Abstract
The E3 ubiquitin-protein ligase TRIM21, of the RING-containing tripartite motif (TRIM) protein family, is a major autoantigen in autoimmune diseases and a modulator of innate immune signaling. Together with ubiquitin-conjugating enzyme E2 E1 (UBE2E1), TRIM21 acts both as an E3 ligase and as a substrate in autoubiquitination. We here report a 2.82-Å crystal structure of the human TRIM21 RING domain in complex with the human E2-conjugating UBE2E1 enzyme, in which a ubiquitin-targeted TRIM21 substrate lysine was captured in the UBE2E1 active site. The structure revealed that the direction of lysine entry is similar to that described for human proliferating cell nuclear antigen (PCNA), a small ubiquitin-like modifier (SUMO)-targeted substrate, and thus differs from the canonical SUMO-targeted substrate entry. In agreement, we found that critical UBE2E1 residues involved in the capture of the TRIM21 substrate lysine are conserved in ubiquitin-conjugating E2s, whereas residues critical for SUMOylation are not conserved. We noted that coordination of the acceptor lysine leads to remodeling of amino acid side-chain interactions between the UBE2E1 active site and the E2-E3 direct interface, including the so-called "linchpin" residue conserved in RING E3s and required for ubiquitination. The findings of our work support the notion that substrate lysine activation of an E2-E3-connecting allosteric path may trigger catalytic activity and contribute to the understanding of specific lysine targeting by ubiquitin-conjugating E2s.
Highlights
The E3 ubiquitin-protein ligase TRIM21, of the RINGcontaining tripartite motif (TRIM) protein family, is a major autoantigen in autoimmune diseases and a modulator of innate immune signaling
TRIM21 ␣ and  isoforms are identical within the TRIM21 RING fragment used in the complex crystal structure
We present the crystal structure of a TRIM21– ubiquitin-conjugating enzyme E2 E1 (UBE2E1) complex comprising the TRIM21 RING domain
Summary
We here report a 2.82-Acrystal structure of the human TRIM21 RING domain in complex with the human E2-conjugating UBE2E1 enzyme, in which a ubiquitin-targeted TRIM21 substrate lysine was captured in the UBE2E1 active site. Remodeling of amino acid side-chain interactions between the UBE2E1 active site and the E2–E3 direct interface, including the so-called “linchpin” residue conserved in RING E3s and required for ubiquitination. Inactive modules can assist in positioning specific acceptor lysines from substrates into the E2 active site, placing substrate specificity partly outside of the direct E2–substrate interaction [34, 37] and for human PCNA have been shown to support an alternate substrate entry path for SUMOylation [33]. We show how the presence of an acceptor lysine at the E2 active site confers substrate-induced conformational changes that extend to the E2–E3 direct interface, and we propose a model for how this could activate linchpin-mediated ubiquitination
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