In this study, we analyze the long noncoding RNA, lncMN3, that is predominantly expressed in motor neurons and shows potential coding capabilities. Utilizing custom antibodies, we demonstrate the production of a lncMN3-derived type I transmembrane micropeptide, SERTM2. Patch-clamp experiments performed on both wild-type and SERTM2 knockout motor neurons, differentiated in vitro from mouse embryonic stem cells, show a difference in the resting membrane potential and overall decreased excitability upon SERTM2 depletion. In vivo studies indicate that the absence of the peptide impairs treadmill test performance. At the mechanistic level, we identify a two-pore domain potassium channel, TASK1, known to be a major determinant of the resting membrane potential in motor neurons, as a SERTM2 interactor. Our study characterizes one of the first lncRNA-derived micropeptides involved in neuronal physiology.
SERTM2: a neuroactive player in the world of micropeptides / Lisi, Michela; Santini, Tiziana; D'Andrea, Tiziano; Salvatori, Beatrice; Setti, Adriano; Paiardini, Alessandro; Nutarelli, Sofia; Nicoletti, Carmine; Pellegrini, Flaminia; Fucile, Sergio; Bozzoni, Irene; Martone, Julie. - In: EMBO REPORTS. - ISSN 1469-3178. - 26:8(2025), pp. 2044-2076. [10.1038/s44319-025-00404-w]
SERTM2: a neuroactive player in the world of micropeptides
Santini, Tiziana;Salvatori, Beatrice;Setti, Adriano;Paiardini, Alessandro;Nutarelli, Sofia;Nicoletti, Carmine;Pellegrini, Flaminia;Fucile, Sergio;Bozzoni, Irene;Martone, Julie
2025
Abstract
In this study, we analyze the long noncoding RNA, lncMN3, that is predominantly expressed in motor neurons and shows potential coding capabilities. Utilizing custom antibodies, we demonstrate the production of a lncMN3-derived type I transmembrane micropeptide, SERTM2. Patch-clamp experiments performed on both wild-type and SERTM2 knockout motor neurons, differentiated in vitro from mouse embryonic stem cells, show a difference in the resting membrane potential and overall decreased excitability upon SERTM2 depletion. In vivo studies indicate that the absence of the peptide impairs treadmill test performance. At the mechanistic level, we identify a two-pore domain potassium channel, TASK1, known to be a major determinant of the resting membrane potential in motor neurons, as a SERTM2 interactor. Our study characterizes one of the first lncRNA-derived micropeptides involved in neuronal physiology.| File | Dimensione | Formato | |
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Lisi_SERTM2_2025.pdf
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