Endothelial expression of ZBTB16 protects against cardiac aging

  1. Kathrin A. Stilz
  2. Vincent Elvin Leonard
  3. David Rodriguez Morales
  4. Simone-Franziska Glaser
  5. Veronica Larcher
  6. Mariano Ruz Jurado
  7. Pedro Felipe Malacarne
  8. Nivethitha Manickam
  9. Lukas S. Tombor
  10. Wesley Abplanalp
  11. Josefine Panthel
  12. Haris Kujundzic
  13. Ariane Fischer
  14. Katja Schmitz
  15. Oliver J. Müller
  16. Susanne Hille
  17. Christian Kupatt
  18. Tarik Bozoglu
  19. Haider Sami
  20. Manfred Ogris
  21. Tara Procida-Kowalski
  22. Marek Bartkuhn
  23. David John
  24. Michail Yekelchyk
  25. Tessa Schmachtel
  26. Michael Rieger
  27. Minh-Duc Pham
  28. Jaya Krishnan
  29. Stefan Günther
  30. Ralf P. Brandes
  31. Thomas Braun
  32. Andreas M. Zeiher
  33. Julian U. G. Wagner
  34. Stefanie Dimmeler
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Abstract

Background and aim

Aging significantly increases the risk of cardiovascular diseases, characterized by progressive cardiac dysfunction. The vascular niche is crucial for maintaining cardiac homeostasis, yet endothelial cell (EC) impairment during aging remains poorly understood. This study investigates epigenetically regulated mechanisms mediating EC-dependent cardiac aging and identifies a critical role of Zinc finger and BTB domain-containing protein 16 (ZBTB16).

Methods

Chromatin accessibility (snATAC-seq) and transcriptomic (snRNA-seq) analyses were performed on aged hearts to identify age-related regulatory changes. Functional studies using genetic models, assessed cardiac aging phenotypes. In vitro assays examined EC senescence and secretory profiles, while co-culture experiments analyzed the impact of ZBTB16-deficient EC supernatants on fibroblasts, cardiomyocytes, and neurons. Overexpression experiments in vitro and in vivo tested the potential for ZBTB16 to mitigate aging-associated dysfunction.

Results

Aged hearts exhibited decreased chromatin accessibility and expression of the transcription factor ZBTB16 in both human and mice. Loss of ZBTB16 in young mice, including Zbtb16 haploinsufficient and endothelial-specific knockout mice, led to premature aging, diastolic dysfunction, and increased secretion of pro-fibrotic and inflammatory factors. Supernatants from ZBTB16-deficient ECs activated fibroblasts, induced cardiomyocyte hypertrophy, and impaired neuronal sprouting. Overexpression of ZBTB16 reversed these effects in senescent ECs and aged mice and reduced diastolic dysfunction. Mechanistic studies identified key downstream targets of ZBTB16, including nuclear receptor-interacting protein 1 (NRIP1). ZBTB16 suppressed NRIP1 expression, limiting fibroblast activation and pro-fibrotic signaling.

Conclusions

ZBTB16 is a key regulator of endothelial function, maintaining vascular niche homeostasis and mitigating aging-associated cardiac dysfunction. Its loss promotes EC senescence and pro-fibrotic signaling, contributing to diastolic dysfunction. Overexpression of ZBTB16 presents a potential therapeutic strategy for preserving cardiac function during aging. These findings establish a novel role for ZBTB16 in endothelial aging and cardiovascular disease prevention.

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  1. Version published to 10.1101/2025.10.08.681100 on bioRxiv