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Target Concepts:
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Query: EC:3.4.25.1 (
proteasome
)
28,817
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It has recently been shown that the high-risk human papillomavirus (HPV) E6 proteins can target the PDZ-domain containing proteins, Dlg, MUPP-1, MAGI-1 and
hScrib
for
proteasome
-mediated degradation. However, the E6 proteins from HPV-16 and HPV-18 (the two most common high-risk virus types) differ in their ability to target these proteins in a manner that correlates with their malignant potential. To investigate the underlying mechanisms for this, we have mutated HPV-16 and HPV-18 E6s to give each protein the other's PDZ-binding motif. Analysis of these mutants shows that the greater ability of HPV-18 E6 to bind to these proteins and to target them for degradation is indeed due to a single amino acid difference. Using a number of assays, we show that the E6 proteins interact specifically with only one of the five PDZ domains of MAGI-1, and this is the first interaction described for this particular PDZ domain. We also show that the guanylate kinase homology domain and the regions of MAGI-1 downstream of amino acid 733 are not required for the degradation of MAGI-1. Finally, in a series of comparative analyses, we show that the degradation of MAGI-1 occurs through a different mechanism from that used by the E6 protein to induce the degradation of Dlg and p53.
...
PMID:HPV E6 and MAGUK protein interactions: determination of the molecular basis for specific protein recognition and degradation. 1157 40
The group of mucosal epithelia-infecting human papillomaviruses (HPV) can be subdivided in "low" and "high risk" HPV types. Both types induce benign neoplasia (condyloma), but only the infection with a "high risk" HPV type is causally associated with an increased risk of developing anogenital tumors. The oncogenic potential of high risk HPVs resides at least partially in the viral E6 protein. The E6 protein targets the cellular p53 protein for
proteasome
-dependent degradation, which is associated with the immortalizing and transforming functions of these viruses. Recently the E6-dependent
proteasome
-mediated destabilization of additional cellular proteins (E6TP1, c-myc, Bak, hMCM7, human
scribble
, E6AP, MAGI-1) has been described, but the cellular mechanisms controlling the viral E6 protein stability itself have been so far not analyzed. In this study, we transiently expressed the E6 genes of the high risk HPV type 16, the low risk HPV types 6a and 11, and the cutaneous epithelia-infecting HPV types 5 and 8 from a eucaryotic expression vector and compared the cellular steady-state levels of the expressed E6 proteins. We demonstrated that the high risk HPV 16 E6 protein possesses the lowest steady-state level in comparison to the low risk HPV type E6 proteins and the cutaneous epithelia-infecting HPV type E6 proteins. Inhibition of cellular
proteasome
-dependent protein degradation led to an increase in steady-state levels of high risk but not of low risk E6 proteins. Analysis of functionally deficient HPV 16 E6 proteins in p53 null- and p53 wild-type-expressing cell lines revealed that the cellular steady-state level of this protein is influenced neither by its p53- nor its E6AP-binding abilities.
...
PMID:Cellular steady-state levels of "high risk" but not "low risk" human papillomavirus (HPV) E6 proteins are increased by inhibition of proteasome-dependent degradation independent of their p53- and E6AP-binding capabilities. 1216 43
The E6 proteins of the high-risk Human papillomaviruses (HPV) types have a well-documented ability to target certain cellular proteins for ubiquitin-mediated degradation via the
proteasome
. Previous studies have shown that E6 proteins interact differently with different target proteins, and that the viral proteins, depending upon the target, may recruit diverse cellular ubiquitin-protein ligases. In this study, we have examined the abilities of E6 proteins from HPV-16 and HPV-18 to interact with and induce the degradation of two PDZ domain-containing targets, Dlg and
hScrib
. We have also mapped the binding site of E6 on
hScrib
and shown that the interaction of E6 with
hScrib
is distinct from its interactions with other PDZ domain-containing targets. This is reflected in the efficiency with which the two viral E6 proteins can inhibit
hScrib
's suppression of cell transformation.Dlg and
hScrib
have complementary activities in the control of epithelial cell polarity and the fact that both are targeted by high-risk HPV E6 proteins underlines their importance. Our finding that they are each targeted differently by HPV-16 and HPV-18 E 6 s suggests that the two viruses are subjected to somewhat different constraints and provides a possible explanation for the apparent redundancy in targeting both parts of this important control mechanism.
...
PMID:The hScrib/Dlg apico-basal control complex is differentially targeted by HPV-16 and HPV-18 E6 proteins. 1610 86
The PDZ proteins such as hDLG,
hScrib
and MAGIs function as the membrane-associated protein scaffolds and have been shown to interact with the high-risk human papillomavirus (HPV) E6s. In this report, we identify a Golgi-associated PDZ protein, cystic fibrosis transmembrane regulator-associated ligand (CAL) as a cellular target of HPV16 E6 by the proteomic approach. The carboxy-terminal PDZ-binding motif of HPV16 E6 specifically interacts with the PDZ domain of CAL, and the interaction enhances
proteasome
-mediated degradation of CAL. HPV16 E6 interacts with CAL more strongly and degrades it better than HPV18 E6 owing to the more compatible PDZ-binding motif. CAL is ubiquitinated by the E6/E6-associated protein (E6AP) complex or by E6AP alone, albeit less efficiently, which indicates that it could be a normal target of E6AP. Although it downregulates CAL at the transcript level, small interfering RNA-induced depletion of HPV16 E6 in Caski cells stabilizes CAL at the protein level, suggesting that HPV16 E6 mediates the proteasomal degradation of CAL in HPV-positive cervical cancer cells. HPV16 E6 may tightly regulate the vesicular trafficking processes by interacting with CAL, and such a modification can contribute to the development of cervical cancer.
...
PMID:Human papillomavirus type 16 E6 protein interacts with cystic fibrosis transmembrane regulator-associated ligand and promotes E6-associated protein-mediated ubiquitination and proteasomal degradation. 1687 51
A unique feature of the cancer-causing mucosotropic human papillomaviruses (HPVs) is the ability of their E6 proteins to interact with a number of PDZ domain-containing cellular substrates, including the cell polarity regulators hDlg and
hScrib
. These interactions are essential for the ability of these viruses to induce malignant progression. Rhesus papillomaviruses (RhPV) are similar to their human counterparts in that they also cause anogenital malignancy in their host, the Rhesus Macaque. However, unlike HPV E6, the RhPV E6 has no PDZ-binding motif. We now show that such a motif is present on the RhPV E7 oncoprotein. This motif specifically confers PDZ-binding activity and directs the interaction of RhPV E7 with the cell polarity regulator Par3, which it targets for
proteasome
-mediated degradation. These results demonstrate an amazing evolutionary conservation of function between the RhPV and the HPV oncoproteins, where both target proteins of the same cell polarity control network, although through different components and pathways.
...
PMID:Human and primate tumour viruses use PDZ binding as an evolutionarily conserved mechanism of targeting cell polarity regulators. 1882 Jul 5
High-risk human papillomaviruses (HPV) cause certain anogenital and head and neck cancers. E6, one of three potent HPV oncogenes that contribute to the development of these malignancies, is a multifunctional protein with many biochemical activities. Among these activities are its ability to bind and inactivate the cellular tumor suppressor p53, induce expression of telomerase, and bind to various other proteins, including Bak, E6BP1, and E6TP1, and proteins that contain PDZ domains, such as
hScrib
and hDlg. Many of these activities are thought to contribute to the role of E6 in carcinogenesis. The interaction of E6 with many of these cellular proteins, including p53, leads to their destabilization. This property is mediated at least in part through the ability of E6 to recruit the ubiquitin ligase E6-associated protein (E6AP) into complexes with these cellular proteins, resulting in their ubiquitin-mediated degradation by the
proteasome
. In this study, we address the requirement for E6AP in mediating acute and oncogenic phenotypes of E6, including induction of epithelial hyperplasia, abrogation of DNA damage response, and induction of cervical cancer. Loss of E6AP had no discernible effect on the ability of E6 to induce hyperplasia or abrogate DNA damage responses, akin to what we had earlier observed in the mouse epidermis. Nevertheless, in cervical carcinogenesis studies, there was a complete loss of the oncogenic potential of E6 in mice nulligenic for E6AP. Thus, E6AP is absolutely required for E6 to cause cervical cancer.
...
PMID:E6-associated protein is required for human papillomavirus type 16 E6 to cause cervical cancer in mice. 2053 Jun 88
The E6 protein from high-risk human papillomaviruses appears necessary for persistence of viral episomes in cells but the underlying mechanism is unclear. E6 has many activities, including its ability to bind and degrade PDZ domain-containing proteins, such as
hScrib
. However little is known about the role of these interactions for E6 function and the viral life cycle. We now show that the levels of expression of wild-type E6 are increased in the presence of
hScrib
whilst a mutant E6 protein lacking the PDZ-binding motif is found at lower levels as it is turned over more rapidly by the
proteasome
. This correlates with an inability of genomes containing this mutation to be maintained as episomes. These results show that E6 association with certain PDZ domain-containing proteins can stabilize the levels of E6 expression and provides one explanation as to how the PDZ-binding capacity of E6 might contribute to genome episomal maintenance.
...
PMID:Stabilization of HPV16 E6 protein by PDZ proteins, and potential implications for genome maintenance. 2148 88
Although the prognosis of uterine cervical cancer has improved due to the advances of treatment modalities, survival of recurrent or metastatic cervical cancer remains poor. Cisplatin is an effective radiosensitizer, but its single agent activity in recurrent cervical cancer is disappointing. Inactivation of tumor suppressors through ubiquitin-mediated degradation by human papillomavirus is known to be a critical step in the carcinogenesis of uterine cervix. Bortezomib, a selective inhibitor of the
proteasome
, has been shown to inhibit the growth of several solid tumors. To determine the role of bortezomib in cervical cancer as a chemotherapeutic agent, we studied its biological properties. Bortezomib efficiently inhibited the proteasomal activities in cervical cancer cells, and an increased expression of tumor suppressors such as p53, hDlg and
hScrib
became evident. In addition, sequential or concomitant treatment of bortezomib and cisplatin stimulated the expression of p53,
hScrib
and p21 and the stimulation was markedly influenced by the order of drugs in HeLa cells. We further confirmed that the concomitant use of bortezomib and cisplatin has synergistic inhibitory effects on the growth of xenograft tumors derived from HeLa cells. Our data establish the possibility that the concomitant use of bortezomib and cisplatin could be an alternative choice in cases resistant to conventional chemotherapy, and sequential effects must be considered for advanced and therapy-resistant cervical cancer patients.
...
PMID:Sequential effects of the proteasome inhibitor bortezomib and chemotherapeutic agents in uterine cervical cancer cell lines. 2306 81
Treatment of recurrent or advanced cervical cancer is still limited, and new therapeutic choices are needed for improving prognosis and quality of life of patients. Because human papilloma virus (HPV) infection is critical in cervical carcinogenesis, with the E6 and E7 oncogenes of HPV degrading tumor suppressor proteins through the ubiquitin
proteasome
system, the inhibition of the ubiquitin
proteasome
system appears to be an ideal target to suppress the growth of cervical tumors. Herein, we focused on the ubiquitin proteasome inhibitor MG132 (carbobenzoxy-Leu-Leu-leucinal) as an anticancer agent against cervical cancer cells, and physically incorporated it into micellar nanomedicines for achieving selective delivery to solid tumors and improving its in vivo efficacy. These MG132-loaded polymeric micelles (MG132/m) showed strong tumor inhibitory in vivo effect against HPV-positive tumors from HeLa and CaSki cells, and even in HPV-negative tumors from C33A cells. Repeated injection of MG132/m showed no significant toxicity to mice under analysis by weight change or histopathology. Moreover, the tumors treated with MG132/m showed higher levels of tumor suppressing proteins,
hScrib
and p53, as well as apoptotic degree, than tumors treated with free MG132. This enhanced efficacy of MG132/m was attributed to their prolonged circulation in the bloodstream, which allowed their gradual extravasation and penetration within the tumor tissue, as determined by intravital microscopy. These results support the use of MG132 incorporated into polymeric micelles as a safe and effective therapeutic strategy against cervical tumors.
...
PMID:Enhanced efficacy against cervical carcinomas through polymeric micelles physically incorporating the proteasome inhibitor MG132. 2698 71
