ORIGINAL RESEARCH
NEAT1_1 long non-coding RNA reduces the survival of primary neuronal cells under ER-stress
1 Pirogov Russian National Research Medical University, Moscow, Russia
2 Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry, Russian Academy of Sciences, Chernogolovka, Russia
3 Belgorod State National Research University, Belgorod, Russia
Correspondence should be addressed: Michail S. Kukharsky
Ostrovitianova, 1/9, Moscow, 117997, Russia; ur.umsr@myksrahkuk
Funding: The study was supported by the Russian Science Foundation, Project No. 22-25-00645.
Acknowledgements: Authors would like to express their gratitude to FRC PCP MC RAS Сollective Use Center (FFSN-2021-0005 (2021 – 2023) for providing the opportunity to conduct experiments using laboratory animals.
Author contribution: Pukaeva NE — cell culture experiments, apoptosis data analysis, Zalevskaya VN — cell culture experiments, Deykin AV — generating transgenic mice, Taubinskaya MI — cell culture experiments, neuron morphology analysis, Kukharskaya OA — cell culture experiments, cell death analysis, Ovchinnikov RK — data analysis, manuscript writing, Antohin AI — manuscript editing, Kukharsky MS — study design, data analysis, manuscript writing and editing.
Compliance with ethical standards: the study was approved by the Ethics Committee of the FRC PCP MC RAS (Protocol № 53 dated December 18, 2020); animal experimental work was carried out in accordance with the Rules of Good Laboratory Practice in the Russian Federation (2016).
NEAT1 long non-coding RNAs play an important role in the central nervous system (CNS) and are associated with a number of pathological conditions. Increased levels of NEAT1 in the brain have been observed in neurodegenerative and psychiatric diseases — the significance of such an increase is still poorly understood. Functionally, NEAT1 is associated with cellular stress pathways in the nervous system. The aim of the current study was to evaluate the effect of increased levels of the short isoform NEAT1_1 on survival of mice primary hippocampal cultures under ER-stress induced by MG132 proteasome inhibitor. Primary cultures were obtained from transgenic animals expressing human NEAT1_1. Cellular composition and apoptosis were assessed using immunocytochemical staining. The expression of apoptosis signaling pathway genes was analyzed by quantitative PCR with reverse transcription. No differences in cellular composition and morphological characteristics of neurons were observed in primary neuronal cultures obtained from transgenic animals as compared to wild type cultures. Induction of ER-stress resulted in a more significant increase in apoptotic death of cells including neurons in NEAT1_1 expressing cultures in comparison with the wild type cultures. ER-stress signaling pathway genes Atf4 and Ddit3 were less expressed in transgenic cultures under stress. Expression of Bcl2l2 and Mcl1 anti-apoptotic genes was reduced as well. Thus, high levels of NEAT1_1 in primary neuronal cultures increased apoptotic cell death under ER-stress.
Keywords: apoptosis, long non-coding RNAs, NEAT1_1, ER-stress, primary neuronal cultures