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L2DTL/CDT2 and PCNA Interact with p53 and Regulate p53 Polyubiquitination and Protein Stability through MDM2 and CUL4A/DDB1 Complexes

Damon Banks, Min Wu, Leigh Ann Higa, Nadia Gavrilova, Junmin Quan, Tao Ye, Ryuji Kobayashi, Hong Sun and Hui Zhang

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The CUL4-ROC1 E3 ligase complex regulates genome stability, replication, and cell cycle progression. A novel WD40 domain-containing protein, L2DTL, and PCNA were identified as proteins associated with CUL4/DDB1 complexes. Inactivation of CUL4A, L2DTL, PCNA, DDB1, or ROC1 induced p53 stabilization and growth arrest. L2DTL, PCNA, and DDB1/CUL4A complexes were found to physically interact with p53 tumor suppressor and its regulator MDM2/HDM2. The isolated CUL4A complexes display potent and robust polyubiquitination activity towards p53 and this activity is dependent on L2DTL, PCNA, DDB1, ROC1, and MDM2/HDM2. We also found that the interaction between p53 and CUL4 complex is regulated by DNA damage. Our data further showed that MDM2/HDM2 is rapidly proteolyzed in response to UV irradiation and this process is regulated by CUL4/DDB1 and PCNA. Our studies demonstrate that PCNA, L2DTL, and the DDB1-CUL4A complex play critical and differential roles in regulating the protein stability of p53 and MDM2/HDM2 in unstressed and stressed cells.

This is an open-access article

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