Beyond gene-disease validity: capturing structured data on inheritance, allelic requirement, disease-relevant variant classes, and disease mechanism for inherited cardiac conditions

  1. Katherine S. Josephs
  2. Angharad M. Roberts
  3. Pantazis Theotokis
  4. Roddy Walsh
  5. Philip J. Ostrowski
  6. Matthew Edwards
  7. Andrew Fleming
  8. Courtney Thaxton
  9. Jason D. Roberts
  10. Melanie Care
  11. Wojciech Zareba
  12. Arnon Adler
  13. Amy C. Sturm
  14. Rafik Tadros
  15. Valeria Novelli
  16. Emma Owens
  17. Lucas Bronicki
  18. Olga Jarinova
  19. Bert Callewaert
  20. Stacey Peters
  21. Tom Lumbers
  22. Elizabeth Jordan
  23. Babken Asatryan
  24. Neesha Krishnan
  25. Ray E. Hershberger
  26. C. Anwar A. Chahal
  27. Andrew P. Landstrom
  28. Cynthia James
  29. Elizabeth M. McNally
  30. Daniel P. Judge
  31. Peter van Tintelen
  32. Arthur Wilde
  33. Michael Gollob
  34. Jodie Ingles
  35. James S. Ware
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Abstract

Background

As the availability of genomic testing grows, variant interpretation will increasingly be performed by genomic generalists, rather than domain-specific experts. Demand is rising for laboratories to accurately classify variants in inherited cardiac condition (ICC) genes, including secondary findings.

Methods

We analyse evidence for inheritance patterns, allelic requirement, disease mechanism and disease-relevant variant classes for 65 ClinGen-curated ICC gene-disease pairs. We present this information for the first time in a structured dataset, CardiacG2P, and assess application in genomic variant filtering.

Results

For 36/65 gene-disease pairs, loss of function is not an established disease mechanism, and protein truncating variants are not known to be pathogenic. Using the CardiacG2P dataset as an initial variant filter allows for efficient variant prioritisation whilst maintaining a high sensitivity for retaining pathogenic variants compared with two other variant filtering approaches.

Conclusions

Access to evidence-based structured data representing disease mechanism and allelic requirement aids variant filtering and analysis and is a pre-requisite for scalable genomic testing.

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  1. Version published to 10.1186/s13073-023-01246-8
  2. Version published to 10.1101/2023.04.03.23287612 on medRxiv