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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)
Interferon regulatory factor-1(IRF-1) is a transcriptional activator of
interferon
genes and interferon-inducible genes. It has been shown that IRF-1 functions not only as a regulator of the
interferon
-responsive system but also as a regulator of cell growth and apoptosis. In addition, it is known that IRF-1 is a short-lived protein, but the mechanism that regulates its stability has not yet been clarified. Here, we show that IRF-1 is degraded via the ubiquitin-
proteasome
pathway. IRF-1 protein degradation in HeLa and NIH3T3 cells was inhibited by treatment with
proteasome
-specific inhibitors. Overexpression of IRF-1 protein and ubiquitin in COS7 cells revealed specific multiubiquitination of IRF-1. Although the full-length IRF-1 was unstable, IRF-1 mutants with C-terminal truncations larger than 39 amino acids were found to be almost stable, suggesting that the 39-residue C-terminal region controls the stability of IRF-1. Further analysis of the stability of a green fluorescent protein-fusion protein containing the 39-residue C-terminal region of IRF-1 showed that this C-terminal region confers instability on green fluorescent protein, a normally stable protein, suggesting that this region functions as a protein-degradation signal. Taking the results together, it can be concluded that the 39-residue C-terminal region is necessary and sufficient to control the stability of the IRF-1 protein.
...
PMID:Degradation of transcription factor IRF-1 by the ubiquitin-proteasome pathway. The C-terminal region governs the protein stability. 1071 99
STAT1 and STAT2 are cellular transcription factors involved in
interferon
(
IFN
) signaling and are thus critical for the
IFN
-induced antiviral state. We have previously shown that the paramyxovirus Simian Virus 5 (SV5) blocks both type I and type II interferon (
IFN
) signaling by targeting STAT1 for
proteasome
-mediated degradation. To determine whether this is a feature common to all Paramyxoviridae, we examined the abilities of SV5, Sendai virus (SeV), human respiratory syncytial virus (RSV), and human parainfluenza viruses types 2 and 3 (hPIV2 and hPIV3, respectively) to block
interferon
signaling. The results showed that in reporter assays SV5, SeV, and hPIV3 blocked both type I and type II
IFN
-signaling; hPIV2 blocked type I but not type II
IFN
-signaling; and RSV failed to block either type I or type II
IFN
-signaling. In agreement with these results, SV5 and SeV inhibited the formation of the ISGF3 and GAF transcription complexes (essential for type I and type II signaling, respectively). Surprisingly, although hPIV3 inhibited
IFN
-induction of the ISGF3 complex, GAF complexes were detected in hPIV3-infected cells. hPIV2 also blocked the formation of the ISGF3 complex but not the GAF complex, whereas RSV failed to block the induction of either complex. SV5 was the only virus that caused the degradation of STAT1. Indeed, in SeV- and hPIV3-infected cells STAT1 was phosphorylated on tyrosine 701 (Y701), a characteristic of
IFN
receptor activation. However, consistent with these viruses blocking
IFN
signaling downstream of receptor activation, there was a specific reduction in the levels of serine 727 (S727)-phosphorylated forms of STAT1alpha in SeV- and hPIV3-infected cells. In contrast both (Y701)- and (S727)-phosphorylated forms of STAT1 were detected in hPIV2-infected cells but there was a specific loss of STAT2. Both STAT1 (including Y701- and S727-phosphorylated forms) and STAT2 could readily be detected in RSV-infected cells. Despite not being able to block type I or type II
IFN
signaling, RSV was able to replicate in human cells that produce and respond to
IFN
, suggesting that RSV must have an alternative method(s) for circumventing the
IFN
response. These results demonstrate that, although interference with
IFN
signaling is a common strategy among Paramyxovirinae, distinct virus-specific mechanisms are used to achieve this end.
...
PMID:Paramyxoviridae use distinct virus-specific mechanisms to circumvent the interferon response. 1075 17
We have previously shown that the obligate intracellular pathogen chlamydia can suppress
interferon
(
IFN
)-gamma-inducible major histocompatibility complex (MHC) class II expression in infected cells by degrading upstream stimulation factor (USF)-1. We now report that chlamydia can also inhibit both constitutive and IFN-gamma-inducible MHC class I expression in the infected cells. The inhibition of MHC class I molecule expression correlates well with degradation of RFX5, an essential downstream transcription factor required for both the constitutive and IFN-gamma-inducible MHC class I expression. We further demonstrate that a lactacystin-sensitive
proteasome
-like activity identified in chlamydia-infected cell cytosolic fraction can degrade both USF-1 and RFX5. This
proteasome
-like activity is dependent on chlamydial but not host protein synthesis. Host preexisting proteasomes may not be required for the unique
proteasome
-like activity. These observations suggest that chlamydia-secreted factors may directly participate in the
proteasome
-like activity. Efforts to identify the chlamydial factors are underway. These findings provide novel information on the molecular mechanisms of chlamydial evasion of host immune recognition.
...
PMID:Degradation of transcription factor RFX5 during the inhibition of both constitutive and interferon gamma-inducible major histocompatibility complex class I expression in chlamydia-infected cells. 1079 Apr 27
Nmi is an
interferon
(
IFN
)-inducible protein homologous to
IFN
-inducible protein IFP 35. The homology consists of a novel Nmi/IFP 35 domain (NID) of 90-92 amino acids that is repeated in tandem in each protein and mediates Nmi-Nmi protein interactions and subcellular localization. In a yeast two-hybrid screen with a fragment of Nmi protein containing both NIDs, we identified an interaction between Nmi and IFP 35. Deletion derivatives of the proteins indicate that both NIDs are required for the interaction between Nmi and IFP 35. In mammalian cells, Nmi and IFP 35 co-immunoprecipitate and co-localize in large cytoplasmic speckles. Nmi and IFP 35 proteins associate into a high molecular mass complex of 300-400 kDa as determined by native gel electrophoresis and gel filtration. The association of Nmi and IFP 35 into a complex can be demonstrated in multiple cell lines and is not dependent on treatment with
IFN
. Short term and long term cultures of transfected HEK293 cells suggest that Nmi and IFP 35 proteins stabilize each other through complex formation. IFP 35 appears to be more labile because Nmi was stable in the absence of IFP 35, whereas IFP 35 was degraded in the absence of Nmi. A deletion analysis revealed that Nmi must interact with IFP 35 to prevent its degradation and that the amino terminus of Nmi is required, but not sufficient, for this function. Inhibition of the
proteasome
, but not other proteases, led to increased levels of IFP 35. Thus, we have shown that Nmi and IFP 35 associate into a protein complex, that IFP 35 is degraded in a
proteasome
-mediated process, and that a novel function of Nmi is to prevent IFP 35 degradation. The stabilization of IFP 35 by Nmi may serve to amplify the physiologic effects of IFNs.
...
PMID:Interferon-inducible Myc/STAT-interacting protein Nmi associates with IFP 35 into a high molecular mass complex and inhibits proteasome-mediated degradation of IFP 35. 1095 Sep 63
In murine tumor cell lines, downregulation of MHC class I surface expression has been frequently detected, but the underlying molecular mechanisms of such deficiencies have not been defined. In this study, murine tumor cell lines of different histology derived from spontaneous or from chemical-induced tumors were analyzed for the expression of multiple components of the major histocompatibility complex (MHC) class I antigen-processing machinery (APM), including the peptide transporter TAP, the
interferon
(
IFN
)-gamma inducible
proteasome
subunits and several chaperones. The tumor cell lines analyzed demonstrated a heterogeneous expression pattern of various APM components. In comparison to control cells an impaired coordinated expression of at least three APM components was detected. In particular, extensive APM deficiencies were found in cell lines derived from chemical-induced tumors. A strong coordinated downregulation of expression and/or function of TAP, the low molecular weight proteins (LMP) subunits, the
proteasome
activator PA28 and/or tapasin was found in 5 of 10 tumor cells, which was associated with impaired MHC class I surface expression. In contrast, the expression of beta2-microglobulin (beta2-m), PA28beta, the constitutive
proteasome
subunits X, Y, Z and of the chaperones calnexin, calreticulin, ER60 and phospho disulfide isomerase (PDI) was unaltered or only weakly decreased. The deficient expression of APM components could be corrected by IFN-gamma treatment, which also reconstituted MHC class I surface expression. However, impaired expression of APM molecules appears not to be the only cause of abnormal MHC class I expression, since it could neither be corrected by the addition of exogeneous MHC class I binding peptides nor by incubation at low temperature. These results suggest that one major mechanism of murine tumor cells, in particular chemical-induced tumors, to evade the immune system is the combined dysregulation of various APM components and other factors, which still have to be identified.
...
PMID:Coordinate downregulation of multiple MHC class I antigen processing genes in chemical-induced murine tumor cell lines of distinct origin. 1109 32
PA28 is an
interferon
(gamma) (IFN(gamma)) inducible
proteasome
activator required for presentation of certain major histocompatibility (MHC) class I antigens. Under basal conditions in HeLa and Hep2 cells, a portion of nuclear PA28 is concentrated at promyelocytic leukemia oncoprotein (PML)-containing bodies also commonly known as PODs or ND10. IFN(gamma) treatment greatly increased the number and size of the PA28- and PML-containing bodies, and the effect was further enhanced in serum-deprived cells. PML bodies are disrupted in response to certain viral infections and in diseases such as acute promyelocytic leukemia (APL). Like PML, PA28 was delocalized from PML bodies by expression of the cytomegalovirus protein, IE1, and in NB4 cells, an APL model line. Moreover, retinoic acid treatment, which causes remission of APL in patients and reformation of PML-containing bodies in NB4 cells, relocalized PA28 to this site. In contrast, the
proteasome
, the functional target of PA28, was not detected at PML bodies under basal conditions in HeLa and Hep2 cells, but IFN(gamma) promoted accumulation of 'immunoproteasomes' at this site. These results establish PA28 as a novel component of nuclear PML bodies, and suggest that PA28 may assemble or activate immunoproteasomes at this site as part of its role in
proteasome
-dependent MHC class I antigen presentation.
...
PMID:Interferon gamma regulates accumulation of the proteasome activator PA28 and immunoproteasomes at nuclear PML bodies. 1111 87
Bone resorption is regulated by the immune system, where T-cell expression of RANKL (receptor activator of nuclear factor (NF)-kappaB ligand), a member of the tumour-necrosis factor family that is essential for osteoclastogenesis, may contribute to pathological conditions, such as autoimmune arthritis. However, whether activated T cells maintain bone homeostasis by counterbalancing the action of RANKL remains unknown. Here we show that T-cell production of
interferon
(
IFN
)-gamma strongly suppresses osteoclastogenesis by interfering with the RANKL-RANK signalling pathway. IFN-gamma induces rapid degradation of the RANK adapter protein, TRAF6 (tumour necrosis factor receptor-associated factor 6), which results in strong inhibition of the RANKL-induced activation of the transcription factor NF-kappaB and JNK. This inhibition of osteoclastogenesis is rescued by overexpressing TRAF6 in precursor cells, which indicates that TRAF6 is the target critical for the IFN-gamma action. Furthermore, we provide evidence that the accelerated degradation of TRAF6 requires both its ubiquitination, which is initiated by RANKL, and IFN-gamma-induced activation of the ubiquitin-
proteasome
system. Our study shows that there is cross-talk between the tumour necrosis factor and
IFN
families of cytokines, through which IFN-gamma provides a negative link between T-cell activation and bone resorption. Our results may offer a therapeutic approach to treat the inflammation-induced tissue breakdown.
...
PMID:T-cell-mediated regulation of osteoclastogenesis by signalling cross-talk between RANKL and IFN-gamma. 1111 29
In mammalian cells proteasomes can be activated by two different types of regulatory complexes which bind to the ends of the
proteasome
cylinder. Addition of two 19 S (PA700; ATPase) complexes forms the 26 S
proteasome
, which is responsible for ATP-dependent non-lysosomal degradation of intracellular proteins, whereas 11 S complexes (PA28; REG) have been implicated in antigen processing. The PA28 complex is upregulated in response to gamma-
interferon
(gamma-IFN) as are three non-essential subunits of the 20 S
proteasome
. In the present study we have investigated the effects of gamma-IFN on the level of different
proteasome
complexes and on the phosphorylation of
proteasome
subunits. After treatment of cells with gamma-IFN, the level of 26 S proteasomes decreased and there was a concomitant increase in PA28-
proteasome
complexes. However, no free 19 S regulatory complexes were detected. The majority of the gamma-IFN-inducible
proteasome
subunits LMP2 and LMP7 were present in PA28-
proteasome
complexes, but these subunits were also found in 26 S proteasomes. The level of phosphorylation of both 20 S and 26 S
proteasome
subunits was found to decrease after gamma-IFN treatment of cells. The C8 alpha subunit showed more than a 50% decrease in phosphorylation, and the phosphorylation of C9 was only barely detectable after gamma-IFN treatment. These results suggest that association of regulatory components to 20 S proteasomes is regulated, and that phosphorylation of
proteasome
alpha subunits may be one mode of regulation.
...
PMID:gamma-Interferon decreases the level of 26 S proteasomes and changes the pattern of phosphorylation. 1113 93
Major histocompatibility complex (MHC) class I-restricted cytotoxic T lymphocytes (CTLs) clear respiratory tract infections caused by the pneumovirus respiratory syncytial virus (RSV) and also mediate vaccine-induced pulmonary injury. Herein we examined the mechanism for RSV-induced MHC class I presentation. Like infectious viruses, conditioned medium from RSV-infected cells (RSV-CM) induces naive cells to coordinately express a gene cluster encoding the transporter associated with antigen presentation 1 (TAP1) and low molecular mass protein (LMP) 2 and LMP7. Neutralization of RSV-CM with antibodies to
interferon
(
IFN
)-beta largely blocked TAP1/LMP2/LMP7 expression, whereas anti-interleukin-1 antibodies were without effect, and recombinant IFN-beta increased TAP1/LMP2/LMP7 expression to levels produced by RSV-CM. LMP2, LMP7, and TAP1 expression were required for MHC class I upregulation because the irreversible proteasome inhibitor lactacystin or transfection with a competitive TAP1 inhibitor blocked inducible class I expression. We conclude that RSV infection coordinately increases MHC class I expression and
proteasome
activity through the paracrine action of IFN-beta to induce expression of the TAP1/LMP2/LMP7 locus, an event that may be important in the initiation of CTL-mediated lung injury.
...
PMID:IFN-beta mediates coordinate expression of antigen-processing genes in RSV-infected pulmonary epithelial cells. 1115 3
Human tumor cells frequently exhibit abnormalities in the major histocompatibility complex (MHC) class I surface expression which can be due to structural alterations and/or dysregulation of various components of the MHC class I antigen processing machinery, such as HLA class I heavy and light chains, the peptide transporter and the
proteasome
subunits. Although several cofactors critical for proper MHC class I assembly have been identified, their contribution to the immune escape phenotype of tumor cells has not been analyzed. In order to determine whether tapasin deficits are an integral part of immune escape mechanisms of human tumors, we studied the constitutive and cytokine-regulated expression pattern of tapasin in malignant cells of distinct histology. Heterogeneous and reduced expression levels of tapasin were found in small-cell lung carcinoma, pancreatic carcinoma, colon carcinoma, head an neck squamous cell carcinoma and renal cell carcinoma cell lines. Tapasin downregulation was also prominent in surgically removed tumor lesions when compared to normal controls. The impaired tapasin expression is often associated with low MHC class I cell surface expression. In addition, various cytokines, including
interferon
(
IFN
)-alpha, IFN-gamma, tumor necrosis factor (TNF)-alpha and interleukin (IL)-4, but not granulocyte-macrophage colony stimulating factor (GM-CSF), transcriptionally upregulate to a distinct extent and in a time-dependent manner tapasin expression in tumor cells. Thus, deficient tapasin expression appears to be a frequent event in human tumor cells. Its restoration by cytokines further suggests that impaired tapasin expression in tumors is rather due to dysregulation than to structural alterations.
...
PMID:Downregulation of the constitutive tapasin expression in human tumor cells of distinct origin and its transcriptional upregulation by cytokines. 1116 57
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