NALCN/Cch1 channelosome subunits originated in early eukaryotes
1
Issued Date
2025-11-03
Resource Type
eISSN
15407748
Scopus ID
2-s2.0-105015483728
Pubmed ID
40910942
Journal Title
Journal of General Physiology
Volume
157
Issue
6
Rights Holder(s)
SCOPUS
Bibliographic Citation
Journal of General Physiology Vol.157 No.6 (2025)
Suggested Citation
Senatore A., Mayorova T.D., Yañez-Guerra L.A., Elkhatib W., Bejoy B., Lory P., Monteil A. NALCN/Cch1 channelosome subunits originated in early eukaryotes. Journal of General Physiology Vol.157 No.6 (2025). doi:10.1085/jgp.202413636 Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/112136
Title
NALCN/Cch1 channelosome subunits originated in early eukaryotes
Author's Affiliation
Corresponding Author(s)
Other Contributor(s)
Abstract
The sodium leak channel NALCN, a key regulator of neuronal excitability, associates with three ancillary subunits that are critical for its function: a subunit called FAM155, which interacts with the extracellular regions of the channel, and two cytoplasmic subunits called UNC79 and UNC80. Interestingly, NALCN and FAM155 have orthologous phylogenetic relationships with the fungal calcium channel Cch1 and its subunit Mid1; however, UNC79 and UNC80 have not been reported outside of animals. In this study, we leveraged expanded gene sequence data available for eukaryotes to reexamine the evolutionary origins of NALCN and Cch1 channel subunits. Our analysis corroborates the direct phylogenetic relationship between NALCN and Cch1 and identifies a larger clade of related channels in additional eukaryotic taxa. We also identify homologues of FAM155/Mid1 in Cryptista algae and UNC79 and UNC80 homologues in numerous non-metazoan eukaryotes, including basidiomycete and mucoromycete fungi and the microbial eukaryotic taxa Apusomonadida, Malawimonadida, and Discoba. Furthermore, we find that most major animal lineages, except ctenophores, possess a full complement of NALCN subunits. Comparing structural predictions with the solved structure of the human NALCN complex supports orthologous relationships between metazoan and non-metazoan FAM155/Mid1, UNC79, and UNC80 homologues. Together, our analyses reveal unexpected diversity and ancient eukaryotic origins of NALCN/Cch1 channelosome subunits and raise interesting questions about the functional nature of this channel complex within a broad, eukaryotic context.