PSMD9 ribosomal protein network maintains nucleolar architecture and WT p53 levels.

Capitalizing on an unexpected observation that multiple free ribosomal proteins co-purify/pull-down with PSMD9, we report here for the first time that PSMD9 is necessary to maintain the morphology and integrity of the nucleolus. As seen by NPM1 immunofluorescence and electron microscopy, the nucleolar structure is clearly disrupted in PSMD9 null ...
MCF7 breast cancer cells. The resultant stress is pronounced leading to the accumulation of WT p53 and slow growth. A dual insult with Actinomycin D exasperates the nucleolar stress in these cells which fail to recover in stipulated time. This double insult in the WT cells enhances the interaction of PSMD9 with ribosomal subunits. Our data also reveals that in PSMD9 null cells, ribosomal proteins RPS25 and RPL15 fail to localise in the nucleolus. We speculate that the interaction of PSMD9 with multiple free ribosome subunits has at least two important implications: a) PSMD9 plays a role in trafficking of ribosomal proteins into the nucleolus, therefore contributing to the maintenance of structural and morphological organization of the membrane-less nucleolar compartment; b) under conditions that induce nucleolar stress, PSMD9-Ribosomal Protein interaction protects WT MCF7 breast cancer cells from slow growth and eventual death. This possibility renders the domains of PSMD9 to be attractive drug targets in the context of cancer and other multiple ribosome-associated disorders.
Mesh Terms:
Cell Nucleolus, Cells, Cultured, Humans, Nucleophosmin, Proteasome Endopeptidase Complex, Tumor Suppressor Protein p53
Biochem Biophys Res Commun
Date: Dec. 23, 2020
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