Abstract
The ubiquitin (Ub)–proteasome system is the primary mechanism for maintaining protein homeostasis in eukaryotes, yet the underlying signaling events and specificities of its components are poorly understood. Proteins destined for degradation are tagged with covalently linked polymeric Ub chains and subsequently delivered to the proteasome, often with the assistance of shuttle proteins that contain Ub-like domains. This degradation pathway is riddled with apparent redundancy—in the form of numerous polyubiquitin chains of various lengths and distinct architectures, multiple shuttle proteins, and at least three proteasomal receptors. Moreover, the largest proteasomal receptor, Rpn1, contains one known binding site for polyubiquitin and shuttle proteins, although several studies have recently proposed the existence of an additional uncharacterized site. Here, using a combination of NMR spectroscopy, photocrosslinking, mass spectrometry, and mutagenesis, we show that Rpn1 does indeed contain another recognition site that exhibits affinities and binding preferences for polyubiquitin and Ub-like signals comparable to those of the known binding site in Rpn1. Surprisingly, this novel site is situated in the N-terminal section of Rpn1, a region previously surmised to be devoid of functionality. We identified a stretch of adjacent helices as the location of this previously uncharacterized binding site, whose spatial proximity and similar properties to the known binding site in Rpn1 suggest the possibility of multivalent signal recognition across the solvent-exposed surface of Rpn1. These findings offer new mechanistic insights into signal recognition processes that are at the core of the Ub–proteasome system.
Highlights
Eukaryotic protein turnover relies on the careful coordination of substrates, ubiquitin (Ub), and the proteasome— collectively known as the ubiquitin–proteasome system (UPS) —and is essential for cell survivability [1]
We discovered a previously unidentified recognition site for polymeric Ub (polyUb) and UBL signals in the Rpn1 region encompassing residues 214 to 355
This region of Rpn1 does not contain any of the classical helix–turn–helix PC repeats that are purportedly involved in recognizing proteasomal signals [6, 15]; taking our CD data and the existing structural models of Rpn1 into account, Rpn1214–355 likely contains several unclassified helix–turn–helix motifs
Summary
Eukaryotic protein turnover relies on the careful coordination of substrates, ubiquitin (Ub), and the proteasome— collectively known as the ubiquitin–proteasome system (UPS) —and is essential for cell survivability [1]. Shuttle proteins that contain Ub-like (UBL) and Ub-associated (UBA) domains indirectly escort polyubiquitinated substrates to the proteasome, whereby the UBA domain binds to polyUb [8, 9] and the UBL domain binds to the proteasome [5,6,7, 10,11,12,13,14,15]. The RP contains three known receptors—Rpn1/PSMD2, Rpn10/S5a, and Rpn13/ADRM1—all of which recognize polyUb and the UBL domains of shuttle proteins, to varying extents [2,3,4,5,6,7, 10,11,12,13,14,15] Of these RP receptors, Rpn is the largest (110 kDa) and least characterized. Even though only one recognition site for proteasomal signals has been identified in Rpn so far, multiple studies have recently suggested the presence of additional sites [6, 11, 23, 24]
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