Targeted next-generation sequencing to diagnose disorders of HDL cholesterol

Singh N. Sadananda; Jia Nee Foo; Meng Tiak Toh; Lubomira Cermakova; Laia Trigueros-Motos; Teddy Chan; Herty Liany; Jennifer A. Collins; Sima Gerami; Roshni R. Singaraja; Michael R. Hayden; Gordon A. Francis; Jiri Frohlich; Chiea Chuen Khor; Liam R. Brunham

doi:10.1194/jlr.P058891

Targeted next-generation sequencing to diagnose disorders of HDL cholesterol

Singh N. Sadananda, Jia Nee Foo, Meng Tiak Toh, Lubomira Cermakova, Laia Trigueros-Motos, Teddy Chan, Herty Liany, Jennifer A. Collins, Sima Gerami, Roshni R. Singaraja, Michael R. Hayden, Gordon A. Francis, Jiri Frohlich, Chiea Chuen Khor, Liam R. Brunham^*

^*Corresponding author for this work

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

27 Citations (Scopus)

Abstract

A low level of HDL cholesterol (HDL-C) is a common clinical scenario and an important marker for increased cardiovascular risk. Many patients with very low or very high HDL-C have a rare mutation in one of several genes, but identifi cation of the molecular abnormality in patients with extreme HDL-C is rarely performed in clinical practice. We investigated the accuracy and diagnostic yield of a targeted next-generation sequencing (NGS) assay for extreme levels of HDL-C. We developed a targeted NGS panel to capture the exons, intron/exon boundaries, and untranslated regions of 26 genes with highly penetrant effects on plasma lipid levels. We sequenced 141 patients with extreme HDL-C levels and prioritized variants in accordance with medical genetics guidelines. We identified 35 pathogenic and probably pathogenic variants in HDL genes, including 21 novel variants, and performed functional validation on a subset of these. Overall, a molecular diagnosis was established in 35.9% of patients with low HDL-C and 5.2% with high HDL-C, and all prioritized variants identified by NGS were confirmed by Sanger sequencing. Our results suggest that a molecular diagnosis can be identified in a substantial proportion of patients with low HDL-C using targeted NGS.

Original language	English
Pages (from-to)	1993-2001
Number of pages	9
Journal	Journal of Lipid Research
Volume	56
Issue number	10
DOIs	https://doi.org/10.1194/jlr.P058891
Publication status	Published - Oct 1 2015
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © 2015 by the American Society for Biochemistry and Molecular Biology, Inc.

ASJC Scopus Subject Areas

Biochemistry
Endocrinology
Cell Biology

Keywords

Atherosclerosis
ATP binding cassette transporter A1
Diagnostic tools
Genetics
Genomics
High density lipoprotein
Molecular diagnosis

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10.1194/jlr.P058891

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Sadananda, S. N., Foo, J. N., Toh, M. T., Cermakova, L., Trigueros-Motos, L., Chan, T., Liany, H., Collins, J. A., Gerami, S., Singaraja, R. R., Hayden, M. R., Francis, G. A., Frohlich, J., Khor, C. C., & Brunham, L. R. (2015). Targeted next-generation sequencing to diagnose disorders of HDL cholesterol. Journal of Lipid Research, 56(10), 1993-2001. https://doi.org/10.1194/jlr.P058891

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abstract = "A low level of HDL cholesterol (HDL-C) is a common clinical scenario and an important marker for increased cardiovascular risk. Many patients with very low or very high HDL-C have a rare mutation in one of several genes, but identifi cation of the molecular abnormality in patients with extreme HDL-C is rarely performed in clinical practice. We investigated the accuracy and diagnostic yield of a targeted next-generation sequencing (NGS) assay for extreme levels of HDL-C. We developed a targeted NGS panel to capture the exons, intron/exon boundaries, and untranslated regions of 26 genes with highly penetrant effects on plasma lipid levels. We sequenced 141 patients with extreme HDL-C levels and prioritized variants in accordance with medical genetics guidelines. We identified 35 pathogenic and probably pathogenic variants in HDL genes, including 21 novel variants, and performed functional validation on a subset of these. Overall, a molecular diagnosis was established in 35.9% of patients with low HDL-C and 5.2% with high HDL-C, and all prioritized variants identified by NGS were confirmed by Sanger sequencing. Our results suggest that a molecular diagnosis can be identified in a substantial proportion of patients with low HDL-C using targeted NGS.",

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doi = "10.1194/jlr.P058891",

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AU - Sadananda, Singh N.

AU - Foo, Jia Nee

AU - Toh, Meng Tiak

AU - Cermakova, Lubomira

AU - Trigueros-Motos, Laia

AU - Chan, Teddy

AU - Liany, Herty

AU - Collins, Jennifer A.

AU - Gerami, Sima

AU - Singaraja, Roshni R.

AU - Hayden, Michael R.

AU - Francis, Gordon A.

AU - Frohlich, Jiri

AU - Khor, Chiea Chuen

AU - Brunham, Liam R.

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AB - A low level of HDL cholesterol (HDL-C) is a common clinical scenario and an important marker for increased cardiovascular risk. Many patients with very low or very high HDL-C have a rare mutation in one of several genes, but identifi cation of the molecular abnormality in patients with extreme HDL-C is rarely performed in clinical practice. We investigated the accuracy and diagnostic yield of a targeted next-generation sequencing (NGS) assay for extreme levels of HDL-C. We developed a targeted NGS panel to capture the exons, intron/exon boundaries, and untranslated regions of 26 genes with highly penetrant effects on plasma lipid levels. We sequenced 141 patients with extreme HDL-C levels and prioritized variants in accordance with medical genetics guidelines. We identified 35 pathogenic and probably pathogenic variants in HDL genes, including 21 novel variants, and performed functional validation on a subset of these. Overall, a molecular diagnosis was established in 35.9% of patients with low HDL-C and 5.2% with high HDL-C, and all prioritized variants identified by NGS were confirmed by Sanger sequencing. Our results suggest that a molecular diagnosis can be identified in a substantial proportion of patients with low HDL-C using targeted NGS.

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KW - Genomics

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Targeted next-generation sequencing to diagnose disorders of HDL cholesterol

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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