Evidence that the transcriptional repressor ICER is regulated via the N-end rule for ubiquitination

Authors

Angelo Cirinelli, Montclair State University
Justin Wheelan, Montclair State UniversityFollow
Christopher Grieg, Montclair State University
Carlos A. Molina, Montclair State UniversityFollow

Document Type

Preprint

Publication Date

5-1-2022

Journal / Book Title

Experimental Cell Research

Abstract

ICER is a transcriptional repressor that is mono- or poly-ubiquitinated. This either causes ICER to be translocated from the nucleus, or degraded via the proteasome, respectively. In order to further studies the proteins involved in ICER regulation mass spectrometry analysis was performed to identify potential candidates. We identified twenty eight ICER-interacting proteins in human melanoma cells, Sk-Mel-24. In this study we focus on two proteins with potential roles in ICER proteasomal degradation in response to the N-end rule for ubiquitination: the N-alpha-acetyltransferase 15 (NAA15) and the E3 ubiquitin-protein ligase UBR4. Using an HA-tag on the N- or C-terminus of ICER (NHAICER or ICERCHA) it was found that the N-terminus of ICER is important for its interaction to UBR4, whereas NARG1 interaction is independent of HA-tag position. Silencing RNA experiments show that both NAA15 and UBR4 up-regulates ICER levels and that ICER's N-terminus is important for this regulation. The N-terminus of ICER was found to have dire consequences on its regulation by ubiquitination and cellular functions. The half-life of NHAICER was found to be about twice as long as ICERCHA. Polyubiquitination of ICER was found to be dependent on its N-terminus and mediated by UBR4. This data strongly suggests that ICER is ubiquitinated as a response to the N-end rule that governs protein degradation rate through recognition of the N-terminal residue of proteins. Furthermore, we found that NHAICER inhibits transcription two times more efficiently than ICERCHA, and causes apoptosis 5 times more efficiently than ICERCHA. As forced expression of ICER has been shown before to block cells in mitosis, our data represent a potentially novel mechanism for apoptosis of cells in mitotic arrest.

DOI

10.1016/j.yexcr.2022.113083

Montclair State University Digital Commons Citation

Cirinelli, Angelo; Wheelan, Justin; Grieg, Christopher; and Molina, Carlos A., "Evidence that the transcriptional repressor ICER is regulated via the N-end rule for ubiquitination" (2022). Department of Biology Faculty Scholarship and Creative Works. 546.
https://digitalcommons.montclair.edu/biology-facpubs/546

Published Citation

Published in final edited form as: Exp Cell Res. 2022 May 01; 414(1): 113083. doi:10.1016/j.yexcr.2022.113083.