Identification of TP53RK-Binding Protein (TPRKB) Dependency in -Deficient Cancers.

Tumor protein 53 (53; p53) is the most frequently altered gene in human cancer. Identification of vulnerabilities imposed by alterations may enable effective therapeutic approaches. Through analyzing short hairpin RNA (shRNA) screening data, we identified TP53RK-Binding Protein (TPRKB), a poorly characterized member of the tRNA-modifying EKC/KEOPS complex, as the most significant vulnerability in -mutated cancer cell lines. and , across multiple benign-immortalized and cancer cell lines, we confirmed that knockdown in TP53-deficient cells significantly inhibited proliferation, with minimal effect in TP53 wild-type cells. TP53 reintroduction into TP53-null cells resulted in loss of TPRKB sensitivity, confirming the importance of TP53 status in this context. In addition, cell lines with mutant or amplified (E3-ubiquitin ligase for TP53) also showed high sensitivity to knockdown, consistent with TPRKB dependence in a wide array of TP53-altered cancers. Depletion of other EKC/KEOPS complex members exhibited TP53-independent effects, supporting complex-independent functions of TPRKB. Finally, we found that TP53 indirectly mediates TPRKB degradation, which was rescued by coexpression of PRPK, an interacting member of the EKC/KEOPS complex, or proteasome inhibition. Together, these results identify a unique and specific requirement of TPRKB in a variety of TP53-deficient cancers. IMPLICATIONS: Cancer cells with genomic alterations in TP53 are dependent on TPRKB.