect circulating autoantibodies to p53 in cancer patientsen_US
dc.typeJournalen_US
article.title.sourcetitleBMC Biotechnologyen_US
article.volume8en_US
article.stream.affiliationsChiang Mai Universityen_US
article.stream.affiliationsThailand National Center for Genetic Engineering and Biotechnologyen_US
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