SF3B14 is involved in the centrosome regulation through splicing of TUBGCP6 pre-mRNA.

Splicing precursor messenger RNA (pre-mRNA) is a critical step to produce physiologically functional protein. Splicing failure not only gives rise to dysfunctional proteins but also generates abnormal protein function, which causes several diseases. Several pre-mRNA splicing factors are reported to regulate mitosis directly at mitotic structures and/or indirectly through controlling the pre-mRNA splicing for mitotic proteins. In this study, we described the mitotic functions of SF3B14, a component of the spliceosomal U2 small nuclear ribonucleoprotein (snRNP), which we identified as a candidate involved in mitosis based on the large-scale RNA interference (RNAi) screen of the nucleolar proteome database. We observed that SF3B14 depletion caused prolonged mitosis and several mitotic defects, such as monopolar spindle and chromosome misalignment during metaphase. Although SF3B14 was found in the nucleolar proteome database, our immunofluorescent stainings demonstrated that SF3B14 was predominantly localized in the nucleoplasm and excluded from the nucleolus during interphase. In addition, SF3B14 did not colocalize with specific mitotic structures during mitosis, which is not in line with its direct mitotic function. Notably, we found that the SF3B14 depletion reduced protein levels of TUBGCP6, required for centrosome regulation, and increased the unspliced/spliced ratio of its mRNA. Taken together, we propose that the pre-mRNA of TUBGCP6 is one of the targets for SF3B14 splicing through which SF3B14 controls mitotic chromosome behavior.

Identification of a novel nucleolar protein complex required for mitotic chromosome segregation through centromeric accumulation of Aurora B.

The nucleolus is a membrane-less nuclear structure that disassembles when cells undergo mitosis. During mitosis, nucleolar factors are thus released from the nucleolus and dynamically change their subcellular localization; however, their functions remain largely uncharacterised. Here, we found that a nucleolar factor called nucleolar protein 11 (NOL11) forms a protein complex with two tryptophan-aspartic acid (WD) repeat proteins named WD-repeat protein 43 (WDR43) and Cirhin in mitotic cells. This complex, referred to here as the NWC (NOL11-WDR43-Cirhin) complex, exists in nucleoli during interphase and translocates to the periphery of mitotic chromosomes, i.e., perichromosomal regions. During mitotic progression, both the congression of chromosomes to the metaphase plate and sister chromatid cohesion are impaired in the absence of the NWC complex, as it is required for the centromeric enrichment of Aurora B and the associating phosphorylation of histone H3 at threonine 3. These results reveal the characteristics of a novel protein complex consisting of nucleolar proteins, which is required for regulating kinetochores and centromeres to ensure faithful chromosome segregation.