Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas

<p>Abstract</p> <p>Background</p> <p>The advent of gene expression profiling was expected to dramatically improve cancer diagnosis. However, despite intensive efforts and several successful examples, the development of profile-based diagnostic systems remains a difficul...

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Main Authors: Mikuni Nobuhiro, Kanemoto Manabu, Kukita Yoji, Shirahata Mitsuaki, Taniguchi Kazuya, Kawarazaki Satoru, Hashimoto Nobuo, Miyamoto Susumu, Takahashi Jun A, Kato Kikuya
Format: Article
Language:English
Published: BMC 2010-11-01
Series:BMC Medical Genomics
Online Access:http://www.biomedcentral.com/1755-8794/3/52
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spelling doaj-cce9efdbc0db48a68bebad737e7959e82021-04-02T04:44:17ZengBMCBMC Medical Genomics1755-87942010-11-01315210.1186/1755-8794-3-52Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomasMikuni NobuhiroKanemoto ManabuKukita YojiShirahata MitsuakiTaniguchi KazuyaKawarazaki SatoruHashimoto NobuoMiyamoto SusumuTakahashi Jun AKato Kikuya<p>Abstract</p> <p>Background</p> <p>The advent of gene expression profiling was expected to dramatically improve cancer diagnosis. However, despite intensive efforts and several successful examples, the development of profile-based diagnostic systems remains a difficult task. In the present work, we established a method to convert molecular classifiers based on adaptor-tagged competitive PCR (ATAC-PCR) (with a data format that is similar to that of microarrays) into classifiers based on real-time PCR.</p> <p>Methods</p> <p>Previously, we constructed a prognosis predictor for glioma using gene expression data obtained by ATAC-PCR, a high-throughput reverse-transcription PCR technique. The analysis of gene expression data obtained by ATAC-PCR is similar to the analysis of data from two-colour microarrays. The prognosis predictor was a linear classifier based on the first principal component (PC1) score, a weighted summation of the expression values of 58 genes. In the present study, we employed the delta-delta Ct method for measurement by real-time PCR. The predictor was converted to a Ct value-based predictor using linear regression.</p> <p>Results</p> <p>We selected <it>UBL5 </it>as the reference gene from the group of genes with expression patterns that were most similar to the median expression level from the previous profiling study. The number of diagnostic genes was reduced to 27 without affecting the performance of the prognosis predictor. PC1 scores calculated from the data obtained by real-time PCR showed a high linear correlation (r = 0.94) with those obtained by ATAC-PCR. The correlation for individual gene expression patterns (r = 0.43 to 0.91) was smaller than for PC1 scores, suggesting that errors of measurement were likely cancelled out during the weighted summation of the expression values. The classification of a test set (n = 36) by the new predictor was more accurate than histopathological diagnosis (log rank p-values, 0.023 and 0.137, respectively) for predicting prognosis.</p> <p>Conclusion</p> <p>We successfully converted a molecular classifier obtained by ATAC-PCR into a Ct value-based predictor. Our conversion procedure should also be applicable to linear classifiers obtained from microarray data. Because errors in measurement are likely to be cancelled out during the calculation, the conversion of individual gene expression is not an appropriate procedure. The predictor for gliomas is still in the preliminary stages of development and needs analytical clinical validation and clinical utility studies.</p> http://www.biomedcentral.com/1755-8794/3/52
collection DOAJ
language English
format Article
sources DOAJ
author Mikuni Nobuhiro
Kanemoto Manabu
Kukita Yoji
Shirahata Mitsuaki
Taniguchi Kazuya
Kawarazaki Satoru
Hashimoto Nobuo
Miyamoto Susumu
Takahashi Jun A
Kato Kikuya
spellingShingle Mikuni Nobuhiro
Kanemoto Manabu
Kukita Yoji
Shirahata Mitsuaki
Taniguchi Kazuya
Kawarazaki Satoru
Hashimoto Nobuo
Miyamoto Susumu
Takahashi Jun A
Kato Kikuya
Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas
BMC Medical Genomics
author_facet Mikuni Nobuhiro
Kanemoto Manabu
Kukita Yoji
Shirahata Mitsuaki
Taniguchi Kazuya
Kawarazaki Satoru
Hashimoto Nobuo
Miyamoto Susumu
Takahashi Jun A
Kato Kikuya
author_sort Mikuni Nobuhiro
title Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas
title_short Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas
title_full Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas
title_fullStr Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas
title_full_unstemmed Conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time PCR: a prognosis predictor for gliomas
title_sort conversion of a molecular classifier obtained by gene expression profiling into a classifier based on real-time pcr: a prognosis predictor for gliomas
publisher BMC
series BMC Medical Genomics
issn 1755-8794
publishDate 2010-11-01
description <p>Abstract</p> <p>Background</p> <p>The advent of gene expression profiling was expected to dramatically improve cancer diagnosis. However, despite intensive efforts and several successful examples, the development of profile-based diagnostic systems remains a difficult task. In the present work, we established a method to convert molecular classifiers based on adaptor-tagged competitive PCR (ATAC-PCR) (with a data format that is similar to that of microarrays) into classifiers based on real-time PCR.</p> <p>Methods</p> <p>Previously, we constructed a prognosis predictor for glioma using gene expression data obtained by ATAC-PCR, a high-throughput reverse-transcription PCR technique. The analysis of gene expression data obtained by ATAC-PCR is similar to the analysis of data from two-colour microarrays. The prognosis predictor was a linear classifier based on the first principal component (PC1) score, a weighted summation of the expression values of 58 genes. In the present study, we employed the delta-delta Ct method for measurement by real-time PCR. The predictor was converted to a Ct value-based predictor using linear regression.</p> <p>Results</p> <p>We selected <it>UBL5 </it>as the reference gene from the group of genes with expression patterns that were most similar to the median expression level from the previous profiling study. The number of diagnostic genes was reduced to 27 without affecting the performance of the prognosis predictor. PC1 scores calculated from the data obtained by real-time PCR showed a high linear correlation (r = 0.94) with those obtained by ATAC-PCR. The correlation for individual gene expression patterns (r = 0.43 to 0.91) was smaller than for PC1 scores, suggesting that errors of measurement were likely cancelled out during the weighted summation of the expression values. The classification of a test set (n = 36) by the new predictor was more accurate than histopathological diagnosis (log rank p-values, 0.023 and 0.137, respectively) for predicting prognosis.</p> <p>Conclusion</p> <p>We successfully converted a molecular classifier obtained by ATAC-PCR into a Ct value-based predictor. Our conversion procedure should also be applicable to linear classifiers obtained from microarray data. Because errors in measurement are likely to be cancelled out during the calculation, the conversion of individual gene expression is not an appropriate procedure. The predictor for gliomas is still in the preliminary stages of development and needs analytical clinical validation and clinical utility studies.</p>
url http://www.biomedcentral.com/1755-8794/3/52
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