Abstract
The human papilloma virus E6-associated protein (E6AP) functions as a ubiquitin protein ligase (E3) in the E6-mediated ubiquitination of p53. E6AP is also an E3 in the absence of E6, but its normal cellular substrates have not yet been identified. Here we report the identification of HHR23A, one of the human homologues of the yeast DNA repair protein Rad23, as an E6-independent target of E6AP. HHR23A binds E6AP and is ubiquitinated in vitro in an E6AP-dependent manner. Ubiquitinated forms of endogenous HHR23A are detectable in mammalian cells. Overexpression of wild-type E6AP in vivo enhances the ubiquitination of HHR23A, whereas a dominant negative E6AP mutant inhibits HHR23A ubiquitination. Although HHR23A is a stable protein in non-synchronized cells, its levels are regulated in a cell cycle-dependent manner, with specific degradation occurring during S phase. The S phase degradation of HHR23A could be blocked in vivo by dominant negative E6AP, providing direct evidence for the involvement of E6AP in the regulation of HHR23A. Consistent with a role of the HHR23 proteins in DNA repair, UV-induced DNA damage inhibited HHR23A degradation. Although the precise role of HHR23 proteins in DNA repair and cell cycle progression remains to be elucidated, our data suggest that E6AP-mediated ubiquitination of HHR23A may have important implications in DNA repair and cell cycle progression.
Highlights
Protein ubiquitination is implicated in a variety of cellular processes, including DNA repair, cell cycle control, chromosomal organization, intracellular translocation of proteins, and apoptosis [1,2,3]
HHR23A appears to be a stable protein in asynchronously growing cells, we have found that HHR23A protein levels are regulated during cell cycle progression
Using the BLAST algorithm, eight independent clones consisting of cDNA inserts of varying lengths were identified as HHR23A, one of the human homologues of the yeast DNA repair protein Rad23 [24, 26, 27]
Summary
E1, ubiquitin-activating enzyme; E2, ubiquitin-conjugating enzymes; E3, ubiquitin protein ligase; E6AP, E6associated protein; GST, glutathione S-transferase; PAGE, polyacrylamide gel electrophoresis; NER, nucleotide excision repair; WGE, wheat germ extracts; CMV, cytomegalovirus; WT, wild type; HPV, and ubiquitin protein ligases (E3s) [3]. Sequence analysis of E6AP revealed a region of approximately 350 amino acids in the carboxyl terminus that was highly conserved among a number of proteins from various organisms [15] This region, subsequently termed the HECT domain, contains a conserved cysteine residue that serves as the active site for thiol ester formation with ubiquitin [15]. In the case of Hect proteins for instance, their divergent amino-terminal sequences may prohuman papilloma virus; HA, hemagglutinin; mAb, monoclonal antibody; XP, Xeroderma pigmentosum; XPC, xeroderma pigmentosum group C. vide the necessary diversity required for substrate recognition, whereas their conserved carboxyl terminus (Hect domain) can interact with specific E2 enzymes and catalyze the ubiquitination of bound substrates (16 –18). Our data suggest that E6APmediated ubiquitination of HHR23A may be important in regulating its function in DNA repair and cell cycle progression
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