Abstract

Abstract Antizyme suppresses cell cycle by inhibiting the polyamine synthesis through binding to the rate limiting enzyme ornithine decarboxylases (ODC). High levels of ODC have been reported in several forms of cancer, among them prostate cancer. Antizyme Inhibitor (AZIN) binds to antizyme and thereby blocks its inhibitory effect on ODC. Here, we have measured the expression and localization of AZIN in 202 prostate cancer specimens, along with 26 adjacent benign samples and found that nuclear localization of AZIN is associated with significantly lower survival. Upregulation and nuclear localization of AZIN have been observed in several cancers, as has editing of the AZIN1 mRNA. Others have hypothesized that the RNA- edited AZIN (edAZIN) may have an increased affinity to antizyme and that could explain the association of edAZIN to the various cancers. We have studied the mechanism behind the nuclear localization of AZIN and found the single base pair substitution caused by RNA editing is sufficient to result in nuclear localization of the protein in all cell types tested. To determine if the nuclear localization might result from increased antizyme-edAZIN affinity, we developed fluorescent protein FRET sensor for protein-protein interaction using Clover-AZIN and antizyme-mRuby2 fusion proteins. Unexpectedly, we found that the editing event modestly decreases edAZIN affinity for antizyme, notwithstanding increased interaction in vivo. Thus, the data indicate that the change in protein localization to the nucleus may be more important to oncogenic function than the actual degree of binding to antizyme. Other functional differences between edAZIN and AZIN might be explained by altered kinetics of binding, by the contribution of an additional adapter protein which modulates the intracellular antizyme:AZIN complex, or by competition for AZIN binding by other partners whose interaction is affected by the editing event. Finally, we identified AZIN and edAZIN interacting proteins by using tandem affinity purification and LC-MS-MS analysis. Among interacting proteins, we identified a complex containing two isoforms of nuclear actins (ACTG1 and ACTA2) and Myosin-9 that may be the driving force behind the nuclear shuttling of edAZIN. Citation Format: Aram Ghalali, James M. Rice, Liangzhe Wang, Chin Lee Wu, Michael S. Rogers, Bruce Zetter. Nuclear localization of antizyme inhibitor may be a marker for aggressiveness of prostate cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 4888.

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