Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P11021 (
BiP
)
2,049
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study we have explored the endoplasmic reticulum associated events accompanying the maturation of the tyrosinase-related protein-1 (TRP-1) nascent chain synthesized in mouse melanoma cells. We show that TRP-1 folding process occurs much more rapidly than for
tyrosinase
, a highly homologous protein, being completed post-translationally by the formation of critical disulfide bonds. In cells pretreated with dithiothreitol (DTT), unfolded TRP-1 is retained in the endoplasmic reticulum by a prolonged interaction with calnexin and
BiP
before being targeted for degradation. The TRP-1 chain was able to fold into DTT-resistant conformations both in the presence or absence of alpha-glucosidase inhibitors, but folding occurred through different pathways. During the normal folding pathway, TRP-1 interacts with calnexin. In the presence of alpha-glucosidase inhibitors, the interaction with calnexin is prevented, with TRP-1 folding being assisted by
BiP
. In this case, the process has similar kinetics to that of untreated TRP-1 and yields a compact form insensitive to DTT as well. However, this form has different thermal denaturation properties than the native conformation. We conclude that disulfide bridge burring is crucial for the TRP-1 export. This suggests that although various folding pathways may complete this process, the native form may be acquired only through the normal unperturbed pathway.
...
PMID:Folding and maturation of tyrosinase-related protein-1 are regulated by the post-translational formation of disulfide bonds and by N-glycan processing. 1091 99
The endoplasmic reticulum (ER) quality-control machinery maintains the fidelity of the maturation process by sorting aberrant proteins for ER-associated protein degradation (ERAD), a process requiring retrotranslocation from the ER lumen to the cytosol and degradation by the proteasome. Here, we assessed the role of N-linked glycans in ERAD by monitoring the degradation of wild-type (Tyr) and albino mutant (Tyr(C85S))
tyrosinase
. Initially, mutant
tyrosinase
was established as a genuine ERAD substrate using intact melanocyte and semi-permeabilized cell systems. Inhibiting mannose trimming or accumulating Tyr(C85S) in a monoglucosylated form led to its stabilization, supporting a role for lectin chaperones in ER retention and proteasomal degradation. In contrast, ablating the lectin chaperone interactions by preventing glucose trimming caused a rapid disappearance of
tyrosinase
, initially due to the formation of protein aggregates, which were subsequently degraded by the proteasome. The co-localization of aggregated
tyrosinase
with protein disulfide isomerase and
BiP
, but not calnexin, supports an ER organization, which aids in protein maturation and degradation. Based on these studies, we propose a model of
tyrosinase
degradation in which interactions between N-linked glycans and lectin chaperones help to minimize
tyrosinase
aggregation and also target non-native substrates for retro-translocation and subsequent degradation.
...
PMID:Carbohydrates act as sorting determinants in ER-associated degradation of tyrosinase. 1516 41
Tyrosinase is a type I membrane protein regulating the pigmentation process in humans. Mutations of the human
tyrosinase
gene cause the
tyrosinase
negative type I oculocutaneous albinism (OCAI). Some OCAI mutations were shown to delete the transmembrane domain or to affect its hydrophobic properties, resulting in soluble
tyrosinase
mutants that are retained in the endoplasmic reticulum (ER). To understand the specific mechanisms involved in the ER retention of soluble
tyrosinase
, we have constructed a
tyrosinase
mutant truncated at its C-terminal end and investigated its maturation process. The mutant is retained in the ER, and it is degraded through the proteasomal pathway. We determined that the mannose trimming is required for an efficient degradation process. Moreover, this soluble ER-associated degradation substrate is stopped at the ER quality control checkpoint with no requirements for an ER-Golgi recycling pathway. Co-immmunoprecipitation experiments showed that soluble
tyrosinase
interacts with calreticulin and
BiP
/GRP78 (and not calnexin) during its ER transit. Expression of soluble
tyrosinase
in calreticulin-deficient cells resulted in the export of soluble
tyrosinase
of the ER, indicating the calreticulin role in ER retention. Taken together, these data show that OCAI soluble
tyrosinase
is an ER-associated degradation substrate that, unlike other albino tyrosinases, associates with calreticulin and
BiP
/GRP78. The lack of specificity for calnexin interaction reveals a novel role for calreticulin in OCAI albinism.
...
PMID:Soluble tyrosinase is an endoplasmic reticulum (ER)-associated degradation substrate retained in the ER by calreticulin and BiP/GRP78 and not calnexin. 1567 52
The maturation of eukaryotic secretory cargo initiates cotranslationally and cotranslocationally as the polypeptide chain emerges into the endoplasmic reticulum lumen. Here, we characterized the cotranslational maturation pathway for the human type I membrane glycoprotein
tyrosinase
. To recapitulate the cotranslational events, including glycosylation, signal sequence cleavage, chaperone binding, and oxidation, abbreviated transcripts lacking a stop codon were in vitro translated in the presence of semipermeabilized melanocyte membranes. This created a series of ribosome/translocon-arrested chains of increasing lengths, simulating intermediates in the cotranslational folding process. Initially, nascent chains were found to associate with the heat shock protein (Hsp) 70 family member
BiP
. As the nascent chains elongated and additional glycans were transferred,
BiP
binding rapidly decreased and the lectin-based chaperone system was recruited in its place. The lectin chaperone calnexin bound to the nascent chain after the addition of two glycans, and calreticulin association followed upon the addition of a third. The glycan-specific oxidoreductase ERp57 was cross-linked to
tyrosinase
when calnexin and calreticulin were associated. This timing coincided with the formation of disulfide bonds within
tyrosinase
and the cleavage of its signal sequence. Therefore,
tyrosinase
maturation initiates cotranslationally with the Hsp70 system and is handed off to the lectin chaperone system that first uses calnexin before calreticulin. Interestingly, divergence in the maturation pathways of wild-type and mutant albino
tyrosinase
can already be observed for translocon-arrested nascent chains.
...
PMID:The cotranslational maturation of the type I membrane glycoprotein tyrosinase: the heat shock protein 70 system hands off to the lectin-based chaperone system. 1595 86
