Diverse ancestral brainstem noradrenergic neuron activity across species and biological factors

  1. Michael A. Kelberman
  2. Ellen Rodberg
  3. Brandon R. Munn
  4. Ehsan Arabzadeh
  5. Chloe J. Bair-Marshall
  6. Craig W. Berridge
  7. Esther Berrocoso
  8. Vincent Breton-Provencher
  9. Daniel J. Chandler
  10. Alicia Che
  11. Oscar Davy
  12. David M. Devilbiss
  13. Anthony M. Downs
  14. Gabrielle Drummond
  15. Roman Dvorkin
  16. Zeinab Fazlali
  17. Robert C. Froemke
  18. Erin Glennon
  19. Joshua I. Gold
  20. Hiroki Ito
  21. Xiaolong Jiang
  22. Joshua P. Johansen
  23. Alfred P. Kaye
  24. Jenny R. Kim
  25. Chao-Cheng Kuo
  26. Rong-Jian Liu
  27. Yang Liu
  28. Meritxell Llorca-Torralba
  29. Jordan G. McCall
  30. Zoe A. McElligott
  31. Andrew M. McKinney
  32. Cristina Miguelez
  33. Ming-Yuan Min
  34. Alexandra C. Nowlan
  35. Mohsen Omrani
  36. Gina R. Poe
  37. Anthony Edward Pickering
  38. Yadollah Ranjbar-Slamloo
  39. Jone Razquin
  40. Charles Rodenkirch
  41. Anna C. Sales
  42. Rath Satyasambit
  43. Stephen D. Shea
  44. Mriganka Sur
  45. John Arthur Tkaczynski
  46. Sonia Torres-Sanchez
  47. Akira Uematsu
  48. Chayla R. Vazquez
  49. Amelien Vreven
  50. Qi Wang
  51. Barry D Waterhouse
  52. Hsiu-Wen Yang
  53. Jen-Hau Yang
  54. Liping Zhao
  55. Ioannis S. Zouridis
  56. James M. Shine
  57. David Weinshenker
  58. Elena Vazey
  59. Nelson K. Totah
Read the full article See related articles

Discuss this preprint

Start a discussion What are Sciety discussions?

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

The brainstem cell group, locus coeruleus (LC), is present across vertebrates and influences cardiorespiratory, metabolic, immune, and cognitive functions by activating in two putatively distinct firing patterns. Yet, the degree to which the LC firing rates and patterns are homogenous across species has never been assessed due to inherently limited sample sizes. To remedy this, we pooled cross-species data from 20 laboratories to show that firing rates differ across species and are modulated by sex, age, and type of in vitro or in vivo preparation. Contrary to the prevailing dual-mode firing pattern schema, we observed patterns spread across a low-dimensional manifold, with subregions enriched for specific biological factors and neurodegenerative disease models. Our findings show considerable diversity in an ancestral vertebrate neuromodulatory system.

Article activity feed

  1. Version published to 10.1101/2024.10.14.618224 on bioRxiv