Integrating GWAS meta-analysis with human brain cell mapping implicates the amygdala and the midbrain in the pathogenesis of tinnitus

  1. Nick M.A. Shubert
  2. Shuyang Yao
  3. Maryam Kazemi Naeini
  4. Natalia Trpchevska
  5. Charles Bishop
  6. Argyro Bizaki-Vallaskangas
  7. Linda Broer
  8. Fabio Castellana
  9. Kaare Christensen
  10. Jacob v. B. Hjelmborg
  11. Maria Pina Concas
  12. Aurora Santin
  13. Giorgia Girotto
  14. Giuseppe Giovanni Nardone
  15. Licia Iacoviello
  16. Estonian Biobank Research Team
  17. Jonas Mengel-From
  18. Scott Gallagher
  19. Alexander Gudjonsson
  20. Vilmundur Gudnason
  21. Nancy L. Heard-Costa
  22. Sudha Seshadri
  23. Howard J. Hoffman
  24. Chuan-Ming Li
  25. Jaakko Kaprio
  26. Joel Rämö
  27. Elmo Saarentaus
  28. Johannes Kettunen
  29. Kristi Krebs
  30. Anna K. Kähler
  31. Lenore J. Launer
  32. Hampton Leonard
  33. Mike A. Nalls
  34. Patrik K.E. Magnusson
  35. Joyce van Meurs
  36. Lili Milani
  37. Antti Mäkitie
  38. Berthe C. Oosterloo
  39. Marianne Nygaard
  40. Teemu Palviainen
  41. Sheila Pratt
  42. Nicola Quaranta
  43. Rodolfo Sardone
  44. Claudia L. Satizabal
  45. John M. Schweinfurth
  46. Eric Shiroma
  47. Eleanor Simonsick
  48. Lifelines Cohort Study
  49. Christopher Spankovich
  50. Patrick F. Sullivan
  51. Andre Goedegebure
  52. Andries Paul Nagtegaal
  53. Sonja J. Pyott
  54. Christopher R. Cederroth
  55. Maxim B. Freidin
  56. Frances MK Williams
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Abstract

Tinnitus is a distressing condition affecting millions of people worldwide, yet treatment options remain very limited. Molecular evidence on the cellular origins of tinnitus in humans is lacking. Here, we performed a genome-wide association meta-analysis of clinically diagnosed and self-reported tinnitus on 888,214 individuals (75,250 tinnitus cases and 812,964 controls) from 19 independent cohorts. We identified five independent loci, two of which have not been reported previously. Mapping onto a single-cell transcriptomic atlas of the adult human brain, we found enrichment in amygdala excitatory neurons, midbrain-derived inhibitory neurons, and medial ganglionic eminence-derived interneurons, implicating the involvement of these cell types within tinnitus. Moreover, we observed that these cell-types overlapped with those associated with major depressive disorder, insomnia, and neuroticism, pathologies and personality traits which were also genetically correlated with tinnitus. Our findings confirm previously reported genetic associations with tinnitus and identify novel ones, highlighting the amygdala’s excitatory and the midbrain’s inhibitory neurons as crucial cell types involved in tinnitus pathophysiology. Our work, which leverages multiple cohorts, provides a framework for identifying genetic and cellular contributors to tinnitus and defining common mechanisms and treatments.

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