Abstract
Maintenance of protein homeostasis is a crucial process for the normal functioning of the cell. The regulated degradation of proteins is primarily facilitated by the ubiquitin proteasome system (UPS), a system of selective tagging of proteins with ubiquitin followed by proteasome-mediated proteolysis. The UPS is highly dynamic consisting of both ubiquitination and deubiquitination steps that modulate protein stabilization and degradation. Deregulation of protein stability is a common feature in the development and progression of numerous cancer types. Simultaneously, the elevated protein synthesis rate of cancer cells and consequential accumulation of misfolded proteins drives UPS addiction, thus sensitizing them to UPS inhibitors. This sensitivity along with the potential of stabilizing pro-apoptotic signaling pathways makes the proteasome an attractive clinical target for the development of novel therapies. Targeting of the catalytic 20S subunit of the proteasome is already a clinically validated strategy in multiple myeloma and other cancers. Spurred on by this success, promising novel inhibitors of the UPS have entered development, targeting the 20S as well as regulatory 19S subunit and inhibitors of deubiquitinating and ubiquitin ligase enzymes. In this review, we outline the manner in which deregulation of the UPS can cause cancer to develop, current clinical application of proteasome inhibitors, and the (pre-)clinical development of novel inhibitors of the UPS.
Highlights
Ubiquitination: a molecular tag that alters protein functionThe ubiquitin proteasome system (UPS) consists of a relay of enzymes that tag proteins for destruction with the small-molecule
Maintenance of protein homeostasis is a crucial process for the normal functioning of the cell
We focus on how deregulation of the ubiquitin proteasome system (UPS) can contribute to tumorgenesis and discuss the potential of the UPS and in particular deubiquitinases (DUBs) as a promising target for the development of anti-cancer agents
Summary
The UPS consists of a relay of enzymes that tag proteins for destruction with the small-molecule. The linkage between the Ub moieties located in the chain functions as a highly specific ubiquitin code that determines the fate of the conjugated protein. Proteins conjugated with poly-Ub chains containing Lys-11, Lys-29, and Lys-48 linkages are generally transported to the 26S proteasome, where they are degraded by the proteolytic activities of the 20S core particle (20S CP). In order to facilitate unfolding and translocation through the narrow gate into to the 20S CP, the poly-Ub chain must be removed from the target protein This process of proteasome deubiquitination is mediated by the action of 3 DUBs, POH1/Rpn, UCHL5/UCH37, and USP14 [10,11,12,13,14]. Oligopeptides are further hydrolyzed to single amino acid residues by oligopeptidases located in the cytosol, facilitating the recycling of amino acids for protein synthesis
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