Genomic diagnostics in polycystic kidney disease: an assessment of real-world use of whole-genome sequencing

Amali C. Mallawaarachchi; Ben Lundie; Yvonne Hort; Nicole Schonrock; Sarah R. Senum; Velimir Gayevskiy; Andre E. Minoche; Georgina Hollway; Thomas Ohnesorg; Marcus Hinchcliffe; Chirag Patel; Michel Tchan; Andrew Mallett; Marcel E. Dinger; Gopala Rangan; Mark J. Cowley; Peter C. Harris; Leslie Burnett; John Shine; Timothy J. Furlong

doi:10.1038/s41431-020-00796-4

Genomic diagnostics in polycystic kidney disease: an assessment of real-world use of whole-genome sequencing

Amali C. Mallawaarachchi, Ben Lundie, Yvonne Hort, Nicole Schonrock, Sarah R. Senum, Velimir Gayevskiy, Andre E. Minoche, Georgina Hollway, Thomas Ohnesorg, Marcus Hinchcliffe, Chirag Patel, Michel Tchan, Andrew Mallett, Marcel E. Dinger, Gopala Rangan, Mark J. Cowley, Peter C. Harris, Leslie Burnett, John Shine, Timothy J. Furlong

Nephrology and Hypertension

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

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Abstract

Autosomal Dominant Polycystic Kidney Disease (ADPKD) is common, with a prevalence of 1/1000 and predominantly caused by disease-causing variants in PKD1 or PKD2. Clinical diagnosis is usually by age-dependent imaging criteria, which is challenging in patients with atypical clinical features, without family history, or younger age. However, there is increasing need for definitive diagnosis of ADPKD with new treatments available. Sequencing is complicated by six pseudogenes that share 97% homology to PKD1 and by recently identified phenocopy genes. Whole-genome sequencing can definitively diagnose ADPKD, but requires validation for clinical use. We initially performed a validation study, in which 42 ADPKD patients underwent sequencing of PKD1 and PKD2 by both whole-genome and Sanger sequencing, using a blinded, cross-over method. Whole-genome sequencing identified all PKD1 and PKD2 germline pathogenic variants in the validation study (sensitivity and specificity 100%). Two mosaic variants outside pipeline thresholds were not detected. We then examined the first 144 samples referred to a clinically-accredited diagnostic laboratory for clinical whole-genome sequencing, with targeted-analysis to a polycystic kidney disease gene-panel. In this unselected, diagnostic cohort (71 males :73 females), the diagnostic rate was 70%, including a diagnostic rate of 81% in patients with typical ADPKD (98% with PKD1/PKD2 variants) and 60% in those with atypical features (56% PKD1/PKD2; 44% PKHD1/HNF1B/GANAB/ DNAJB11/PRKCSH/TSC2). Most patients with atypical disease did not have clinical features that predicted likelihood of a genetic diagnosis. These results suggest clinicians should consider diagnostic genomics as part of their assessment in polycystic kidney disease, particularly in atypical disease.

Original language	English (US)
Pages (from-to)	760-770
Number of pages	11
Journal	European Journal of Human Genetics
Volume	29
Issue number	5
DOIs	https://doi.org/10.1038/s41431-020-00796-4
State	Published - May 2021

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1038/s41431-020-00796-4

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Mallawaarachchi, A. C., Lundie, B., Hort, Y., Schonrock, N., Senum, S. R., Gayevskiy, V., Minoche, A. E., Hollway, G., Ohnesorg, T., Hinchcliffe, M., Patel, C., Tchan, M., Mallett, A., Dinger, M. E., Rangan, G., Cowley, M. J., Harris, P. C., Burnett, L., Shine, J., & Furlong, T. J. (2021). Genomic diagnostics in polycystic kidney disease: an assessment of real-world use of whole-genome sequencing. European Journal of Human Genetics, 29(5), 760-770. https://doi.org/10.1038/s41431-020-00796-4

Mallawaarachchi, AC, Lundie, B, Hort, Y, Schonrock, N, Senum, SR, Gayevskiy, V, Minoche, AE, Hollway, G, Ohnesorg, T, Hinchcliffe, M, Patel, C, Tchan, M, Mallett, A, Dinger, ME, Rangan, G, Cowley, MJ, Harris, PC, Burnett, L, Shine, J & Furlong, TJ 2021, 'Genomic diagnostics in polycystic kidney disease: an assessment of real-world use of whole-genome sequencing', European Journal of Human Genetics, vol. 29, no. 5, pp. 760-770. https://doi.org/10.1038/s41431-020-00796-4

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title = "Genomic diagnostics in polycystic kidney disease: an assessment of real-world use of whole-genome sequencing",

abstract = "Autosomal Dominant Polycystic Kidney Disease (ADPKD) is common, with a prevalence of 1/1000 and predominantly caused by disease-causing variants in PKD1 or PKD2. Clinical diagnosis is usually by age-dependent imaging criteria, which is challenging in patients with atypical clinical features, without family history, or younger age. However, there is increasing need for definitive diagnosis of ADPKD with new treatments available. Sequencing is complicated by six pseudogenes that share 97% homology to PKD1 and by recently identified phenocopy genes. Whole-genome sequencing can definitively diagnose ADPKD, but requires validation for clinical use. We initially performed a validation study, in which 42 ADPKD patients underwent sequencing of PKD1 and PKD2 by both whole-genome and Sanger sequencing, using a blinded, cross-over method. Whole-genome sequencing identified all PKD1 and PKD2 germline pathogenic variants in the validation study (sensitivity and specificity 100%). Two mosaic variants outside pipeline thresholds were not detected. We then examined the first 144 samples referred to a clinically-accredited diagnostic laboratory for clinical whole-genome sequencing, with targeted-analysis to a polycystic kidney disease gene-panel. In this unselected, diagnostic cohort (71 males :73 females), the diagnostic rate was 70%, including a diagnostic rate of 81% in patients with typical ADPKD (98% with PKD1/PKD2 variants) and 60% in those with atypical features (56% PKD1/PKD2; 44% PKHD1/HNF1B/GANAB/ DNAJB11/PRKCSH/TSC2). Most patients with atypical disease did not have clinical features that predicted likelihood of a genetic diagnosis. These results suggest clinicians should consider diagnostic genomics as part of their assessment in polycystic kidney disease, particularly in atypical disease.",

author = "Mallawaarachchi, {Amali C.} and Ben Lundie and Yvonne Hort and Nicole Schonrock and Senum, {Sarah R.} and Velimir Gayevskiy and Minoche, {Andre E.} and Georgina Hollway and Thomas Ohnesorg and Marcus Hinchcliffe and Chirag Patel and Michel Tchan and Andrew Mallett and Dinger, {Marcel E.} and Gopala Rangan and Cowley, {Mark J.} and Harris, {Peter C.} and Leslie Burnett and John Shine and Furlong, {Timothy J.}",

note = "Funding Information: Acknowledgements This work was supported by the PKD Foundation of Australia, PKD Foundation USA and The Lewis Foundation. ACM was supported by the RACP Jacquot Foundation. The Mayo Translational PKD Center (DK090728) is thanked for Sanger sequencing and exchange of samples and Sravanthi Lavu is thanked for providing data on the validation cohort. Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to European Society of Human Genetics.",

year = "2021",

month = may,

doi = "10.1038/s41431-020-00796-4",

language = "English (US)",

volume = "29",

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journal = "European Journal of Human Genetics",

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T2 - an assessment of real-world use of whole-genome sequencing

AU - Mallawaarachchi, Amali C.

AU - Lundie, Ben

AU - Hort, Yvonne

AU - Schonrock, Nicole

AU - Senum, Sarah R.

AU - Gayevskiy, Velimir

AU - Minoche, Andre E.

AU - Hollway, Georgina

AU - Ohnesorg, Thomas

AU - Hinchcliffe, Marcus

AU - Patel, Chirag

AU - Tchan, Michel

AU - Mallett, Andrew

AU - Dinger, Marcel E.

AU - Rangan, Gopala

AU - Cowley, Mark J.

AU - Harris, Peter C.

AU - Burnett, Leslie

AU - Shine, John

AU - Furlong, Timothy J.

N1 - Funding Information: Acknowledgements This work was supported by the PKD Foundation of Australia, PKD Foundation USA and The Lewis Foundation. ACM was supported by the RACP Jacquot Foundation. The Mayo Translational PKD Center (DK090728) is thanked for Sanger sequencing and exchange of samples and Sravanthi Lavu is thanked for providing data on the validation cohort. Publisher Copyright: © 2021, The Author(s), under exclusive licence to European Society of Human Genetics.

PY - 2021/5

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N2 - Autosomal Dominant Polycystic Kidney Disease (ADPKD) is common, with a prevalence of 1/1000 and predominantly caused by disease-causing variants in PKD1 or PKD2. Clinical diagnosis is usually by age-dependent imaging criteria, which is challenging in patients with atypical clinical features, without family history, or younger age. However, there is increasing need for definitive diagnosis of ADPKD with new treatments available. Sequencing is complicated by six pseudogenes that share 97% homology to PKD1 and by recently identified phenocopy genes. Whole-genome sequencing can definitively diagnose ADPKD, but requires validation for clinical use. We initially performed a validation study, in which 42 ADPKD patients underwent sequencing of PKD1 and PKD2 by both whole-genome and Sanger sequencing, using a blinded, cross-over method. Whole-genome sequencing identified all PKD1 and PKD2 germline pathogenic variants in the validation study (sensitivity and specificity 100%). Two mosaic variants outside pipeline thresholds were not detected. We then examined the first 144 samples referred to a clinically-accredited diagnostic laboratory for clinical whole-genome sequencing, with targeted-analysis to a polycystic kidney disease gene-panel. In this unselected, diagnostic cohort (71 males :73 females), the diagnostic rate was 70%, including a diagnostic rate of 81% in patients with typical ADPKD (98% with PKD1/PKD2 variants) and 60% in those with atypical features (56% PKD1/PKD2; 44% PKHD1/HNF1B/GANAB/ DNAJB11/PRKCSH/TSC2). Most patients with atypical disease did not have clinical features that predicted likelihood of a genetic diagnosis. These results suggest clinicians should consider diagnostic genomics as part of their assessment in polycystic kidney disease, particularly in atypical disease.

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Genomic diagnostics in polycystic kidney disease: an assessment of real-world use of whole-genome sequencing

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