Structural Studies of HHARI/UbcH7∼Ub Reveal Unique E2∼Ub Conformational Restriction by RBR RING1

Dove, Katja K.; Olszewski, Jennifer L.; Martino, Luigi; Duda, David M.; Wu, Xiaoli; Miller, Darcie J.; Reiter, Katherine H.; Rittinger, Katrin; Schulman, Brenda A.; Klevit, Rachel E.

doi:10.1016/j.str.2017.04.013

Cited by 47 publications

(83 citation statements)

References 55 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…We interpreted the chemical shift changes within the tether region to result from both direct E2 binding and an altering of the tether position to accommodate the E2 enzyme. The open arrangement of the E2‐Ub bound to R0RBR parkin more closely resembles the interaction of UbcH5b‐Ub with HOIP (Lechtenberg et al , 2016) than either of the structures for UbcH7‐Ub with HHARI (Dove et al , 2017; Yuan et al , 2017; Fig EV4). Ub binding is governed predominantly by contacts from β1‐L1‐β2 (K6, L8, K11, I13‐T14), the linker following helix α1 (Q31‐D32) and C‐terminus (L73, R74) to an R0RBR surface including β1 (P333, P335) and the C‐terminus of the IBR domain (E370) and adjacent tether (V380, F381, S384, T386), RING1 helix H1 (N273) and the straightened RING1 helix H3 (R314, Y318).…”

Section: Resultsmentioning

confidence: 70%

“…In the complex, helix H1 (R6, K9) and loop L4 (E60, F63‐K64) in UbcH7 contact the R0RBR loop L1 (T240, T242) and helix H1 (L266, T270, R271, D274) respectively in RING1 (Fig 2C). As with other E2/RBR E3 ligase complexes (Lechtenberg et al , 2016; Dove et al , 2017; Yuan et al , 2017), the L7 loop (N94, K96, P97, A98) in UbcH7 sits adjacent to loop L2 (V290‐G292) in RING1, but has additional contacts with Y391‐D394 just prior to the short helix in the tether region. We noted that some of the largest chemical shift changes were in this region of the tether (Y391, R392, D394), which undergoes multiple rearrangements in crystal structures of parkin (Kumar et al , 2017).…”

Section: Resultsmentioning

confidence: 75%

“…These observations show the pUbl domain is no longer bound at the IBR/RING1 interface and, consistent with previous NMR, sedimentation velocity and computational experiments, indicates the pUbl domain adopts a range of bound/free conformations in the pParkin:pUb state (Fig 1D; Caulfield et al , 2014; Aguirre et al , 2017). In this scenario, release of the pUbl domain exposes the predicted E2~Ub binding site, based on other RING/E2 complexes (Lechtenberg et al , 2016; Dove et al , 2017; Yuan et al , 2017). …”

Section: Resultsmentioning

confidence: 91%

“…In particular, RBR E3 ligases incorporate a hybrid ubiquitination mechanism (Wenzel et al , 2011) whereby an E2 conjugating enzyme is recruited to the RING1 domain (similar to RING E3 ligases) and ubiquitin (Ub) is transferred from the E2~Ub conjugate to a catalytic cysteine in the RING2(Rcat) domain (similar to HECT E3 mechanisms) prior to labelling of a substrate lysine. RBR E3 ligases and RING E3 ligases have RING domains that are structurally similar and are expected to recruit E2 enzymes in a similar fashion (Budhidarmo et al , 2012), as recently shown in crystal structures of the RBR E3 ligases HHARI with UbcH7‐Ub (Dove et al , 2017; Yuan et al , 2017) and HOIP with UbcH5b‐Ub (Lechtenberg et al , 2016). However, a distinguishing feature of the HHARI and HOIP RBR E3 ligases is their ability to recognize an extended (“open”) form of the E2~Ub conjugate similar to that used by HECT E3 enzymes.…”

Section: Introductionmentioning

confidence: 81%

“…Current crystal structures of parkin show the proposed E2 binding site on the RING1 domain is > 50 Å from the catalytic site (C431) in the RING2(Rcat) domain suggesting a significant conformational rearrangement is needed (Riley et al , 2013; Trempe et al , 2013; Wauer & Komander, 2013; Kumar et al , 2015, 2017; Sauvé et al , 2015; Wauer et al , 2015). A similar dilemma arises from recent structures of HHARI in complex with UbcH7‐Ub that show the ubiquitin molecule is 47–53 Å from the catalytic site (Dove et al , 2017; Yuan et al , 2017). Alternatively, structures of HOIP:E2‐Ub and parkin:pUb complexes assembled from domain‐swapping or symmetry‐related molecules raise the possibility of co‐operation between multiple E3 ligase molecules to promote ubiquitin transfer (Lechtenberg et al , 2016; Kumar et al , 2017).…”

Section: Introductionmentioning

confidence: 98%

See 4 more Smart Citations

Synergistic recruitment of UbcH7~Ub and phosphorylated Ubl domain triggers parkin activation

et al. 2018

View full text Add to dashboard Cite

The E3 ligase parkin ubiquitinates outer mitochondrial membrane proteins during oxidative stress and is linked to early‐onset Parkinson's disease. Parkin is autoinhibited but is activated by the kinase PINK1 that phosphorylates ubiquitin leading to parkin recruitment, and stimulates phosphorylation of parkin's N‐terminal ubiquitin‐like (pUbl) domain. How these events alter the structure of parkin to allow recruitment of an E2~Ub conjugate and enhanced ubiquitination is an unresolved question. We present a model of an E2~Ub conjugate bound to the phospho‐ubiquitin‐loaded C‐terminus of parkin, derived from NMR chemical shift perturbation experiments. We show the UbcH7~Ub conjugate binds in the open state whereby conjugated ubiquitin binds to the RING1/IBR interface. Further, NMR and mass spectrometry experiments indicate the RING0/RING2 interface is re‐modelled, remote from the E2 binding site, and this alters the reactivity of the RING2(Rcat) catalytic cysteine, needed for ubiquitin transfer. Our experiments provide evidence that parkin phosphorylation and E2~Ub recruitment act synergistically to enhance a weak interaction of the pUbl domain with the RING0 domain and rearrange the location of the RING2(Rcat) domain to drive parkin activity.

show abstract

Section: Resultsmentioning

confidence: 70%

Section: Resultsmentioning

confidence: 75%

Section: Resultsmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 81%

Section: Introductionmentioning

confidence: 98%

See 3 more Smart Citations

Synergistic recruitment of UbcH7~Ub and phosphorylated Ubl domain triggers parkin activation

et al. 2018

View full text Add to dashboard Cite

show abstract

The RING domain of RING Finger 11 (RNF11) protein binds Ubc13 and inhibits formation of polyubiquitin chains

et al. 2018

View full text Add to dashboard Cite

The Really Interesting New Gene (RING) Finger protein 11 (RNF11) is a subunit of the A20 ubiquitin-editing complex that ensures the transient nature of inflammatory responses. Although the role of RNF11 as a negative regulator of NF-κB signalling is well-documented, the molecular mechanisms that underpin this function are poorly understood. Here, we show that RNF11 binds both Ubc13 and the Ubc13~ubiquitin conjugate tightly and with similar affinity, but has minimal E3 ligase activity. Remarkably, RNF11 appears to bind Ubc13 so tightly that it outcompetes the E1 and an active E3 ligase. As a consequence, RNF11 may regulate the activity of E3s that rely on Ubc13 for ubiquitin chain assembly by limiting the availability of Ubc13 and its conjugate.

show abstract

Characterization of RING-Between-RING E3 Ubiquitin Transfer Mechanisms

Reiter

Klevit

2018

Methods in Molecular Biology

View full text Add to dashboard Cite

Structural Studies of HHARI/UbcH7∼Ub Reveal Unique E2∼Ub Conformational Restriction by RBR RING1

Cited by 47 publications

References 55 publications

Synergistic recruitment of UbcH7~Ub and phosphorylated Ubl domain triggers parkin activation

Synergistic recruitment of UbcH7~Ub and phosphorylated Ubl domain triggers parkin activation

The RING domain of RING Finger 11 (RNF11) protein binds Ubc13 and inhibits formation of polyubiquitin chains

Characterization of RING-Between-RING E3 Ubiquitin Transfer Mechanisms

Contact Info

Product

Resources

About