Abstract
Substrates destined for degradation by the 26 S proteasome are labeled with polyubiquitin chains. These chains can be dismantled by deubiquitinating enzymes (DUBs). A number of reports have identified different DUBs that can hydrolyze ubiquitin from substrates bound to the proteasome. We measured deubiquitination by both isolated lid and base-core particle subcomplexes, suggesting that at least two different DUBs are intrinsic components of 26 S proteasome holoenzymes. In agreement, we find that highly purified proteasomes contain both Rpn11 and Ubp6, situated within the lid and base subcomplexes, respectively. To study their relative contributions, we purified proteasomes from a mutant in the putative metalloprotease domain of Rpn11 and from a ubp6 null. Interestingly, in both preparations we observed slower deubiquitination rates, suggesting that Rpn11 and Ubp6 serve complementary roles. In accord, the double mutant is synthetically lethal. In contrast to WT proteasomes, proteasomes lacking the lid subcomplex or those purified from the rpn11 mutant are less sensitive to metal chelators, supporting the prediction that Rpn11 may be a metalloprotein. Treatment of proteasomes with ubiquitin-aldehyde or with cysteine modifiers also inhibited deubiquitination but simultaneously promoted degradation of a monoubiquitinated substrate along with the ubiquitin tag. Degradation is unique to 26 S proteasome holoenzymes; we could not detect degradation of a ubiquitinated protein by "lidless" proteasomes, although they were competent for deubiquitination. The fascinating observation that a single ubiquitin moiety is sufficient for targeting an otherwise stable substrate to proteasomes exposes how rapid deubiquitination of poorly ubiquitinated substrates may counteract degradation.
Highlights
The 26 S proteasome is the protease responsible for most regulatory intracellular proteolysis in eukaryotes [1,2,3,4]
The 26 S proteasome can be divided into two subcomplexes, the 670-kDa 20 S proteolytic core particle (CP) where proteolysis occurs, and the 900-kDa 19 S regulatory particle (RP), which in turn is composed of a lid and a base [12]
Sequence homology, and active sites, deubiquitinating enzymes (DUBs) have classically been categorized as ubiquitin-specific proteases (UBPs) or ubiquitin C-terminal hydrolases (UCHs)
Summary
SUB62—SUB62 (MATa his3-⌬200 lys801 leu 112 trp ura352) was used as wild type for proteasome purifications used in Figs. 1, 6, and 7. ⌬ubp (MY138) and its isogenic WT strain BY471 were obtained from EUROSCARF and were used in proteasome purification described in the legends to Figs. Single site mutants in RPN11 were carried out in a strain derived from BY4741 and were described previously [16]. We first generated a ⌬ubp deletant in which HIS3 replaces the ubp locus (MY211) with a MX6-HIS3-MX6 cassette. Using PCR, we obtained a DNA fragment that can be used to replace WT UBP6 with the HIS3 marker in any strain. The resulting cassette was transformed into a haploid ⌬rpn strain sustained by WT RPN11 expressed from a single copy URA3-marked plasmid. Various rpn mutants expressed from LEU2-marked plasmids were transformed into the new haploid strain. The synthetic effect of the various rpn mutants on ⌬ubp was evaluated by plasmid shuffling using 5-fluoroorotic acid
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