Lamin A/C Deficiency Drives Genomic Instability and Poor Survival in Small-Cell Lung Cancer through Increased R-loop Accumulation

  1. Christopher W. Schultz
  2. Sourav Saha
  3. Anjali Dhall
  4. Yang Zhang
  5. Parth Desai
  6. Lorinc S. Pongor
  7. David A. Scheiblin
  8. Valentin Magidson
  9. Yilun Sun
  10. Christophe Redon
  11. Suresh Kumar
  12. Manan Krishnamurthy
  13. Henrique B. Dias
  14. Vasilisa Aksenova
  15. Elizabeth Giordano
  16. Nobuyuki Takahashi
  17. Michael Nirula
  18. Mohit Arora
  19. Chiori Tabe
  20. Maria Thomas
  21. Rajesh Kumar
  22. Yasuhiro Arakawa
  23. Ukhyun Jo
  24. Beverly A. Teicher
  25. Mirit I. Aladjem
  26. Stephen Lockett
  27. Mary Dasso
  28. Yves Pommier
  29. Ajit K. Sharma
  30. Anish Thomas
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Abstract

Lamin A/C ( LMNA ), a key component of the nuclear envelope, is essential for maintaining nuclear integrity and genome organization [1]. While LMNA dysregulation has been implicated in genomic instability across cancer and aging, the underlying mechanisms remain poorly understood [2]. Here, we investigate LMNA ’s role in small-cell lung cancer (SCLC), a highly aggressive malignancy characterized by extreme genomic instability [3, 4]. We demonstrate that LMNA depletion promotes R-loop accumulation, transcription-replication conflicts, replication stress, DNA breaks, and micronuclei formation. Mechanistically, LMNA loss disrupts nuclear pore complex distribution, reducing phenylalanine-glycine (FG)-nucleoporin incorporation and impairing RNA export efficiency. Furthermore, we show that LMNA expression is epigenetically repressed by EZH2 during SCLC differentiation from neuroendocrine (NE) to non-NE states. Clinically, low LMNA levels correlate with significantly worse survival in SCLC patients. These findings uncover a novel role for LMNA in safeguarding genome integrity and shaping tumor heterogeneity, with broad implications for cancer and aging.

Significance Statement

Lamin A/C, a key structural component of the nuclear envelope, is frequently lost or mutated in cancer, laminopathies, and aging-related disorders. Lamin A/C loss is associated with genomic instability, but the underlying mechanisms remain incompletely understood. We demonstrate that LMNA loss drives genomic instability by promoting R-loop accumulation through disrupted nuclear pore dynamics and impaired RNA export. These findings reveal a previously unrecognized link between LMNA loss, nuclear envelope dysfunction, and genome instability. Targeting this pathway could help mitigate genomic instability in aging and laminopathies, while leveraging R-loop accumulation may enhance the efficacy of DNA-damaging therapies in cancer.

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  1. Version published to 10.1101/2025.04.29.651052v1 on bioRxiv