GPATCH4 contributes to nucleolus morphology and its dysfunction impairs cell viability

The nucleolus serves a multifaceted role encompassing not only rRNA transcription and ribosome synthesis, but also the intricate orchestration of cell cycle regu-lation and the modulation of cellular senescence. G-patch domain containing 4 (GPATCH4) stands as one among the nucleolar proteins; however, its functional significances remain still unclear. In order to elucidate the functions of GPATCH4, we examined the effects of its dysfunction on cellular proliferation, alterations in nucleolar architecture, apoptotic events, and cellular senescence. Through experimentation conducted on cultured neuroblastoma SH-SY5Y cells, the reduction of GPATCH4 caused inhibition of cellular proliferation, concurrently fostering escalated apoptotic susceptibilities upon exposure to high-dose etoposide. In the realm of nucleolar morphology comparisons, a discernible decline was noted in the count of nucleoli per nucleus, concomitant with a significant expansion in the area occupied by individual nucleoli. Upon induction of senescence prompted by low-dose etoposide, GPATCH4 knockdown resulted in decreased cell viability and increased expression of senescence-associated markers, namely senescence-associated beta-galactosidase (SA-beta-GAL) and p16. Furthermore, GPATCH4 dysfunction elicited alterations in the gene expression profile of the ribosomal system. In sum, our findings showed that GPATCH4 is a pivotal nucleolar protein that regulates nucleolar morphology and is correlated with cell viability.