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: EC:3.4.25.1 (
proteasome
)
28,817
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
proteasome
subunit DELTA is unusually closely related to the major histocompatibility complex (MHC)-linked
proteasome
subunit,
LMP2
. The sequence of a mouse cDNA for DELTA confirms that this 22,100 M(r)
proteasome
subunit is highly conserved across species. Sequence analysis of the mouse gene encoding DELTA, designated Lmp19, indicates that it consists of six exons and five introns, similar to the Lmp2 gene. The 5' upstream region lacks a TATA regulatory sequence, which is also absent from
proteasome
genes isolated from Drosophila. BXD recombinant inbred (RI) mice were used to map the potential chromosomal location of Lmp19, and revealed that the DELTA subunit has related sequences present on two different mouse chromosomes, chromosomes 1 and 11. Typing of 89 progeny from a C57BL/6J X Mus spretus DNA backcross panel (BSS) confirmed the chromosome 1 assignment. Southern hybridization with a polymerase chain reaction-generated Lmp19 intron 2-specific probe indicates that the Lmp19 genomic clone corresponds to the sequence on chromosome 11, and further suggests that the chromosome 1 copy represents a processed pseudogene (Lmp19-ps1).
...
PMID:Characterization and mapping of the gene encoding mouse proteasome subunit DELTA (Lmp19). 779 65
LMP2
is one of the two
proteasome
subunits encoded by genes in the major histocompatibility complex class II region. Here we report the genomic organization of human
LMP2
gene. Sequence analysis of polymerase chain reaction-amplified cDNA from a number of lymphoblastoid cell lines demonstrated two forms of
LMP2
mRNA, one (
LMP2
.1) complete and homologous to the published
LMP2
genomic sequence from cosmid clones, and the other (
LMP2
.s) a smaller transcript resulting from splicing of a 30-base pair fragment from the first exon. Antibodies to recombinant
LMP2
.s protein (22.3 kDa) were raised in rabbits. This anti-
LMP2
.s serum recognized both recombinant proteins (
LMP2
.1 = 23.3 kDa and
LMP2
.s = 22.3 kDa) and a single protein of 21.5 kDa molecular mass in lysates from human lymphoblastoid cell lines. Pulse-chase experiments demonstrated that
LMP2
polypeptide also undergoes processing from 22.3- to 21.5-kDa protein when incorporated into proteasomes. These data suggest that the processing of human
LMP2
subunit takes place both at the transcription and post-translational levels. Northern blot analysis showed that the
LMP2
mRNA is expressed in lymphoblastoid cell lines and in fibroblasts following gamma-interferon induction, but not in brain, smooth muscle, fibroblasts (uninduced), and colon epithelial cells.
...
PMID:Major histocompatibility-encoded human proteasome LMP2. Genomic organization and a new form of mRNA. 782 35
The B cell line 721.174 has lost the ability to present intracellular antigens to major histocompatibility complex (MHC) class I-restricted cytotoxic T lymphocytes (CTL). This phenotype results from a homozygous deletion in the MHC that includes the peptide transporter genes TAP1 and TAP2, and the
proteasome
subunits
LMP2
and LMP7. Recent work has shown that such cells transfected with TAP genes load their class I molecules with endogenous peptides, and present several viral epitopes to class I-restricted CTL. These data implied that the
LMP2
and LMP7 genes were not required for the presentation of most epitopes through class I molecules. By contrast, while confirming the previous reports, we have identified several epitopes that appear to require genes in the MHC in addition to the TAP for their presentation. Further analysis localizes the defect to proteolysis in the cytosol. In one case, presentation could be partially restored by re-expression of full-length LMP7. Control experiments with LMP7, from which the putative pro-region had been removed, failed to restore presentation, and this lack of effect correlated with failure of the shortened LMP7 to incorporate into the
proteasome
. These results suggest a role for LMP7 in the generation of a viral epitope, but leave open the possibility that additional genes within the .174 deletion are required for full restoration of antigen presentation.
...
PMID:Genes encoded in the major histocompatibility complex affecting the generation of peptides for TAP transport. 787 20
We have earlier described an alternative MHC class I processing pathway for Sendai virus (SV) in H-2Kb-transfected T2 cells (T2Kb). These cells have deleted genes for transporters associated with Ag processing (TAP1/2) and
proteasome
subunits
LMP2
/7 but can still process SV for the presentation of an immunodominant nucleoprotein CTL epitope (nucleoprotein peptide 324-332, FAPGNYPAL, SV9), even in the presence of the fungal metabolite brefeldin A (BFA). Presently we have compared live and heat-inactivated SV to investigate whether infectious virus, including early events such as binding and fusion at the host cell membrane, is important for nonclassical MHC class I processing and immunogenicity. We have found that heated virus (56 degrees C, boiled or autoclaved) with no fusion and hemagglutinin-neuraminidase activities, behaves similar to live SV in T2kb cells by entering a TAP-independent and BFA-resistant pathway. In EL-4 cells, which do not express this nonclassical TAP-independent and BFA-resistant pathway, heat-treated SV is processed in a BFA-sensitive way. In T1Kb- and TAP1/2-transfected T2Kb cells, as in T2Kb cells, processing of heat-inactivated SV was completely BFA resistant. Heat-inactivated SV was also found to prime CTLs in vivo. We conclude that heat-inactivated SV can enter both BFA-sensitive and -resistant MHC class I processing pathways and that SV in this respect may be particularly efficient. What property in the SV that is important for this characteristic is presently not clear but might be useful for the deliberate generation of CTL responses in vivo.
...
PMID:Heat-inactivated Sendai virus can enter multiple MHC class I processing pathways and generate cytotoxic T lymphocyte responses in vivo. 789 4
Recent studies have implicated proteasomes in the generation of the antigenic peptides that are presented on major histocompatibility complex class I molecules to T lymphocytes. Interferon gamma modifies the subunit composition of proteasomes and causes changes in their peptidase activities that should favor the production of peptides with hydrophobic or basic carboxyl termini (i.e., the types found on major histocompatibility complex class I molecules). It has been proposed that these changes in peptidase activity are due to incorporation into proteasomes of the major histocompatibility complex-encoded subunits
LMP2
and -7, which are induced by interferon gamma. Here we show by gene transfection into lymphoblasts or HeLa cells that LMP7 increases the capacity (Vmax) of 20S and 26S proteasomes to cleave peptides after hydrophobic and basic residues without affecting hydrolysis after acidic residues. These changes depended on the amount of LMP7 subunits incorporated into proteasomes. Transfection of
LMP2
reduced cleavage of peptides after acidic residues, increased hydrolysis after basic residues, and did not affect the hydrophobic activity. Since the activity of the total
proteasome
population changed after incorporation of only small amounts of
LMP2
or -7, these subunits must cause major alterations in peptidase activity. Thus, their expression can account for the changes in
proteasome
activity induced by inteferon gamma, and these findings lend further support to the proposed roles of LMPs in altering the nature of the peptides generated for antigen presentation.
...
PMID:Peptidase activities of proteasomes are differentially regulated by the major histocompatibility complex-encoded genes for LMP2 and LMP7. 793 44
The degradation of cytoplasmic antigens to peptides presented by class I MHC molecules is thought to be mediated by the ubiquitin/
proteasome
pathway. Support for this view came from our observation that the subunit composition of proteasomes can be changed by interferon-gamma (IFN-gamma) treatment. Thereby two subunits,
LMP2
and LMP7, which are encoded in the MHC class II region, are incorporated into the proteasomal complex, whereas other subunits disappear. In the experiments reported in this communication we studied the subunit changes occurring in cell lines where the expression of
LMP2
or LMP7 can be regulated individually either by IFN-gamma induction or by applying a new system to control the expression of transfected LMPs. In both situations
LMP2
induction leads exclusively to the disappearance of housekeeping subunit 2, whereas LMP7 affects only subunit 10. Subunit 2 was found to be 76% homologous to
LMP2
. Since incorporation of
LMP2
into the proteasomal complex prevents processing of the subunit 2 precursor, we conclude that
LMP2
displaces subunit 2 during assembly. Subunit displacement is most likely a general mechanism to modulate the catalytic activity of the proteasomal complex without changing its structure. Furthermore, the controlled incorporation of transfected subunits into the complex offers a new approach to study
proteasome
function in vivo.
...
PMID:Displacement of housekeeping proteasome subunits by MHC-encoded LMPs: a newly discovered mechanism for modulating the multicatalytic proteinase complex. 804 54
In the class II region of the major histocompatibility complex (MHC(, four genes implicated in MHC class I-mediated antigen processing have been described. Two genes (TAP1 and TAP2) code for multimembrane-spanning ATP-binding transporter proteins and two genes (
LMP2
and LMP7) code for subunits of the
proteasome
. While TAP1 and TAP2 have been shown to transport antigenic peptides from the cytosol into the endoplasmic reticulum, where the peptides associate with MHC class I molecules, the role of
LMP2
/7 in antigen presentation is less clear. Using antigen processing mutant T2 cells that lack TAP1/2 and
LMP2
/7 genes, it was recently shown that expression of TAP1/2 alone was sufficient for processing and presentation of the influenza matrix protein M1 as well as the minor histocompatibility antigen HA-2 by HLA-A2. To understand if presentation of a broader range of viral antigens occurs in the absence of
LMP2
/7, we transfected T2 cells with TAP1, TAP2 and either of the H-2Kb, Db or Kd genes and tested their ability to present vesicular stomatitis vires and influenza virus antigens to virus-specific cytotoxic T lymphocytes. We found that T2 cells, expressing TAP1/2 gene products, presented all tested viral antigens restricted through either the H-2Kb, Db or Kd class I molecules. We conclude that the
proteasome
subunits
LMP2
/7 as well as other gene products in the MHC class II region, except from TAP1/2, are not generally necessary for presentation of a broader panel of viral antigens to cytotoxic T cells. However, the present results do not exclude that
LMP2
/7 in a more subtle way may, or in rare cases completely, affect processing of antigen for presentation by MHC class I molecules.
...
PMID:Presentation of viral antigens restricted by H-2Kb, Db or Kd in proteasome subunit LMP2- and LMP7-deficient cells. 805 44
Proteasomes are the proteolytic complex responsible for major histocompatibility complex (MHC) class I-restricted antigen presentation. Interferon gamma treatment increases expression MHC-encoded
LMP2
and LMP7 subunits of the
proteasome
and decreases expression of two
proteasome
subunits, named X and Y, which alters the proteolytic specificity of proteasomes. Molecular cloning of complementary DNAs encoding X and Y showed that their proteins are proteasomal subunits with high amino acid similarity to LMP7 and
LMP2
, respectively. Thus, interferon gamma may induce subunit replacements of X and Y by LMP7 and
LMP2
, respectively, producing proteasomes perhaps more appropriate for the immunological processing of endogenous antigens.
...
PMID:cDNA cloning and interferon gamma down-regulation of proteasomal subunits X and Y. 806 62
The
proteasome
is a 700-kD multisubunit enzyme complex with several proteolytically active sites. The enzyme complex is involved in both ubiquitin-dependent and -independent protein degradation and may contribute to the processing of antigens presented by major histocompatibility complex (MHC) class I molecules. Here we demonstrate that treatment of mouse fibroblast cells with 20 U interferon gamma (IFN-gamma) for 3 d induces a change in the
proteasome
subunit composition and that the beta-type subunit
LMP2
, which is encoded in the MHC class II region, is incorporated into the enzyme complex. This is paralleled by reduction of the homologous delta-subunit. IFN-gamma stimulation results in a downregulation of the chymotrypsin-like Suc-LLVY-MCA peptide hydrolyzing activity of 20S proteasomes whereas the trypsin-like activity remains unaffected. When tested as a substrate a synthetic 25-mer polypeptide whose sequence covers the antigenic nonapeptide YPHFMPTNL of the MCMV pp89, 20S proteasomes of IFN-gamma-induced cells exhibit altered chymotrypsin-like cleavage site preferences. In the absence of IFN-gamma induction, the naturally processed nonamer peptide that is presented by MHC class I molecules appears as a minor cleavage product. IFN-gamma activation does not result in an increase of the final peptide but results in a different set of peptides. We hypothesize that these peptides represent precursor peptides that can be trimmed to final peptide size.
...
PMID:Interferon gamma stimulation modulates the proteolytic activity and cleavage site preference of 20S mouse proteasomes. 811 82
The non-essential mouse
proteasome
beta-type subunits
LMP2
and LMP7 are thought to connect proteasomes to the MHC class I antigen processing pathway. Both subunits are synthesized as proproteins. We have studied the processing of both subunits, correlated with the maturation of 20 S proteasomes in mouse T cells. Our data show that
proteasome
assembly occurs via 13-16 S precursor complexes which possess a protein pattern distinct from that of 20 S proteasomes. Both
LMP2
and LMP7 proproteins are processed within these preproteasome complexes and only their processed forms become part of active 20 S proteasomes. Our data show that the maturation and assembly of 20 S proteasomes via precursor particles is a translation-dependent gradual process, that processing of subunit proproteins takes place in these 13-16 S complexes and that subunit processing and
proteasome
formation occur together.
...
PMID:20 S proteasomes are assembled via distinct precursor complexes. Processing of LMP2 and LMP7 proproteins takes place in 13-16 S preproteasome complexes. 812 Sep 5
<< Previous
1
2
3
4
5
6
7
8
9
10
Next >>
