lncRNA NORM is essential for proper chromosome segregation through the Plk1-Bub1 and Nsun2 axis.

The cell cycle comprises different phases and is a tightly regulated process at the molecular level. During the cell cycle, two key events occurred: DNA duplication during the S phase and chromosome segregation during mitosis. Accurate cell cycle progression, achieved through faithful chromosome segregation, is essential for maintaining cell fidelity. Long noncoding RNAs are a subclass of noncoding RNA that are longer than 200 bp and form RNA protein complexes (RNPs) to regulate various biological processes. Herein, we demonstrate that lncRNA NORM is involved in regulating the cell cycle by maintaining proper chromosome segregation. NORM exhibited G2 phase-specific expression, and the depletion of NORM resulted in a significant G2/M arrest. NORM-depleted cells failed to progress in mitosis and showed defects in chromosome segregation. We further demonstrated that NORM binds to proteins such as Plk1 and Nsun2. Depletion of NORM hindered the interaction between Plk1 and Bub1, resulting in reduced kinetochore localization of Plk1 during prometaphase. Our results also show that the depletion of NORM affects the binding of Nsun2 protein to CDK1 mRNA and, consequently, the stabilization of CDK1 at the protein level. Altogether, our results demonstrate that NORM regulates chromosome segregation by mediating the interaction between Plk1 and Bub1.