Panorama of Chromosomal Instability in Lung Cancer

  1. Yang Yang
  2. Xiaoming Zhong
  3. William Phillips
  4. Wei Zhao
  5. Phuc H. Hoang
  6. Christopher Wirth
  7. Soo-Ryum Yang
  8. Charles Leduc
  9. Marina K. Baine
  10. William D. Travis
  11. Lynette M. Sholl
  12. Philippe Joubert
  13. Robert Homer
  14. Jian Sang
  15. Azhar Khandekar
  16. John P. McElderry
  17. Thi-Van-Trinh Tran
  18. Caleb Hartman
  19. Mona Miraftab
  20. Monjoy Saha
  21. Olivia W. Lee
  22. Sunandini Sharma
  23. Kristine M. Jones
  24. Bin Zhu
  25. Marcos Díaz-Gay
  26. Eric S. Edell
  27. Jacobo Martínez Santamaría
  28. Matthew B. Schabath
  29. Sai S. Yendamuri
  30. Marta Manczuk
  31. Jolanta Lissowska
  32. Beata Świątkowska
  33. Anush Mukeria
  34. Oxana Shangina
  35. David Zaridze
  36. Ivana Holcatova
  37. Vladimir Janout
  38. Dana Mates
  39. Simona Ognjanovic
  40. Milan Savic
  41. Milica Kontic
  42. Yohan Bossé
  43. Bonnie E. Gould Rothberg
  44. David C. Christiani
  45. Valerie Gaborieau
  46. Paul Brennan
  47. Geoffrey Liu
  48. Paul Hofman
  49. Maria Pik Wong
  50. Kin Chung Leung
  51. Chih-Yi Chen
  52. Chao Agnes Hsiung
  53. Angela C. Pesatori
  54. Dario Consonni
  55. Nathaniel Rothman
  56. Qing Lan
  57. Martin A. Nowak
  58. David C. Wedge
  59. Ludmil B. Alexandrov
  60. Stephen J. Chanock
  61. Jianxin Shi
  62. Tongwu Zhang
  63. Lixing Yang
  64. Maria Teresa Landi
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Abstract

Lung cancer is a highly heterogeneous disease primarily driven by tobacco smoking. About 20% of lung cancers occur among patients who have never smoked (LCINS) with differences in patient ancestry, sex, tumor histology, and clinical features. Our understanding of chromosomal instability in lung cancer, especially LCINS, is still limited. Here, we perform a comprehensive study of 182,429 somatic structural variations (SVs) detected in 1,209 whole-genome sequenced lung cancers, of which 864 LCINS. SVs are more abundant in tumors from patients who have smoked (LCSS); however, they are more complex and play more important roles in tumorigenesis in LCINS. EGFR mutations and KRAS mutations profoundly and independently shape the SV landscape. EGFR -mutant tumors have higher SV burden and more cancer-driving SVs. In contrast, KRAS mutations are associated with lower SV burden and less driver SVs. We decompose 16 SV signatures for both complex and simple SVs that likely represent divergent molecular mechanisms. The SV breakpoints have distinct distributions across the genome depending on the signatures due to mutagenic mechanisms and positive selection. Many established cancer-driving genes are recurrently rearranged by multiple SV signatures suggesting functional convergence of these genome instability mechanisms.

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  1. Version published to 10.1101/2025.09.09.25335109 on medRxiv