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:P62988 (
Ubiquitin
)
4,326
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The 26 S proteasome is a large protease complex that catalyzes the degradation of both native and misfolded proteins. These proteins are known to interact with PA700, the regulatory subcomplex of the 26 S proteasome, via a covalently attached
polyubiquitin
chain. Here we provide evidence for an additional ubiquitin-independent mode of substrate recognition by PA700. PA700 prevents the aggregation of three incompletely folded, nonubiquitinated substrates: the DeltaF-508 mutant form of
cystic fibrosis
transmembrane regulator, nucleotide binding domain 1, insulin B chain, and citrate synthase. This function does not require ATP hydrolysis. The stoichiometry required for this function, the effect of PA700 on the lag phase of aggregation, and the temporal specificity of PA700 in this process all indicate that PA700 interacts with a subpopulation of non-native conformations that is either particularly aggregation-prone or nucleates misassociation reactions. The inhibition of off-pathway self-association reactions is also reflected in the ability of PA700 to promote refolding of citrate synthase. These results provide evidence that, in addition to binding
polyubiquitin
chains, PA700 contains a site(s) that recognizes and interacts with misfolded or partially denatured polypeptides. This feature supplies an additional level of substrate specificity to the 26 S proteasome and a means by which substrates are maintained in a soluble state until refolding or degradation is complete.
...
PMID:Recognition of misfolding proteins by PA700, the regulatory subcomplex of the 26 S proteasome. 1068 37
For effective gene therapy of chronic disease, persistent transgene expression at therapeutic levels is required. Clinical studies of airway gene transfer in patients with
cystic fibrosis
(CF) have resulted in short-lived transgene expression. We used intra-nasal dosing of naked plasmid DNA to the murine lung as a model for investigating the duration of airway gene transfer from a series of reporter expression plasmids. Transgene expression was transient when mediated by the viral promoters CMV, RSV and SV40, falling to less than 10% of peak expression after 2 weeks, although the presence of the adenoviral E4ORF3 gene in cis, resulted in extended duration of reporter activity from the CMV promoter. Transient expression from these promoters was not due to loss of the vector as determined by quantitative TaqMan PCR analysis. However, use of the promoters from the human polybiquitin C (
UbC
) and the elongation factor 1alpha (EF1alpha) genes resulted in persistent gene expression in the mouse lung. The
UbC
promoter directed high-level reporter activity which was maintained for up to 8 weeks and was still detectable 6 months after a single administration. Such persistent airway transgene expression from a nonviral vector without the concomitant expression of a potential antigen has not been reported previously. Thus, despite the persistence of vector DNA in vivo, attenuation of promoter function may lead to silencing of transgene expression and careful selection of promoter sequences is recommended for in vivo gene transfer.
...
PMID:Increased persistence of lung gene expression using plasmids containing the ubiquitin C or elongation factor 1alpha promoter. 1170 14
DeltaF508 cystic fibrosis transmembrane conductance regulator (CFTR) degradation involves ubiquitin modification and efficient proteasomal targeting of the nascent misfolded protein. We show that a deubiquitinating enzyme, ubiquitin C-terminal hydrolase-L1 (UCH-L1), is highly expressed in
cystic fibrosis
(CF) airway epithelial cells in vitro and in vivo. We hypothesized that the elevation in UCH-L1 in CF cells represents a cellular adaptation to counterbalance excessive proteasomal degradation. The bronchial epithelial cell lines IB3-1 (CF, high UCH-L1 expression) and S9 (non-CF, low UCH-L1 expression) were transiently transfected with wild type (WT) or DeltaF508 CFTR, WT UCH-L1 or small interfering RNA-UCH-L1, and a variety of ubiquitin mutants. We observed a positive correlation between UCH-L1 expression and steady state levels of WT- or DeltaF508-CFTR, and this stabilizing effect was confined to the early stages of CFTR synthesis. Immunolocalization of UCH-L1 by confocal microscopy revealed a partial co-localization with a ribosomal subunit and the endoplasmic reticulum. The UCH-L1-associated increase in CFTR levels was correlated with an increase in ubiquitinated CFTR (CFTR-Ub). Co-transfection with mutant ubiquitins and treatment with proteasome inhibitors suggested that UCH-L1 was reducing the proteasomal targeting of CFTR during synthesis by shortening conjugated
polyubiquitin
chains. Although not sufficient by itself to rescue mutant CFTR therapeutically, the elevation of UCH-L1 and its effect on CFTR processing provides insight into its potential roles in CF and other diseases.
...
PMID:Ubiquitin C-terminal hydrolase-L1 protects cystic fibrosis transmembrane conductance regulator from early stages of proteasomal degradation. 2014 97
The
Cystic Fibrosis
Transmembrane Conductance Regulator (CFTR) is a cyclic AMP-regulated chloride channel that plays an important role in regulating the volume of the lung airway surface liquid, and thereby mucociliary clearance and elimination of pathogens from the lung. In epithelial cells, cell surface CFTR abundance is determined in part by regulating both CFTR endocytosis from the apical plasma membrane and recycling back to the plasma membrane. We recently reported, using an activity-based chemical screen to identify active deubiquitinating enzymes (DUBs) in human airway epithelial cells, that
Ubiquitin
Specific Protease-10 (USP10) is located and active in the early endosomal compartment and regulates the deubiquitination of CFTR and thereby promotes its endocytic recycling. siRNA-mediated knockdown of USP10 increased the multi-ubiquitination and lysosomal degradation of CFTR and decreased the endocytic recycling and the half-life of CFTR in the apical membrane, as well as CFTR-mediated chloride secretion. Overexpression of wild-type USP10 reduced CFTR multi-ubiquitination and degradation, while overexpression of a dominant-negative USP10 promoted increased multi-ubiquitination and lysosomal degradation of CFTR. In the current study, we show localization and activity of USP10 in the early endosomal compartment of primary bronchial epithelial cells, as well as an interaction between CFTR and USP10 in this compartment. These studies demonstrate a novel function for USP10 in facilitating the deubiquitination of CFTR in early endosomes, thereby enhancing the endocytic recycling and cell surface expression of CFTR.
...
PMID:The deubiquitinating enzyme USP10 regulates the endocytic recycling of CFTR in airway epithelial cells. 2021 69
Efficient and prolonged human cystic fibrosis transmembrane conductance regulator (hCFTR) expression is a major goal for
cystic fibrosis
(CF) lung therapy. A hCFTR expression plasmid was optimized as a payload for compacted DNA nanoparticles formulated with polyethylene glycol (PEG)-substituted 30-mer lysine peptides. A codon-optimized and CpG-reduced hCFTR synthetic gene (CO-CFTR) was placed in a
polyubiquitin C
expression plasmid. Compared to hCFTR complementary DNA (cDNA), CO-CFTR produced a ninefold increased level of hCFTR protein in transfected HEK293 cells and, when compacted as DNA nanoparticles, produced a similar improvement in lung mRNA expression in Balb/c and fatty acid binding protein promoter (FABP) CF mice, although expression duration was transient. Various vector modifications were tested to extend duration of CO-CFTR expression. A novel prolonged expression (PE) element derived from the bovine growth hormone (BGH) gene 3' flanking sequence produced prolonged expression of CO-CFTR mRNA at biologically relevant levels. A time course study in the mouse lung revealed that CO-CFTR mRNA did not change significantly, with CO-CFTR/mCFTR geometric mean ratios of 94% on day 2, 71% on day 14, 53% on day 30, and 14% on day 59. Prolonged CO-CFTR expression is dependent on the orientation of the PE element and its transcription, is not specific to the
UbC
promoter, and is less dependent on other vector backbone elements.
...
PMID:Optimization of hCFTR lung expression in mice using DNA nanoparticles. 2195 68
From the moment of cotranslational insertion into the lipid bilayer of the endoplasmic reticulum (ER), newly synthesized integral membrane proteins are subject to a complex series of sorting, trafficking, quality control, and quality maintenance systems. Many of these processes are intimately controlled by ubiquitination, a posttranslational modification that directs trafficking decisions related to both the biosynthetic delivery of proteins to the plasma membrane (PM) via the secretory pathway and the removal of proteins from the PM via the endocytic pathway.
Ubiquitin
modification of integral membrane proteins (or "cargoes") generally acts as a sorting signal, which is recognized, captured, and delivered to a specific cellular destination via specialized trafficking events. By affecting the quality, quantity, and localization of integral membrane proteins in the cell, defects in these processes contribute to human diseases, including
cystic fibrosis
, circulatory diseases, and various neuropathies. This review summarizes our current understanding of how ubiquitin modification influences cargo trafficking, with a special emphasis on mechanisms of quality control and quality maintenance in the secretory and endocytic pathways.
...
PMID:Ubiquitin and membrane protein turnover: from cradle to grave. 2240 28
It is recognized that both wild-type and mutant CFTR proteins undergo ubiquitination at multiple lysines in the proteins and in one or more subcellular locations. We hypothesized that ubiquitin is added to specific sites in wild-type CFTR to stabilize it and at other sites to signal for proteolysis. Mass spectrometric analysis of wild-type CFTR identified ubiquitinated lysines 68, 710, 716, 1041, and 1080. We demonstrate that the ubiquitinated K710, K716, and K1041 residues stabilize wild-type CFTR, protecting it from proteolysis. The
polyubiquitin
linkage is predominantly K63. N-tail mutants, K14R and K68R, lead to increased mature band CCFTR, which can be augmented by proteasomal (but not lysosomal) inhibition, allowing trafficking to the surface. The amount of CFTR in the K1041R mutant was drastically reduced and consisted of bands A/B, suggesting that the site in transmembrane 10 (TM10) was critical to further processing beyond the proteasome. The K1218R mutant increases total and cell surface CFTR, which is further accumulated by proteasomal and lysosomal inhibition. Thus, ubiquitination at residue 1218 may destabilize wild-type CFTR in both the endoplasmic reticulum (ER) and recycling pools. Small molecules targeting the region of residue 1218 to block ubiquitination or to preserving structure at residues 710 to 716 might be protein sparing for some forms of
cystic fibrosis
.
...
PMID:Interference with ubiquitination in CFTR modifies stability of core glycosylated and cell surface pools. 2477 5
