Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies

Cristina Cifaldi; Immacolata Brigida; Federica Barzaghi; Matteo Zoccolillo; Valentina Ferradini; Davide Petricone; Maria Pia Cicalese; Dejan Lazarevic; Davide Cittaro; Maryam Omrani; Enrico Attardi; Francesca Conti; Alessia Scarselli; Maria Chiriaco; Silvia Di Cesare; Francesco Licciardi; Montin Davide; Francesca Ferrua; Clementina Canessa; Claudio Pignata; Silvia Giliani; Simona Ferrari; Georgia Fousteri; Graziano Barera; Pietro Merli; Paolo Palma; Simone Cesaro; Marco Gattorno; Antonio Trizzino; Viviana Moschese; Loredana Chini; Anna Villa; Chiara Azzari; Andrea Finocchi; Franco Locatelli; Paolo Rossi; Federica Sangiuolo; Alessandro Aiuti; Caterina Cancrini; Gigliola Di Matteo

doi:10.3389/fimmu.2019.00316

Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies

Cristina Cifaldi, Immacolata Brigida, Federica Barzaghi, Matteo Zoccolillo, Valentina Ferradini, Davide Petricone, Maria Pia Cicalese, Dejan Lazarevic, Davide Cittaro, Maryam Omrani, Enrico Attardi, Francesca Conti, Alessia Scarselli, Maria Chiriaco, Silvia Di Cesare, Francesco Licciardi, Montin Davide, Francesca Ferrua, Clementina Canessa, Claudio PignataSilvia Giliani, Simona Ferrari, Georgia Fousteri, Graziano Barera, Pietro Merli, Paolo Palma, Simone Cesaro, Marco Gattorno, Antonio Trizzino, Viviana Moschese, Loredana Chini, Anna Villa, Chiara Azzari, Andrea Finocchi, Franco Locatelli, Paolo Rossi, Federica Sangiuolo, Alessandro Aiuti, Caterina Cancrini, Gigliola Di Matteo

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Background: Primary Immunodeficiencies (PIDs) are a heterogeneous group of genetic immune disorders. While some PIDs can manifest with more than one phenotype, signs, and symptoms of various PIDs overlap considerably. Recently, novel defects in immune-related genes and additional variants in previously reported genes responsible for PIDs have been successfully identified by Next Generation Sequencing (NGS), allowing the recognition of a broad spectrum of disorders. Objective: To evaluate the strength and weakness of targeted NGS sequencing using custom-made Ion Torrent and Haloplex (Agilent) panels for diagnostics and research purposes. Methods: Five different panels including known and candidate genes were used to screen 105 patients with distinct PID features divided in three main PID categories: T cell defects, Humoral defects and Other PIDs. The Ion Torrent sequencing platform was used in 73 patients. Among these, 18 selected patients without a molecular diagnosis and 32 additional patients were analyzed by Haloplex enrichment technology. Results: The complementary use of the two custom-made targeted sequencing approaches allowed the identification of causative variants in 28.6% (n = 30) of patients. Twenty-two out of 73 (34.6%) patients were diagnosed by Ion Torrent. In this group 20 were included in the SCID/CID category. Eight out of 50 (16%) patients were diagnosed by Haloplex workflow. Ion Torrent method was highly successful for those cases with well-defined phenotypes for immunological and clinical presentation. The Haloplex approach was able to diagnose 4 SCID/CID patients and 4 additional patients with complex and extended phenotypes, embracing all three PID categories in which this approach was more efficient. Both technologies showed good gene coverage. Conclusions: NGS technology represents a powerful approach in the complex field of rare disorders but its different application should be weighted. A relatively small NGS target panel can be successfully applied for a robust diagnostic suspicion, while when the spectrum of clinical phenotypes overlaps more than one PID an in-depth NGS analysis is required, including also whole exome/genome sequencing to identify the causative gene.

Lingua originale	English
pagine (da-a)	1-19
Numero di pagine	19
Rivista	Frontiers in Immunology
Volume	10
DOI	https://doi.org/10.3389/fimmu.2019.00316
Stato di pubblicazione	Pubblicato - 2019

Keywords

Gene panels
Haloplex
Primary immunodeficiencies
Next Generation Sequencing
Ion Torrent

Accesso al documento

10.3389/fimmu.2019.00316

Altri file e collegamenti

Link a IRIS PubliCatt

Cita questo

Cifaldi, C., Brigida, I., Barzaghi, F., Zoccolillo, M., Ferradini, V., Petricone, D., Cicalese, M. P., Lazarevic, D., Cittaro, D., Omrani, M., Attardi, E., Conti, F., Scarselli, A., Chiriaco, M., Di Cesare, S., Licciardi, F., Davide, M., Ferrua, F., Canessa, C., ... Di Matteo, G. (2019). Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies. Frontiers in Immunology, 10, 1-19. https://doi.org/10.3389/fimmu.2019.00316

@article{77098caaa2f74658a795aba40476d797,

title = "Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies",

abstract = "Background: Primary Immunodeficiencies (PIDs) are a heterogeneous group of genetic immune disorders. While some PIDs can manifest with more than one phenotype, signs, and symptoms of various PIDs overlap considerably. Recently, novel defects in immune-related genes and additional variants in previously reported genes responsible for PIDs have been successfully identified by Next Generation Sequencing (NGS), allowing the recognition of a broad spectrum of disorders. Objective: To evaluate the strength and weakness of targeted NGS sequencing using custom-made Ion Torrent and Haloplex (Agilent) panels for diagnostics and research purposes. Methods: Five different panels including known and candidate genes were used to screen 105 patients with distinct PID features divided in three main PID categories: T cell defects, Humoral defects and Other PIDs. The Ion Torrent sequencing platform was used in 73 patients. Among these, 18 selected patients without a molecular diagnosis and 32 additional patients were analyzed by Haloplex enrichment technology. Results: The complementary use of the two custom-made targeted sequencing approaches allowed the identification of causative variants in 28.6% (n = 30) of patients. Twenty-two out of 73 (34.6%) patients were diagnosed by Ion Torrent. In this group 20 were included in the SCID/CID category. Eight out of 50 (16%) patients were diagnosed by Haloplex workflow. Ion Torrent method was highly successful for those cases with well-defined phenotypes for immunological and clinical presentation. The Haloplex approach was able to diagnose 4 SCID/CID patients and 4 additional patients with complex and extended phenotypes, embracing all three PID categories in which this approach was more efficient. Both technologies showed good gene coverage. Conclusions: NGS technology represents a powerful approach in the complex field of rare disorders but its different application should be weighted. A relatively small NGS target panel can be successfully applied for a robust diagnostic suspicion, while when the spectrum of clinical phenotypes overlaps more than one PID an in-depth NGS analysis is required, including also whole exome/genome sequencing to identify the causative gene.",

keywords = "Gene panels, Haloplex, Primary immunodeficiencies, Next Generation Sequencing, Ion Torrent, Gene panels, Haloplex, Primary immunodeficiencies, Next Generation Sequencing, Ion Torrent",

author = "Cristina Cifaldi and Immacolata Brigida and Federica Barzaghi and Matteo Zoccolillo and Valentina Ferradini and Davide Petricone and Cicalese, {Maria Pia} and Dejan Lazarevic and Davide Cittaro and Maryam Omrani and Enrico Attardi and Francesca Conti and Alessia Scarselli and Maria Chiriaco and {Di Cesare}, Silvia and Francesco Licciardi and Montin Davide and Francesca Ferrua and Clementina Canessa and Claudio Pignata and Silvia Giliani and Simona Ferrari and Georgia Fousteri and Graziano Barera and Pietro Merli and Paolo Palma and Simone Cesaro and Marco Gattorno and Antonio Trizzino and Viviana Moschese and Loredana Chini and Anna Villa and Chiara Azzari and Andrea Finocchi and Franco Locatelli and Paolo Rossi and Federica Sangiuolo and Alessandro Aiuti and Caterina Cancrini and {Di Matteo}, Gigliola",

year = "2019",

doi = "10.3389/fimmu.2019.00316",

language = "English",

volume = "10",

pages = "1--19",

journal = "Frontiers in Immunology",

issn = "1664-3224",

publisher = "Frontiers Media SA",

}

Cifaldi, C, Brigida, I, Barzaghi, F, Zoccolillo, M, Ferradini, V, Petricone, D, Cicalese, MP, Lazarevic, D, Cittaro, D, Omrani, M, Attardi, E, Conti, F, Scarselli, A, Chiriaco, M, Di Cesare, S, Licciardi, F, Davide, M, Ferrua, F, Canessa, C, Pignata, C, Giliani, S, Ferrari, S, Fousteri, G, Barera, G, Merli, P, Palma, P, Cesaro, S, Gattorno, M, Trizzino, A, Moschese, V, Chini, L, Villa, A, Azzari, C, Finocchi, A, Locatelli, F, Rossi, P, Sangiuolo, F, Aiuti, A, Cancrini, C & Di Matteo, G 2019, 'Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies', Frontiers in Immunology, vol. 10, pagg. 1-19. https://doi.org/10.3389/fimmu.2019.00316

TY - JOUR

T1 - Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies

AU - Cifaldi, Cristina

AU - Brigida, Immacolata

AU - Barzaghi, Federica

AU - Zoccolillo, Matteo

AU - Ferradini, Valentina

AU - Petricone, Davide

AU - Cicalese, Maria Pia

AU - Lazarevic, Dejan

AU - Cittaro, Davide

AU - Omrani, Maryam

AU - Attardi, Enrico

AU - Conti, Francesca

AU - Scarselli, Alessia

AU - Chiriaco, Maria

AU - Di Cesare, Silvia

AU - Licciardi, Francesco

AU - Davide, Montin

AU - Ferrua, Francesca

AU - Canessa, Clementina

AU - Pignata, Claudio

AU - Giliani, Silvia

AU - Ferrari, Simona

AU - Fousteri, Georgia

AU - Barera, Graziano

AU - Merli, Pietro

AU - Palma, Paolo

AU - Cesaro, Simone

AU - Gattorno, Marco

AU - Trizzino, Antonio

AU - Moschese, Viviana

AU - Chini, Loredana

AU - Villa, Anna

AU - Azzari, Chiara

AU - Finocchi, Andrea

AU - Locatelli, Franco

AU - Rossi, Paolo

AU - Sangiuolo, Federica

AU - Aiuti, Alessandro

AU - Cancrini, Caterina

AU - Di Matteo, Gigliola

PY - 2019

Y1 - 2019

N2 - Background: Primary Immunodeficiencies (PIDs) are a heterogeneous group of genetic immune disorders. While some PIDs can manifest with more than one phenotype, signs, and symptoms of various PIDs overlap considerably. Recently, novel defects in immune-related genes and additional variants in previously reported genes responsible for PIDs have been successfully identified by Next Generation Sequencing (NGS), allowing the recognition of a broad spectrum of disorders. Objective: To evaluate the strength and weakness of targeted NGS sequencing using custom-made Ion Torrent and Haloplex (Agilent) panels for diagnostics and research purposes. Methods: Five different panels including known and candidate genes were used to screen 105 patients with distinct PID features divided in three main PID categories: T cell defects, Humoral defects and Other PIDs. The Ion Torrent sequencing platform was used in 73 patients. Among these, 18 selected patients without a molecular diagnosis and 32 additional patients were analyzed by Haloplex enrichment technology. Results: The complementary use of the two custom-made targeted sequencing approaches allowed the identification of causative variants in 28.6% (n = 30) of patients. Twenty-two out of 73 (34.6%) patients were diagnosed by Ion Torrent. In this group 20 were included in the SCID/CID category. Eight out of 50 (16%) patients were diagnosed by Haloplex workflow. Ion Torrent method was highly successful for those cases with well-defined phenotypes for immunological and clinical presentation. The Haloplex approach was able to diagnose 4 SCID/CID patients and 4 additional patients with complex and extended phenotypes, embracing all three PID categories in which this approach was more efficient. Both technologies showed good gene coverage. Conclusions: NGS technology represents a powerful approach in the complex field of rare disorders but its different application should be weighted. A relatively small NGS target panel can be successfully applied for a robust diagnostic suspicion, while when the spectrum of clinical phenotypes overlaps more than one PID an in-depth NGS analysis is required, including also whole exome/genome sequencing to identify the causative gene.

AB - Background: Primary Immunodeficiencies (PIDs) are a heterogeneous group of genetic immune disorders. While some PIDs can manifest with more than one phenotype, signs, and symptoms of various PIDs overlap considerably. Recently, novel defects in immune-related genes and additional variants in previously reported genes responsible for PIDs have been successfully identified by Next Generation Sequencing (NGS), allowing the recognition of a broad spectrum of disorders. Objective: To evaluate the strength and weakness of targeted NGS sequencing using custom-made Ion Torrent and Haloplex (Agilent) panels for diagnostics and research purposes. Methods: Five different panels including known and candidate genes were used to screen 105 patients with distinct PID features divided in three main PID categories: T cell defects, Humoral defects and Other PIDs. The Ion Torrent sequencing platform was used in 73 patients. Among these, 18 selected patients without a molecular diagnosis and 32 additional patients were analyzed by Haloplex enrichment technology. Results: The complementary use of the two custom-made targeted sequencing approaches allowed the identification of causative variants in 28.6% (n = 30) of patients. Twenty-two out of 73 (34.6%) patients were diagnosed by Ion Torrent. In this group 20 were included in the SCID/CID category. Eight out of 50 (16%) patients were diagnosed by Haloplex workflow. Ion Torrent method was highly successful for those cases with well-defined phenotypes for immunological and clinical presentation. The Haloplex approach was able to diagnose 4 SCID/CID patients and 4 additional patients with complex and extended phenotypes, embracing all three PID categories in which this approach was more efficient. Both technologies showed good gene coverage. Conclusions: NGS technology represents a powerful approach in the complex field of rare disorders but its different application should be weighted. A relatively small NGS target panel can be successfully applied for a robust diagnostic suspicion, while when the spectrum of clinical phenotypes overlaps more than one PID an in-depth NGS analysis is required, including also whole exome/genome sequencing to identify the causative gene.

KW - Gene panels

KW - Haloplex

KW - Primary immunodeficiencies

KW - Next Generation Sequencing

KW - Ion Torrent

KW - Gene panels

KW - Haloplex

KW - Primary immunodeficiencies

KW - Next Generation Sequencing

KW - Ion Torrent

UR - http://hdl.handle.net/10807/230014

U2 - 10.3389/fimmu.2019.00316

DO - 10.3389/fimmu.2019.00316

M3 - Article

SN - 1664-3224

VL - 10

SP - 1

EP - 19

JO - Frontiers in Immunology

JF - Frontiers in Immunology

ER -

Targeted NGS platforms for genetic screening and gene discovery in primary immunodeficiencies

Abstract

Keywords

Accesso al documento

Altri file e collegamenti

Fingerprint

Cita questo