Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer

Humam Kadara; Junya Fujimoto; Suk Young Yoo; Yuho Maki; Adam C. Gower; Mohamed Kabbout; Melinda M. Garcia; Chi Wan Chow; Zuoming Chu; Gabriella Mendoza; Li Shen; Neda Kalhor; Waun Ki Hong; Cesar Moran; Jing Wang; Avrum Spira; Kevin R. Coombes; Ignacio I. Wistuba

doi:10.1093/jnci/dju004

Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer

Humam Kadara, Junya Fujimoto, Suk Young Yoo, Yuho Maki, Adam C. Gower, Mohamed Kabbout, Melinda M. Garcia, Chi Wan Chow, Zuoming Chu, Gabriella Mendoza, Li Shen, Neda Kalhor, Waun Ki Hong, Cesar Moran, Jing Wang, Avrum Spira, Kevin R. Coombes, Ignacio I. Wistuba

Research output: Contribution to journal › Article › peer-review

66 Scopus citations

Abstract

Background Earlier work identified specific tumor-promoting abnormalities that are shared between lung cancers and adjacent normal bronchial epithelia. We sought to characterize the yet unknown global molecular and adjacent airway field cancerization (FC) in early-stage non-small cell lung cancer (NSCLC). Methods Whole-transcriptome expression profiling of resected early-stage (I-IIIA) NSCLC specimens (n = 20) with matched tumors, multiple cytologically controlled normal airways with varying distances from tumors, and uninvolved normal lung tissues (n = 194 samples) was performed using the Affymetrix Human Gene 1.0 ST platform. Mixedeffects models were used to identify differentially expressed genes among groups. Ordinal regression analysis was performed to characterize site-dependent airway expression profiles. All statistical tests were two-sided, except where noted. Results We identified differentially expressed gene features (n = 1661) between NSCLCs and airways compared with normal lung tissues, a subset of which (n = 299), after gene set enrichment analysis, statistically significantly (P < .001) distinguished large airways in lung cancer patients from airways in cancer-free smokers. In addition, we identified genes (n = 422) statistically significantly and progressively differentially expressed in airways by distance from tumors that were found to be congruently modulated between NSCLCs and normal lung tissues. Furthermore, LAPTM4B, with statistically significantly increased expression (P < .05) in airways with shorter distance from tumors, was upregulated in human immortalized cells compared with normal bronchial epithelial cells (P < .001) and promoted anchorage-dependent and -independent lung cancer cell growth. Conclusions The adjacent airway FC comprises both site-independent profiles as well as gradient and localized airway expression patterns. Profiling of the airway FC may provide new insights into NSCLC oncogenesis and molecular tools for detection of the disease.

Original language	English (US)
Article number	dju004
Journal	Journal of the National Cancer Institute
Volume	106
Issue number	3
DOIs	https://doi.org/10.1093/jnci/dju004
State	Published - Mar 2014
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/jnci/dju004

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Kadara, H., Fujimoto, J., Yoo, S. Y., Maki, Y., Gower, A. C., Kabbout, M., Garcia, M. M., Chow, C. W., Chu, Z., Mendoza, G., Shen, L., Kalhor, N., Hong, W. K., Moran, C., Wang, J., Spira, A., Coombes, K. R., & Wistuba, I. I. (2014). Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer. Journal of the National Cancer Institute, 106(3), Article dju004. https://doi.org/10.1093/jnci/dju004

Kadara, H, Fujimoto, J, Yoo, SY, Maki, Y, Gower, AC, Kabbout, M, Garcia, MM, Chow, CW, Chu, Z, Mendoza, G, Shen, L, Kalhor, N, Hong, WK, Moran, C, Wang, J, Spira, A, Coombes, KR & Wistuba, II 2014, 'Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer', Journal of the National Cancer Institute, vol. 106, no. 3, dju004. https://doi.org/10.1093/jnci/dju004

@article{fbe938db06ea41d9ac68efd18c33516f,

title = "Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer",

abstract = "Background Earlier work identified specific tumor-promoting abnormalities that are shared between lung cancers and adjacent normal bronchial epithelia. We sought to characterize the yet unknown global molecular and adjacent airway field cancerization (FC) in early-stage non-small cell lung cancer (NSCLC). Methods Whole-transcriptome expression profiling of resected early-stage (I-IIIA) NSCLC specimens (n = 20) with matched tumors, multiple cytologically controlled normal airways with varying distances from tumors, and uninvolved normal lung tissues (n = 194 samples) was performed using the Affymetrix Human Gene 1.0 ST platform. Mixedeffects models were used to identify differentially expressed genes among groups. Ordinal regression analysis was performed to characterize site-dependent airway expression profiles. All statistical tests were two-sided, except where noted. Results We identified differentially expressed gene features (n = 1661) between NSCLCs and airways compared with normal lung tissues, a subset of which (n = 299), after gene set enrichment analysis, statistically significantly (P < .001) distinguished large airways in lung cancer patients from airways in cancer-free smokers. In addition, we identified genes (n = 422) statistically significantly and progressively differentially expressed in airways by distance from tumors that were found to be congruently modulated between NSCLCs and normal lung tissues. Furthermore, LAPTM4B, with statistically significantly increased expression (P < .05) in airways with shorter distance from tumors, was upregulated in human immortalized cells compared with normal bronchial epithelial cells (P < .001) and promoted anchorage-dependent and -independent lung cancer cell growth. Conclusions The adjacent airway FC comprises both site-independent profiles as well as gradient and localized airway expression patterns. Profiling of the airway FC may provide new insights into NSCLC oncogenesis and molecular tools for detection of the disease.",

author = "Humam Kadara and Junya Fujimoto and Yoo, {Suk Young} and Yuho Maki and Gower, {Adam C.} and Mohamed Kabbout and Garcia, {Melinda M.} and Chow, {Chi Wan} and Zuoming Chu and Gabriella Mendoza and Li Shen and Neda Kalhor and Hong, {Waun Ki} and Cesar Moran and Jing Wang and Avrum Spira and Coombes, {Kevin R.} and Wistuba, {Ignacio I.}",

note = "Funding Information: This work was funded in part by a grant from the Lung Cancer Research Foundation (to HK), Jimmy Lane Hewlett Fund for Lung Cancer Research (to IIW), NCI lung cancer SPORE P50 CA70907 (to IIW), Depart of Defense grants W81XWH-04-1-0142 (to WKH and IIW) and W81XWH-10-1-1007 (to HK, WKH, and IIW), and by the institutional Cancer Center Support grant CA16672.",

year = "2014",

month = mar,

doi = "10.1093/jnci/dju004",

language = "English (US)",

volume = "106",

journal = "Journal of the National Cancer Institute",

issn = "0027-8874",

publisher = "Oxford University Press",

number = "3",

}

TY - JOUR

T1 - Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer

AU - Kadara, Humam

AU - Fujimoto, Junya

AU - Yoo, Suk Young

AU - Maki, Yuho

AU - Gower, Adam C.

AU - Kabbout, Mohamed

AU - Garcia, Melinda M.

AU - Chow, Chi Wan

AU - Chu, Zuoming

AU - Mendoza, Gabriella

AU - Shen, Li

AU - Kalhor, Neda

AU - Hong, Waun Ki

AU - Moran, Cesar

AU - Wang, Jing

AU - Spira, Avrum

AU - Coombes, Kevin R.

AU - Wistuba, Ignacio I.

N1 - Funding Information: This work was funded in part by a grant from the Lung Cancer Research Foundation (to HK), Jimmy Lane Hewlett Fund for Lung Cancer Research (to IIW), NCI lung cancer SPORE P50 CA70907 (to IIW), Depart of Defense grants W81XWH-04-1-0142 (to WKH and IIW) and W81XWH-10-1-1007 (to HK, WKH, and IIW), and by the institutional Cancer Center Support grant CA16672.

PY - 2014/3

Y1 - 2014/3

N2 - Background Earlier work identified specific tumor-promoting abnormalities that are shared between lung cancers and adjacent normal bronchial epithelia. We sought to characterize the yet unknown global molecular and adjacent airway field cancerization (FC) in early-stage non-small cell lung cancer (NSCLC). Methods Whole-transcriptome expression profiling of resected early-stage (I-IIIA) NSCLC specimens (n = 20) with matched tumors, multiple cytologically controlled normal airways with varying distances from tumors, and uninvolved normal lung tissues (n = 194 samples) was performed using the Affymetrix Human Gene 1.0 ST platform. Mixedeffects models were used to identify differentially expressed genes among groups. Ordinal regression analysis was performed to characterize site-dependent airway expression profiles. All statistical tests were two-sided, except where noted. Results We identified differentially expressed gene features (n = 1661) between NSCLCs and airways compared with normal lung tissues, a subset of which (n = 299), after gene set enrichment analysis, statistically significantly (P < .001) distinguished large airways in lung cancer patients from airways in cancer-free smokers. In addition, we identified genes (n = 422) statistically significantly and progressively differentially expressed in airways by distance from tumors that were found to be congruently modulated between NSCLCs and normal lung tissues. Furthermore, LAPTM4B, with statistically significantly increased expression (P < .05) in airways with shorter distance from tumors, was upregulated in human immortalized cells compared with normal bronchial epithelial cells (P < .001) and promoted anchorage-dependent and -independent lung cancer cell growth. Conclusions The adjacent airway FC comprises both site-independent profiles as well as gradient and localized airway expression patterns. Profiling of the airway FC may provide new insights into NSCLC oncogenesis and molecular tools for detection of the disease.

AB - Background Earlier work identified specific tumor-promoting abnormalities that are shared between lung cancers and adjacent normal bronchial epithelia. We sought to characterize the yet unknown global molecular and adjacent airway field cancerization (FC) in early-stage non-small cell lung cancer (NSCLC). Methods Whole-transcriptome expression profiling of resected early-stage (I-IIIA) NSCLC specimens (n = 20) with matched tumors, multiple cytologically controlled normal airways with varying distances from tumors, and uninvolved normal lung tissues (n = 194 samples) was performed using the Affymetrix Human Gene 1.0 ST platform. Mixedeffects models were used to identify differentially expressed genes among groups. Ordinal regression analysis was performed to characterize site-dependent airway expression profiles. All statistical tests were two-sided, except where noted. Results We identified differentially expressed gene features (n = 1661) between NSCLCs and airways compared with normal lung tissues, a subset of which (n = 299), after gene set enrichment analysis, statistically significantly (P < .001) distinguished large airways in lung cancer patients from airways in cancer-free smokers. In addition, we identified genes (n = 422) statistically significantly and progressively differentially expressed in airways by distance from tumors that were found to be congruently modulated between NSCLCs and normal lung tissues. Furthermore, LAPTM4B, with statistically significantly increased expression (P < .05) in airways with shorter distance from tumors, was upregulated in human immortalized cells compared with normal bronchial epithelial cells (P < .001) and promoted anchorage-dependent and -independent lung cancer cell growth. Conclusions The adjacent airway FC comprises both site-independent profiles as well as gradient and localized airway expression patterns. Profiling of the airway FC may provide new insights into NSCLC oncogenesis and molecular tools for detection of the disease.

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Transcriptomic architecture of the adjacent airway field cancerization in non-small cell lung cancer

Abstract

ASJC Scopus subject areas

UN SDGs

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