Kelberman, Michael A, Rodberg, Ellen, Arabzadeh, Ehsan, Bair-Marshall, Chloe J, Berridge, Craig W, Berrocoso, Esther, Breton-Provencher, Vincent, Chandler, Daniel J, Che, Alicia, Davy, Oscar, Devilbiss, David M, Downs, Anthony M, Drummond, Gabrielle, Dvorkin, Roman, Fazlali, Zeinab, Froemke, Robert C, Glennon, Erin, Gold, Joshua I, Ito, Hiroki, Jiang, Xiaolong, Johansen, Joshua P, Kaye, Alfred P, Kim, Jenny R, Kuo, Chao-Cheng, Liu, Rong-Jian, Liu, Yang, Llorca-Torralba, Meritxell, McCall, Jordan G, McElligott, Zoe A, McKinney, Andrew M, Miguelez, Cristina, Min, Ming-Yuan, Nowlan, Alexandra C, Omrani, Mohsen, Poe, Gina R, Pickering, Anthony Edward, Ranjbar-Slamloo, Yadollah, Razquin, Jone, Rodenkirch, Charles, Sales, Anna C, Satyasambit, Rath, Shea, Stephen D, Sur, Mriganka, Tkaczynski, John Arthur, Torres-Sanchez, Sonia, Uematsu, Akira, Vazquez, Chayla R, Vreven, Amelien, Wang, Qi, Waterhouse, Barry D, Yang, Hsiu-Wen, Yang, Jen-Hau, Zhao, Liping, Zouridis, Ioannis S, Weinshenker, David, Vazey, Elena, Totah, Nelson K (October 2024) Diversity of ancestral brainstem noradrenergic neurons across species and multiple biological factors. bioRxiv. ISSN 2692-8205 (Submitted)
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Abstract
The brainstem region, locus coeruleus (LC), has been remarkably conserved across vertebrates. Evolution has woven the LC into wide-ranging neural circuits that influence functions as broad as autonomic systems, the stress response, nociception, sleep, and high-level cognition among others. Given this conservation, there is a strong possibility that LC activity is inherently similar across species, and furthermore that age, sex, and brain state influence LC activity similarly across species. The degree to which LC activity is homogenous across these factors, however, has never been assessed due to the small sample size of individual studies. Here, we pool data from 20 laboratories (1,855 neurons) and show diversity across both intrinsic and extrinsic factors such as species, age, sex and brain state. We use a negative binomial regression model to compare activity from male monkeys, and rats and mice of both sexes that were recorded across brain states from brain slices ex vivo or under different anesthetics or during wakefulness in vivo. LC activity differed due to complex interactions of species, sex, and brain state. The LC became more active during aging, independent of sex. Finally, in contrast to the foundational principle that all species express two distinct LC firing modes (“tonic” or “phasic”), we discovered great diversity within spontaneous LC firing patterns. Different factors were associated with higher incidence of some firing modes. We conclude that the activity of the evolutionarily-ancient LC is not conserved. Inherent differences due to age and species-sex-brain state interactions have implications for understanding the role of LC in species-specific naturalistic behavior, as well as in psychiatric disorders, cardiovascular disease, immunology, and metabolic disorders.
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