Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection

S. Samuel Weigt; Xiaoyan Wang; Vyacheslav Palchevskiy; Xinmin Li; N. Patel; David J. Ross; John Reynolds; Pali D. Shah; Lara A. Danziger-Isakov; Stuart C. Sweet; Lianne G. Singer; M. Budev; S. Palmer; John A. Belperio

doi:10.1016/j.healun.2019.05.001

Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection

S. Samuel Weigt, Xiaoyan Wang, Vyacheslav Palchevskiy, Xinmin Li, N. Patel, David J. Ross, John Reynolds, Pali D. Shah, Lara A. Danziger-Isakov, Stuart C. Sweet, Lianne G. Singer, M. Budev, S. Palmer, John A. Belperio

School of Medicine

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

12 Scopus citations

Abstract

BACKGROUND: Chronic lung allograft dysfunction (CLAD) is the main limitation to long-term survival after lung transplantation. Because effective therapies are lacking, early identification and mitigation of risk factors is a pragmatic approach to improve outcomes. Acute cellular rejection (ACR) is the most pervasive risk factor for CLAD, but diagnosis requires transbronchial biopsy, which carries risks. We hypothesized that gene expression in the bronchoalveolar lavage (BAL) cell pellet (CP) could replace biopsy and inform on mechanisms of CLAD. METHODS: We performed RNA sequencing on BAL CPs from 219 lung transplant recipients with A-grade ACR (n = 61), lymphocytic bronchiolitis (n = 58), infection (n = 41), or no rejection/infection (n = 59). Differential gene expression was based on absolute fold difference >2.0 and Benjamini-adjusted p-value ≤0.05. We used the Database for Annotation, Visualization and Integrated Discovery Bioinformatics Resource for pathway analyses. For classifier modeling, samples were randomly split into training (n = 154) and testing sets (n = 65). A logistic regression model using recursive feature elimination and 5-fold cross-validation was trained to optimize area under the curve (AUC). RESULTS: Differential gene expression identified 72 genes. Enriched pathways included T-cell receptor signaling, natural killer cell–mediated cytotoxicity, and cytokine–cytokine receptor interaction. A 4-gene model (AUC = 0.72) and classification threshold defined in the training set exhibited fair performance in the testing set; accuracy was 76%, specificity 82%, and sensitivity 60%. In addition, classification as ACR was associated with worse CLAD-free survival (hazard ratio = 2.42; 95% confidence interval = 1.29–4.53). CONCLUSIONS: BAL CP gene expression during ACR is enriched for immune response pathways and shows promise as a diagnostic tool for ACR, especially ACR that is a precursor of CLAD.

Original language	English (US)
Pages (from-to)	845-855
Number of pages	11
Journal	Journal of Heart and Lung Transplantation
Volume	38
Issue number	8
DOIs	https://doi.org/10.1016/j.healun.2019.05.001
State	Published - Aug 2019

Keywords

Acute cellular rejection
Lung transplant
bronchoalveolar lavage
gene expression
genomic classifier
transcriptome

ASJC Scopus subject areas

Surgery
Pulmonary and Respiratory Medicine
Cardiology and Cardiovascular Medicine
Transplantation

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10.1016/j.healun.2019.05.001

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Weigt, S. S., Wang, X., Palchevskiy, V., Li, X., Patel, N., Ross, D. J., Reynolds, J., Shah, P. D., Danziger-Isakov, L. A., Sweet, S. C., Singer, L. G., Budev, M., Palmer, S., & Belperio, J. A. (2019). Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection. Journal of Heart and Lung Transplantation, 38(8), 845-855. https://doi.org/10.1016/j.healun.2019.05.001

Weigt, SS, Wang, X, Palchevskiy, V, Li, X, Patel, N, Ross, DJ, Reynolds, J, Shah, PD, Danziger-Isakov, LA, Sweet, SC, Singer, LG, Budev, M, Palmer, S & Belperio, JA 2019, 'Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection', Journal of Heart and Lung Transplantation, vol. 38, no. 8, pp. 845-855. https://doi.org/10.1016/j.healun.2019.05.001

@article{3442808f076f4e39ad7a5d4c48b1d9e6,

title = "Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection",

abstract = "BACKGROUND: Chronic lung allograft dysfunction (CLAD) is the main limitation to long-term survival after lung transplantation. Because effective therapies are lacking, early identification and mitigation of risk factors is a pragmatic approach to improve outcomes. Acute cellular rejection (ACR) is the most pervasive risk factor for CLAD, but diagnosis requires transbronchial biopsy, which carries risks. We hypothesized that gene expression in the bronchoalveolar lavage (BAL) cell pellet (CP) could replace biopsy and inform on mechanisms of CLAD. METHODS: We performed RNA sequencing on BAL CPs from 219 lung transplant recipients with A-grade ACR (n = 61), lymphocytic bronchiolitis (n = 58), infection (n = 41), or no rejection/infection (n = 59). Differential gene expression was based on absolute fold difference >2.0 and Benjamini-adjusted p-value ≤0.05. We used the Database for Annotation, Visualization and Integrated Discovery Bioinformatics Resource for pathway analyses. For classifier modeling, samples were randomly split into training (n = 154) and testing sets (n = 65). A logistic regression model using recursive feature elimination and 5-fold cross-validation was trained to optimize area under the curve (AUC). RESULTS: Differential gene expression identified 72 genes. Enriched pathways included T-cell receptor signaling, natural killer cell–mediated cytotoxicity, and cytokine–cytokine receptor interaction. A 4-gene model (AUC = 0.72) and classification threshold defined in the training set exhibited fair performance in the testing set; accuracy was 76%, specificity 82%, and sensitivity 60%. In addition, classification as ACR was associated with worse CLAD-free survival (hazard ratio = 2.42; 95% confidence interval = 1.29–4.53). CONCLUSIONS: BAL CP gene expression during ACR is enriched for immune response pathways and shows promise as a diagnostic tool for ACR, especially ACR that is a precursor of CLAD.",

keywords = "Acute cellular rejection, Lung transplant, bronchoalveolar lavage, gene expression, genomic classifier, transcriptome",

author = "Weigt, {S. Samuel} and Xiaoyan Wang and Vyacheslav Palchevskiy and Xinmin Li and N. Patel and Ross, {David J.} and John Reynolds and Shah, {Pali D.} and Danziger-Isakov, {Lara A.} and Sweet, {Stuart C.} and Singer, {Lianne G.} and M. Budev and S. Palmer and Belperio, {John A.}",

note = "Publisher Copyright: {\textcopyright} 2019 International Society for Heart and Lung Transplantation",

year = "2019",

month = aug,

doi = "10.1016/j.healun.2019.05.001",

language = "English (US)",

volume = "38",

pages = "845--855",

journal = "Journal of Heart and Lung Transplantation",

issn = "1053-2498",

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number = "8",

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T1 - Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection

AU - Weigt, S. Samuel

AU - Wang, Xiaoyan

AU - Palchevskiy, Vyacheslav

AU - Li, Xinmin

AU - Patel, N.

AU - Ross, David J.

AU - Reynolds, John

AU - Shah, Pali D.

AU - Danziger-Isakov, Lara A.

AU - Sweet, Stuart C.

AU - Singer, Lianne G.

AU - Budev, M.

AU - Palmer, S.

AU - Belperio, John A.

PY - 2019/8

Y1 - 2019/8

N2 - BACKGROUND: Chronic lung allograft dysfunction (CLAD) is the main limitation to long-term survival after lung transplantation. Because effective therapies are lacking, early identification and mitigation of risk factors is a pragmatic approach to improve outcomes. Acute cellular rejection (ACR) is the most pervasive risk factor for CLAD, but diagnosis requires transbronchial biopsy, which carries risks. We hypothesized that gene expression in the bronchoalveolar lavage (BAL) cell pellet (CP) could replace biopsy and inform on mechanisms of CLAD. METHODS: We performed RNA sequencing on BAL CPs from 219 lung transplant recipients with A-grade ACR (n = 61), lymphocytic bronchiolitis (n = 58), infection (n = 41), or no rejection/infection (n = 59). Differential gene expression was based on absolute fold difference >2.0 and Benjamini-adjusted p-value ≤0.05. We used the Database for Annotation, Visualization and Integrated Discovery Bioinformatics Resource for pathway analyses. For classifier modeling, samples were randomly split into training (n = 154) and testing sets (n = 65). A logistic regression model using recursive feature elimination and 5-fold cross-validation was trained to optimize area under the curve (AUC). RESULTS: Differential gene expression identified 72 genes. Enriched pathways included T-cell receptor signaling, natural killer cell–mediated cytotoxicity, and cytokine–cytokine receptor interaction. A 4-gene model (AUC = 0.72) and classification threshold defined in the training set exhibited fair performance in the testing set; accuracy was 76%, specificity 82%, and sensitivity 60%. In addition, classification as ACR was associated with worse CLAD-free survival (hazard ratio = 2.42; 95% confidence interval = 1.29–4.53). CONCLUSIONS: BAL CP gene expression during ACR is enriched for immune response pathways and shows promise as a diagnostic tool for ACR, especially ACR that is a precursor of CLAD.

AB - BACKGROUND: Chronic lung allograft dysfunction (CLAD) is the main limitation to long-term survival after lung transplantation. Because effective therapies are lacking, early identification and mitigation of risk factors is a pragmatic approach to improve outcomes. Acute cellular rejection (ACR) is the most pervasive risk factor for CLAD, but diagnosis requires transbronchial biopsy, which carries risks. We hypothesized that gene expression in the bronchoalveolar lavage (BAL) cell pellet (CP) could replace biopsy and inform on mechanisms of CLAD. METHODS: We performed RNA sequencing on BAL CPs from 219 lung transplant recipients with A-grade ACR (n = 61), lymphocytic bronchiolitis (n = 58), infection (n = 41), or no rejection/infection (n = 59). Differential gene expression was based on absolute fold difference >2.0 and Benjamini-adjusted p-value ≤0.05. We used the Database for Annotation, Visualization and Integrated Discovery Bioinformatics Resource for pathway analyses. For classifier modeling, samples were randomly split into training (n = 154) and testing sets (n = 65). A logistic regression model using recursive feature elimination and 5-fold cross-validation was trained to optimize area under the curve (AUC). RESULTS: Differential gene expression identified 72 genes. Enriched pathways included T-cell receptor signaling, natural killer cell–mediated cytotoxicity, and cytokine–cytokine receptor interaction. A 4-gene model (AUC = 0.72) and classification threshold defined in the training set exhibited fair performance in the testing set; accuracy was 76%, specificity 82%, and sensitivity 60%. In addition, classification as ACR was associated with worse CLAD-free survival (hazard ratio = 2.42; 95% confidence interval = 1.29–4.53). CONCLUSIONS: BAL CP gene expression during ACR is enriched for immune response pathways and shows promise as a diagnostic tool for ACR, especially ACR that is a precursor of CLAD.

KW - Acute cellular rejection

KW - Lung transplant

KW - bronchoalveolar lavage

KW - gene expression

KW - genomic classifier

KW - transcriptome

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SN - 1053-2498

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JO - Journal of Heart and Lung Transplantation

JF - Journal of Heart and Lung Transplantation

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ER -

Usefulness of gene expression profiling of bronchoalveolar lavage cells in acute lung allograft rejection

Abstract

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