Abstract
AbstractTribbles related homolog 1 (TRIB1) contributes to lipid and glucose homeostasis by facilitating the degradation of cognate cargos by the proteasome. We previously reported that TRIB1 was unstable in non-hepatic cellular models. Moreover, inclusion of proteasome inhibitors failed to prevent TRIB1 loss, consistent with the involvement of proteasome independent degradative processes. In view of the key role of TRIB1 in liver function, we continue our exploration of TRIB1 regulation pathways in two commonly used human hepatocyte models, HuH-7 and HepG2 cells. Proteasome inhibitors potently upregulated both endogenous and recombinant TRIB1 mRNA and protein levels. Increased transcript abundance was independent of MAPK activation while ER stress was a relatively mild inducer. Despite increasing TRIB1 protein abundance and stabilizing bulk ubiquitination, proteasome inhibition failed to stabilize TRIB1, pointing to the predominance of proteasome independent protein degradation processes controlling TRIB1 protein abundance in hepatomas. Proteasome inhibition via downregulation of its PSMB3 regulatory subunit, in contrast to its chemical inhibition, had minimal impact on TRIB1 levels. Moreover, immunoprecipitation experiments showed no evidence of TRIB1 ubiquitination. Cytoplasmic retained TRIB1 was unstable, indicating that TRIB1 lability is regulated prior to its nuclear import. Substitution of the TRIB1 PEST-like region with a GST helical region or N-terminal deletions failed to fully stabilize TRIB1. Finally, inclusion of protease or autophagy inhibitors in vivo did not rescue TRIB1 stability. This work excludes proteasome-mediated degradation as a significant contributor to TRIB1 instability and identifies transcriptional regulation as a prominent mechanism regulating TRIB1 abundance in liver models in response to proteasome inhibition.
Publisher
Cold Spring Harbor Laboratory