Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina

Yuri D'Alessandra; Maria Cristina Carena; Liana Spazzafumo; Federico Martinelli; Beatrice Bassetti; Paolo Devanna; Mara Rubino; Giancarlo Marenzi; Gualtiero I. Colombo; Felice Achilli; Stefano Maggiolini; Maurizio C. Capogrossi; Giulio Pompilio

doi:10.1371/journal.pone.0080345

Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina

Yuri D'Alessandra, Maria Cristina Carena, Liana Spazzafumo, Federico Martinelli, Beatrice Bassetti, Paolo Devanna, Mara Rubino, Giancarlo Marenzi, Gualtiero I. Colombo, Felice Achilli, Stefano Maggiolini, Maurizio C. Capogrossi, Giulio Pompilio

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

Abstract

Purpose: We examined circulating miRNA expression profiles in plasma of patients with coronary artery disease (CAD) vs. matched controls, with the aim of identifying novel discriminating biomarkers of Stable (SA) and Unstable (UA) angina. Methods: An exploratory analysis of plasmatic expression profile of 367 miRNAs was conducted in a group of SA and UA patients and control donors, using TaqMan microRNA Arrays. Screening confirmation and expression analysis were performed by qRT-PCR: all miRNAs found dysregulated were examined in the plasma of troponinnegative UA (n=19) and SA (n=34) patients and control subjects (n=20), matched for sex, age, and cardiovascular risk factors. In addition, the expression of 14 known CAD-associated miRNAs was also investigated. Results: Out of 178 miRNAs consistently detected in plasma samples, 3 showed positive modulation by CAD when compared to controls: miR-337-5p, miR-433, and miR-485-3p. Further, miR-1, -122, -126, -133a, -133b, and miR-199a were positively modulated in both UA and SA patients, while miR-337-5p and miR-145 showed a positive modulation only in SA or UA patients, respectively. ROC curve analyses showed a good diagnostic potential (AUC ≥ 0.85) for miR-1, -126, and -483-5p in SA and for miR-1, -126, and -133a in UA patients vs. controls, respectively. No discriminating AUC values were observed comparing SA vs. UA patients. Hierarchical cluster analysis showed that the combination of miR-1, -133a, and -126 in UA and of miR-1, -126, and -485-3p in SA correctly classified patients vs. controls with an efficiency ≥ 87%. No combination of miRNAs was able to reliably discriminate patients with UA from patients with SA. Conclusions: This work showed that specific plasmatic miRNA signatures have the potential to accurately discriminate patients with angiographically documented CAD from matched controls. We failed to identify a plasmatic miRNA expression pattern capable to differentiate SA from UA patients.

Original language	English
Article number	e80345
Journal	PLoS One
Volume	8
Issue number	11
DOIs	https://doi.org/10.1371/journal.pone.0080345
Publication status	Published - Nov 15 2013

ASJC Scopus subject areas

Agricultural and Biological Sciences(all)
Biochemistry, Genetics and Molecular Biology(all)
Medicine(all)

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Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina. / D'Alessandra, Yuri; Carena, Maria Cristina; Spazzafumo, Liana; Martinelli, Federico; Bassetti, Beatrice; Devanna, Paolo; Rubino, Mara ; Marenzi, Giancarlo ; Colombo, Gualtiero I.; Achilli, Felice; Maggiolini, Stefano; Capogrossi, Maurizio C.; Pompilio, Giulio.

In: PLoS One, Vol. 8, No. 11, e80345, 15.11.2013.

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

D'Alessandra, Yuri ; Carena, Maria Cristina ; Spazzafumo, Liana ; Martinelli, Federico ; Bassetti, Beatrice ; Devanna, Paolo ; Rubino, Mara ; Marenzi, Giancarlo ; Colombo, Gualtiero I. ; Achilli, Felice ; Maggiolini, Stefano ; Capogrossi, Maurizio C. ; Pompilio, Giulio. / Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina. In: PLoS One. 2013 ; Vol. 8, No. 11.

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title = "Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina",

abstract = "Purpose: We examined circulating miRNA expression profiles in plasma of patients with coronary artery disease (CAD) vs. matched controls, with the aim of identifying novel discriminating biomarkers of Stable (SA) and Unstable (UA) angina. Methods: An exploratory analysis of plasmatic expression profile of 367 miRNAs was conducted in a group of SA and UA patients and control donors, using TaqMan microRNA Arrays. Screening confirmation and expression analysis were performed by qRT-PCR: all miRNAs found dysregulated were examined in the plasma of troponinnegative UA (n=19) and SA (n=34) patients and control subjects (n=20), matched for sex, age, and cardiovascular risk factors. In addition, the expression of 14 known CAD-associated miRNAs was also investigated. Results: Out of 178 miRNAs consistently detected in plasma samples, 3 showed positive modulation by CAD when compared to controls: miR-337-5p, miR-433, and miR-485-3p. Further, miR-1, -122, -126, -133a, -133b, and miR-199a were positively modulated in both UA and SA patients, while miR-337-5p and miR-145 showed a positive modulation only in SA or UA patients, respectively. ROC curve analyses showed a good diagnostic potential (AUC ≥ 0.85) for miR-1, -126, and -483-5p in SA and for miR-1, -126, and -133a in UA patients vs. controls, respectively. No discriminating AUC values were observed comparing SA vs. UA patients. Hierarchical cluster analysis showed that the combination of miR-1, -133a, and -126 in UA and of miR-1, -126, and -485-3p in SA correctly classified patients vs. controls with an efficiency ≥ 87%. No combination of miRNAs was able to reliably discriminate patients with UA from patients with SA. Conclusions: This work showed that specific plasmatic miRNA signatures have the potential to accurately discriminate patients with angiographically documented CAD from matched controls. We failed to identify a plasmatic miRNA expression pattern capable to differentiate SA from UA patients.",

author = "Yuri D'Alessandra and Carena, {Maria Cristina} and Liana Spazzafumo and Federico Martinelli and Beatrice Bassetti and Paolo Devanna and Mara Rubino and Giancarlo Marenzi and Colombo, {Gualtiero I.} and Felice Achilli and Stefano Maggiolini and Capogrossi, {Maurizio C.} and Giulio Pompilio",

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T1 - Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina

AU - D'Alessandra, Yuri

AU - Carena, Maria Cristina

AU - Spazzafumo, Liana

AU - Martinelli, Federico

AU - Bassetti, Beatrice

AU - Devanna, Paolo

AU - Rubino, Mara

AU - Marenzi, Giancarlo

AU - Colombo, Gualtiero I.

AU - Achilli, Felice

AU - Maggiolini, Stefano

AU - Capogrossi, Maurizio C.

AU - Pompilio, Giulio

PY - 2013/11/15

Y1 - 2013/11/15

N2 - Purpose: We examined circulating miRNA expression profiles in plasma of patients with coronary artery disease (CAD) vs. matched controls, with the aim of identifying novel discriminating biomarkers of Stable (SA) and Unstable (UA) angina. Methods: An exploratory analysis of plasmatic expression profile of 367 miRNAs was conducted in a group of SA and UA patients and control donors, using TaqMan microRNA Arrays. Screening confirmation and expression analysis were performed by qRT-PCR: all miRNAs found dysregulated were examined in the plasma of troponinnegative UA (n=19) and SA (n=34) patients and control subjects (n=20), matched for sex, age, and cardiovascular risk factors. In addition, the expression of 14 known CAD-associated miRNAs was also investigated. Results: Out of 178 miRNAs consistently detected in plasma samples, 3 showed positive modulation by CAD when compared to controls: miR-337-5p, miR-433, and miR-485-3p. Further, miR-1, -122, -126, -133a, -133b, and miR-199a were positively modulated in both UA and SA patients, while miR-337-5p and miR-145 showed a positive modulation only in SA or UA patients, respectively. ROC curve analyses showed a good diagnostic potential (AUC ≥ 0.85) for miR-1, -126, and -483-5p in SA and for miR-1, -126, and -133a in UA patients vs. controls, respectively. No discriminating AUC values were observed comparing SA vs. UA patients. Hierarchical cluster analysis showed that the combination of miR-1, -133a, and -126 in UA and of miR-1, -126, and -485-3p in SA correctly classified patients vs. controls with an efficiency ≥ 87%. No combination of miRNAs was able to reliably discriminate patients with UA from patients with SA. Conclusions: This work showed that specific plasmatic miRNA signatures have the potential to accurately discriminate patients with angiographically documented CAD from matched controls. We failed to identify a plasmatic miRNA expression pattern capable to differentiate SA from UA patients.

AB - Purpose: We examined circulating miRNA expression profiles in plasma of patients with coronary artery disease (CAD) vs. matched controls, with the aim of identifying novel discriminating biomarkers of Stable (SA) and Unstable (UA) angina. Methods: An exploratory analysis of plasmatic expression profile of 367 miRNAs was conducted in a group of SA and UA patients and control donors, using TaqMan microRNA Arrays. Screening confirmation and expression analysis were performed by qRT-PCR: all miRNAs found dysregulated were examined in the plasma of troponinnegative UA (n=19) and SA (n=34) patients and control subjects (n=20), matched for sex, age, and cardiovascular risk factors. In addition, the expression of 14 known CAD-associated miRNAs was also investigated. Results: Out of 178 miRNAs consistently detected in plasma samples, 3 showed positive modulation by CAD when compared to controls: miR-337-5p, miR-433, and miR-485-3p. Further, miR-1, -122, -126, -133a, -133b, and miR-199a were positively modulated in both UA and SA patients, while miR-337-5p and miR-145 showed a positive modulation only in SA or UA patients, respectively. ROC curve analyses showed a good diagnostic potential (AUC ≥ 0.85) for miR-1, -126, and -483-5p in SA and for miR-1, -126, and -133a in UA patients vs. controls, respectively. No discriminating AUC values were observed comparing SA vs. UA patients. Hierarchical cluster analysis showed that the combination of miR-1, -133a, and -126 in UA and of miR-1, -126, and -485-3p in SA correctly classified patients vs. controls with an efficiency ≥ 87%. No combination of miRNAs was able to reliably discriminate patients with UA from patients with SA. Conclusions: This work showed that specific plasmatic miRNA signatures have the potential to accurately discriminate patients with angiographically documented CAD from matched controls. We failed to identify a plasmatic miRNA expression pattern capable to differentiate SA from UA patients.

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Diagnostic potential of plasmatic microRNA signatures in stable and unstable angina

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