TY - JOUR
T1 - Ubiquitination of serine, threonine, or lysine residues on the cytoplasmic tail can induce ERAD of MHC-I by viral E3 ligase mK3
AU - Wang, Xiaoli
AU - Herr, Roger A.
AU - Chua, Wei Jen
AU - Lybarger, Lonnie
AU - Wiertz, Emmanuel J.H.J.
AU - Hansen, Ted H.
PY - 2007/5/21
Y1 - 2007/5/21
N2 - The mechanism by which substrates for endoplasmic reticulum-associated degradation are retrotranslocated to the cytosol remains largely unknown, although ubiquitination is known to play a key role. The mouse γ-herpesvirus protein mK3 is a viral RING-CH-type E3 ligase that specifically targets nascent major histocompatibility complex I heavy chain (HC) for degradation, thus blocking the immune detection of virus-infected cells. To address the question of how HC is retrotranslocated and what role mK3 ligase plays in this action, we investigated ubiquitin conjugation sites on HC using mutagenesis and biochemistry approaches. In total, our data demonstrate that mK3-mediated ubiquitination can occur via serine, threonine, or lysine residues on the HC tail, each of which is sufficient to induce the rapid degradation of HC. Given that mK3 has numerous cellular and viral homologues, it will be of considerable interest to determine the pervasiveness of this novel mechanism of ubiquitination.
AB - The mechanism by which substrates for endoplasmic reticulum-associated degradation are retrotranslocated to the cytosol remains largely unknown, although ubiquitination is known to play a key role. The mouse γ-herpesvirus protein mK3 is a viral RING-CH-type E3 ligase that specifically targets nascent major histocompatibility complex I heavy chain (HC) for degradation, thus blocking the immune detection of virus-infected cells. To address the question of how HC is retrotranslocated and what role mK3 ligase plays in this action, we investigated ubiquitin conjugation sites on HC using mutagenesis and biochemistry approaches. In total, our data demonstrate that mK3-mediated ubiquitination can occur via serine, threonine, or lysine residues on the HC tail, each of which is sufficient to induce the rapid degradation of HC. Given that mK3 has numerous cellular and viral homologues, it will be of considerable interest to determine the pervasiveness of this novel mechanism of ubiquitination.
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U2 - 10.1083/jcb.200611063
DO - 10.1083/jcb.200611063
M3 - Article
C2 - 17502423
AN - SCOPUS:34249042608
SN - 0021-9525
VL - 177
SP - 613
EP - 624
JO - Journal of Cell Biology
JF - Journal of Cell Biology
IS - 4
ER -