Abstract
The reaction cycle of HECT domain ubiquitin ligases consists of three steps: 1) binding of an E2 protein, 2) transfer of ubiquitin from E2 to the HECT domain, and 3) transfer of ubiquitin to the substrate. We report the identification of a determinant that is specifically required for the last step of this cycle, a phenylalanine residue located four amino acids from the C terminus of most HECT domains, referred to here as the -4F. Alteration of this residue in human E6AP and Saccharomyces cerevisae Rsp5p did not affect ubiquitin-thioester formation, but effectively blocked substrate ubiquitination. Alteration of the -4F to alanine with concomitant substitution of a nearby residue to phenylalanine only partially restored Rsp5p activity, indicating that precise spatial placement of this residue is important. C-terminally extended E6AP and Rsp5p proteins were also defective for substrate ubiquitination, providing a likely biochemical understanding of a previously isolated Angelman syndrome-associated mutation of E6AP that alters the stop codon of an otherwise wild-type gene. We propose that the -4F may play a role in orienting ubiquitin when it is tethered to the HECT active site cysteine. This may be necessary to allow for approach of the incoming lysine epsilon-amino group of the substrate.
Highlights
The best characterized function of protein ubiquitination is as a recognition signal for the 26 S proteasome [1]
We show here that Ϫ4F is the only determinant within the last six amino acids that is required for the final step in catalysis of substrate ubiquitination by both human E6AP and yeast Rsp5p, that its precise positioning is critical to function, and that C-terminal extensions to the HECT domain result in a similar biochemical defect as alterations of the Ϫ4F
The results presented here establish that the conserved Ϫ4F, near the C terminus of the HECT domain, plays an essential role in promoting substrate ubiquitination
Summary
Ubiquitin-conjugating proteins; HPV, human papillomavirus; GST, glutathione S-transferase; DTT, dithiothreitol; AS, Angelman syndrome. The most likely source of flexibility is the unstructured loop that connects the HECT domain N lobe (the base of the U) with the C lobe (one arm of the U) that contains the active site cysteine This is strongly supported by a more recent x-ray crystal structure of a second HECT domain, that of the WWP1 protein [20]. We show here that Ϫ4F is the only determinant within the last six amino acids that is required for the final step in catalysis of substrate ubiquitination by both human E6AP and yeast Rsp5p, that its precise positioning is critical to function, and that C-terminal extensions to the HECT domain result in a similar biochemical defect as alterations of the Ϫ4F. We present a model for the possible function of the Ϫ4F in promoting substrate ubiquitination
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