UBR1 and UBR2 are N-recognin ubiquitin ligases that function in the N-end rule degradation pathway. In yeast, the UBR1 homologue also functions by N-end rule independent means to promote degradation of misfolded proteins generated by treatment of cells with geldanamycin, a small molecule inhibitor of Hsp90. Based on these studies we examined the role of mammalian UBR1 and UBR2 in the degradation of protein kinase clients upon Hsp90 inhibition. Our findings show that protein kinase clients Akt and Cdk4 are still degraded in mouse Ubr1(-)/(-) cells treated with geldanamycin, but that their levels recover much more rapidly than is found in wild type cells. These findings correlate with increased induction of Hsp90 expression in the Ubr1(-)/(-) cells compared with wild type cells. We also observed a reduction of UBR1 protein levels in geldanamycin-treated mouse embryonic fibroblasts and human breast cancer cells, suggesting that UBR1 is an Hsp90 client. Further studies revealed a functional overlap between UBR1 and the quality control ubiquitin ligase, CHIP. Our findings show that UBR1 function is conserved in controlling the levels of Hsp90-dependent protein kinases upon geldanamycin treatment, and suggest that it plays a role in determining the sensitivity of cancer cells to the chemotherapeutic effects of Hsp90 inhibitors.
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