Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency

Severe combined immunodeficiency (SCID) and other T cell lymphopenias can be detected during newborn screening (NBS) by measuring T cell receptor excision circles (TRECs) in dried blood spot (DBS) DNA. Second tier next generation sequencing (NGS) with an amplicon based targeted gene panel using the...

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Autores principales: Strand, Janne, Gul, Kiran Aftab, Erichsen, Hans Christian, Lundman, Emma, Berge, Mona C., Trømborg, Anette K., Sørgjerd, Linda K., Ytre-Arne, Mari, Hogner, Silje, Halsne, Ruth, Gaup, Hege Junita, Osnes, Liv T., Kro, Grete A. B., Sorte, Hanne S., Mørkrid, Lars, Rowe, Alexander D., Tangeraas, Trine, Jørgensen, Jens V., Alme, Charlotte, Bjørndalen, Trude E. H., Rønnestad, Arild E., Lang, Astri M., Rootwelt, Terje, Buechner, Jochen, Øverland, Torstein, Abrahamsen, Tore G., Pettersen, Rolf D., Stray-Pedersen, Asbjørg
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2020
Materias:
Immunology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7381310/
https://www.ncbi.nlm.nih.gov/pubmed/32754152
http://dx.doi.org/10.3389/fimmu.2020.01417
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author Strand, Janne
Gul, Kiran Aftab
Erichsen, Hans Christian
Lundman, Emma
Berge, Mona C.
Trømborg, Anette K.
Sørgjerd, Linda K.
Ytre-Arne, Mari
Hogner, Silje
Halsne, Ruth
Gaup, Hege Junita
Osnes, Liv T.
Kro, Grete A. B.
Sorte, Hanne S.
Mørkrid, Lars
Rowe, Alexander D.
Tangeraas, Trine
Jørgensen, Jens V.
Alme, Charlotte
Bjørndalen, Trude E. H.
Rønnestad, Arild E.
Lang, Astri M.
Rootwelt, Terje
Buechner, Jochen
Øverland, Torstein
Abrahamsen, Tore G.
Pettersen, Rolf D.
Stray-Pedersen, Asbjørg
author_facet Strand, Janne
Gul, Kiran Aftab
Erichsen, Hans Christian
Lundman, Emma
Berge, Mona C.
Trømborg, Anette K.
Sørgjerd, Linda K.
Ytre-Arne, Mari
Hogner, Silje
Halsne, Ruth
Gaup, Hege Junita
Osnes, Liv T.
Kro, Grete A. B.
Sorte, Hanne S.
Mørkrid, Lars
Rowe, Alexander D.
Tangeraas, Trine
Jørgensen, Jens V.
Alme, Charlotte
Bjørndalen, Trude E. H.
Rønnestad, Arild E.
Lang, Astri M.
Rootwelt, Terje
Buechner, Jochen
Øverland, Torstein
Abrahamsen, Tore G.
Pettersen, Rolf D.
Stray-Pedersen, Asbjørg
author_sort Strand, Janne
collection PubMed
description Severe combined immunodeficiency (SCID) and other T cell lymphopenias can be detected during newborn screening (NBS) by measuring T cell receptor excision circles (TRECs) in dried blood spot (DBS) DNA. Second tier next generation sequencing (NGS) with an amplicon based targeted gene panel using the same DBS DNA was introduced as part of our prospective pilot research project in 2015. With written parental consent, 21 000 newborns were TREC-tested in the pilot. Three newborns were identified with SCID, and disease-causing variants in IL2RG, RAG2, and RMRP were confirmed by NGS on the initial DBS DNA. The molecular findings directed follow-up and therapy: the IL2RG-SCID underwent early hematopoietic stem cell transplantation (HSCT) without any complications; the leaky RAG2-SCID received prophylactic antibiotics, antifungals, and immunoglobulin infusions, and underwent HSCT at 1 year of age. The child with RMRP-SCID had complete Hirschsprung disease and died at 1 month of age. Since January 2018, all newborns in Norway have been offered NBS for SCID using 1st tier TRECs and 2nd tier gene panel NGS on DBS DNA. During the first 20 months of nationwide SCID screening an additional 88 000 newborns were TREC tested, and four new SCID cases were identified. Disease-causing variants in DCLRE1C, JAK3, NBN, and IL2RG were molecularly confirmed on day 8, 15, 8 and 6, respectively after birth, using the initial NBS blood spot. Targeted gene panel NGS integrated into the NBS algorithm rapidly delineated the specific molecular diagnoses and provided information useful for management, targeted therapy and follow-up i.e., X rays and CT scans were avoided in the radiosensitive SCID. Second tier targeted NGS on the same DBS DNA as the TREC test provided instant confirmation or exclusion of SCID, and made it possible to use a less stringent TREC cut-off value. This allowed for the detection of leaky SCIDs, and simultaneously reduced the number of control samples, recalls and false positives. Mothers were instructed to stop breastfeeding until maternal cytomegalovirus (CMV) status was determined. Our limited data suggest that shorter time-interval from birth to intervention, may prevent breast milk transmitted CMV infection in classical SCID.
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spelling pubmed-73813102020-08-03 Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency Strand, Janne Gul, Kiran Aftab Erichsen, Hans Christian Lundman, Emma Berge, Mona C. Trømborg, Anette K. Sørgjerd, Linda K. Ytre-Arne, Mari Hogner, Silje Halsne, Ruth Gaup, Hege Junita Osnes, Liv T. Kro, Grete A. B. Sorte, Hanne S. Mørkrid, Lars Rowe, Alexander D. Tangeraas, Trine Jørgensen, Jens V. Alme, Charlotte Bjørndalen, Trude E. H. Rønnestad, Arild E. Lang, Astri M. Rootwelt, Terje Buechner, Jochen Øverland, Torstein Abrahamsen, Tore G. Pettersen, Rolf D. Stray-Pedersen, Asbjørg Front Immunol Immunology Severe combined immunodeficiency (SCID) and other T cell lymphopenias can be detected during newborn screening (NBS) by measuring T cell receptor excision circles (TRECs) in dried blood spot (DBS) DNA. Second tier next generation sequencing (NGS) with an amplicon based targeted gene panel using the same DBS DNA was introduced as part of our prospective pilot research project in 2015. With written parental consent, 21 000 newborns were TREC-tested in the pilot. Three newborns were identified with SCID, and disease-causing variants in IL2RG, RAG2, and RMRP were confirmed by NGS on the initial DBS DNA. The molecular findings directed follow-up and therapy: the IL2RG-SCID underwent early hematopoietic stem cell transplantation (HSCT) without any complications; the leaky RAG2-SCID received prophylactic antibiotics, antifungals, and immunoglobulin infusions, and underwent HSCT at 1 year of age. The child with RMRP-SCID had complete Hirschsprung disease and died at 1 month of age. Since January 2018, all newborns in Norway have been offered NBS for SCID using 1st tier TRECs and 2nd tier gene panel NGS on DBS DNA. During the first 20 months of nationwide SCID screening an additional 88 000 newborns were TREC tested, and four new SCID cases were identified. Disease-causing variants in DCLRE1C, JAK3, NBN, and IL2RG were molecularly confirmed on day 8, 15, 8 and 6, respectively after birth, using the initial NBS blood spot. Targeted gene panel NGS integrated into the NBS algorithm rapidly delineated the specific molecular diagnoses and provided information useful for management, targeted therapy and follow-up i.e., X rays and CT scans were avoided in the radiosensitive SCID. Second tier targeted NGS on the same DBS DNA as the TREC test provided instant confirmation or exclusion of SCID, and made it possible to use a less stringent TREC cut-off value. This allowed for the detection of leaky SCIDs, and simultaneously reduced the number of control samples, recalls and false positives. Mothers were instructed to stop breastfeeding until maternal cytomegalovirus (CMV) status was determined. Our limited data suggest that shorter time-interval from birth to intervention, may prevent breast milk transmitted CMV infection in classical SCID. Frontiers Media S.A. 2020-07-09 /pmc/articles/PMC7381310/ /pubmed/32754152 http://dx.doi.org/10.3389/fimmu.2020.01417 Text en Copyright © 2020 Strand, Gul, Erichsen, Lundman, Berge, Trømborg, Sørgjerd, Ytre-Arne, Hogner, Halsne, Gaup, Osnes, Kro, Sorte, Mørkrid, Rowe, Tangeraas, Jørgensen, Alme, Bjørndalen, Rønnestad, Lang, Rootwelt, Buechner, Øverland, Abrahamsen, Pettersen and Stray-Pedersen. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Immunology
Strand, Janne
Gul, Kiran Aftab
Erichsen, Hans Christian
Lundman, Emma
Berge, Mona C.
Trømborg, Anette K.
Sørgjerd, Linda K.
Ytre-Arne, Mari
Hogner, Silje
Halsne, Ruth
Gaup, Hege Junita
Osnes, Liv T.
Kro, Grete A. B.
Sorte, Hanne S.
Mørkrid, Lars
Rowe, Alexander D.
Tangeraas, Trine
Jørgensen, Jens V.
Alme, Charlotte
Bjørndalen, Trude E. H.
Rønnestad, Arild E.
Lang, Astri M.
Rootwelt, Terje
Buechner, Jochen
Øverland, Torstein
Abrahamsen, Tore G.
Pettersen, Rolf D.
Stray-Pedersen, Asbjørg
Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency
title Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency
title_full Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency
title_fullStr Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency
title_full_unstemmed Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency
title_short Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency
title_sort second-tier next generation sequencing integrated in nationwide newborn screening provides rapid molecular diagnostics of severe combined immunodeficiency
topic Immunology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7381310/
https://www.ncbi.nlm.nih.gov/pubmed/32754152
http://dx.doi.org/10.3389/fimmu.2020.01417
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