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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)
A proportion of familial breast cancer has recently been shown by genetic linkage analysis to map to chromosome l3q12 (Wooster et al, 1994). This locus contains a tumor suppressor gene
BRCA2
, mutations in which lead to tumorigenesis. Genetic alterations at this locus have also been shown in pancreatic adenocarcinoma and in hepatocellular carcinoma. In an effort to isolate the
BRCA2
gene, we have cloned 73 non overlapping cDNAs from a set of nine YACs spanning 6 cM interval on chromosome 13q12 by using a direct cDNA selection method. One of the selected cDNAs corresponds to a region of the 3' portion of
BRCA2
mRNA, the sequence of which was published recently (Wooster et al, 1995). Northern analysis of
BRCA2
transcripts from a variety of cell lines showed altered sizes of the mRNA in a breast cancer cell line (MCF7) and a prostate carcinoma cell line (DU145). Furthermore,
BRCA2
transcript was present in cDNA libraries from total fetus as well as adult human tissues. Fifteen unique cDNA fragments encode genes/ESTs that are already known, of which only two have been mapped to this region. The other 12 cDNAs include genes for RPL6/mRNA for TAX REB 107, elongation factor-1 delta,
26S protease
S4 regulatory subunit, small cytoplasmic 7SL RNA, a full length open reading frame (ORFU), brain thiol specific antioxidant protein, ribosomal protein, L35, and lipoxygenase activating protein. Six cDNAs represent human homologs of genes known in other species, namely, mouse HSPE71, Rat RhoGAP protein, S cerevisiae leucyl tRNA synthetase and S cerevisiae chromosome II ORF YBLO44W. The remaining 52 cDNAs showed either weak similarity or no similarity to sequences in the nucleotide data base and hence would represent novel genes. The plausible functions of some of these genes based on their sequence similarity to other known genes is discussed.
...
PMID:Isolation of expressed sequences that include a gene for familial breast cancer (BRCA2) and other novel transcripts from a five megabase region on chromosome 13q12. 870 May 50
We have isolated a holoenzyme complex termed BRCC containing BRCA1,
BRCA2
, and RAD51. BRCC not only displays increased association with p53 following DNA damage but also ubiquitinates p53 in vitro. BRCC36 and BRCC45 are novel components of the complex with sequence homology to a subunit of the signalosome and
proteasome
complexes. Reconstitution of a recombinant four-subunit complex containing BRCA1/BARD1/BRCC45/BRCC36 revealed an enhanced E3 ligase activity compared to that of BRCA1/BARD1 heterodimer. In vivo, depletion of BRCC36 and BRCC45 by the small interfering RNAs (siRNAs) resulted in increased sensitivity to ionizing radiation and defects in G2/M checkpoint. BRCC36 shows aberrant expression in sporadic breast tumors. These findings identify BRCC as a ubiquitin E3 ligase complex that enhances cellular survival following DNA damage.
...
PMID:Regulation of BRCC, a holoenzyme complex containing BRCA1 and BRCA2, by a signalosome-like subunit and its role in DNA repair. 1463 69
Individuals carrying a germ line mutation of the breast cancer susceptibility gene
BRCA2
are predisposed to breast, ovarian, and other types of cancer. The BRCA2 protein has been proposed to function in the repair of DNA double-strand breaks. Using an immunopurification-mass spectrometry approach to identify novel proteins that associate with the
BRCA2
gene product, we found that a deubiquitinating enzyme, USP11, formed specific complexes with
BRCA2
. Moreover,
BRCA2
was constitutively ubiquitinated in vivo in the absence of detectable proteasomal degradation. Mitomycin C (MMC) led to decreased BRCA2 protein levels associated with increased ubiquitination, consistent with
proteasome
-dependent degradation. While
BRCA2
could be deubiquitinated by USP11 in transient overexpression assays, a catalytically inactive USP11 mutant had no effect on
BRCA2
ubiquitination or protein levels. Antagonism of USP11 function either through expression of this mutant or through RNA interference increased cellular sensitivity to MMC in a
BRCA2
-dependent manner. All of these results imply that
BRCA2
expression levels are regulated by ubiquitination in the cellular response to MMC-induced DNA damage and that USP11 participates in DNA damage repair functions within the
BRCA2
pathway independently of
BRCA2
deubiquitination.
...
PMID:BRCA2 is ubiquitinated in vivo and interacts with USP11, a deubiquitinating enzyme that exhibits prosurvival function in the cellular response to DNA damage. 1531 55
Degradation of polyubiquitinated proteins by the
proteasome
often requires accessory factors; these include receptor proteins that bind both polyubiquitin chains and the regulatory particle of the
proteasome
. Overproduction of one such factor, Dsk2, is lethal in Saccharomyces cerevisiae and we show here that this lethality can be suppressed by mutations in SEM1, a gene previously recognized as an ortholog of the human gene encoding DSS1, which binds the
BRCA2
DNA repair protein. Yeast sem1 mutants accumulate polyubiquitinated proteins, are defective for
proteasome
-mediated degradation and cannot grow under various stress conditions. Moreover, sem1 is synthetically lethal with mutations in
proteasome
subunits. We show that Sem1 is a component of the regulatory particle of the
proteasome
, specifically the lid subcomplex. Loss of Sem1 impairs the stability of the 26S
proteasome
and sem1Delta defects are greatly enhanced by simultaneous deletion of RPN10. The Rpn10
proteasome
subunit appears to function with Sem1 in maintaining the association of the lid and base subcomplexes of the regulatory particle. Our data suggest a potential mechanism for this protein-protein stabilization and also suggest that an intact proteasomal regulatory particle is required for responses to DNA damage.
...
PMID:Sem1, the yeast ortholog of a human BRCA2-binding protein, is a component of the proteasome regulatory particle that enhances proteasome stability. 1557 8
Affinity purification of the yeast 19S
proteasome
revealed the presence of Sem1 as a subunit. Its human homolog, DSS1, was found likewise to copurify with the human 19S
proteasome
. DSS1 is known to associate with the tumor suppressor protein
BRCA2
involved in repair of DNA double-strand breaks (DSBs). We demonstrate that Sem1 is required for efficient repair of an HO-generated yeast DSB using both homologous recombination (HR) and nonhomologous end joining (NHEJ) pathways. Deletion of SEM1 or genes encoding other nonessential 19S or 20S
proteasome
subunits also results in synthetic growth defects and hypersensitivity to genotoxins when combined with mutations in well-established DNA DSB repair genes. Chromatin immunoprecipitation showed that Sem1 is recruited along with the 19S and 20S proteasomes to a DSB in vivo, and this recruitment is dependent on components of both the HR and NHEJ repair pathways, suggesting a direct role of the
proteasome
in DSB repair.
...
PMID:Proteasome involvement in the repair of DNA double-strand breaks. 1561 Jul 44
BRCA2
is a tumor suppressor gene that when mutated confers an increased susceptibility to developing breast and prostate carcinoma. Besides its role in mediating DNA repair, new evidence suggests that
BRCA2
may also play a role in suppressing cancer cell growth. Because altered interactions between neoplastic cells and the surrounding extracellular matrix (ECM) play a pivotal role in unchecked cancer cell proliferation and metastatic progression, we hypothesized that the ECM may have an effect in
BRCA2
expression. By using normal and prostate carcinoma cell lines, we demonstrated that although normal cells transiently increase BRCA2 protein levels when adhering to the ECM protein collagen type I (COL1), carcinoma cells exhibit a significant reduction in BRCA2 protein. This aberrant effect is independent from de novo protein synthesis and results from COL1-beta(1) integrin signaling through phosphatidylinositol (PI) 3-kinase leading to
BRCA2
ubiquitination and degradation in the
proteasome
. BRCA2 protein depletion after cancer cell adhesion to COL1 or in small RNA interference assays triggers new DNA synthesis, a trophic effect that is abrogated by recombinant
BRCA2
expression. Blocking or inhibiting beta(1) integrin, PI 3-kinase, or
proteasome
activity all have a negative effect on COL1-mediated DNA synthesis in cancer cells. In normal cells, the transient increase in
BRCA2
expression is independent from beta(1) integrin or PI 3-kinase and has no effect in cell proliferation. In summary, these results unravel a novel mechanism whereby prostate carcinoma cell proliferation is enhanced by the down-regulation of
BRCA2
expression when interacting with COL1, a major component of the ECM at osseous metastatic sites.
...
PMID:Down-regulation of BRCA2 expression by collagen type I promotes prostate cancer cell proliferation. 2495 45
The ubiquitin (Ub)/
proteasome
pathway facilitates the degradation of damaged proteins and regulators of growth and stress response. The activation of this pathway in various cancers and malignancies has been described, and several genetic determinants of breast cancer, including BRCA1 and
BRCA2
, are linked to protein degradation. To investigate the involvement of the Ub/
proteasome
system in breast cancer, we examined a collection of 25 patient-matched breast cancer and normal adjacent tissues and detected activation of numerous components of the Ub/
proteasome
pathway. The activity of the
proteasome
, and levels of
proteasome
subunits and various targeting factors, were increased in >90% of primary breast cancer tissue specimens. In contrast, no activation was observed in benign solid tumors, indicating that the response is specific to abnormal growth in neoplastic cells. Additionally, the accumulation of high levels of certain Ub-conjugating enzymes (UbcH1, UbcH2, and UbcH5), was specific to breast cancer, as no change in abundance was detected in primary colon cancer tissue extracts. Surprisingly, the Ub/
proteasome
system was not activated in a well-characterized cell culture-based breast cancer model system. Collectively, these findings suggest that the analysis of primary breast cancer tissue samples will be indispensable for the biochemical characterization of neoplastic growth and for the development of therapeutics.
...
PMID:Increased proteasome activity, ubiquitin-conjugating enzymes, and eEF1A translation factor detected in breast cancer tissue. 1599 32
Human DSS1 associates with
BRCA2
, a tumour suppressor protein required for efficient recombinational DNA repair, but the biochemical function of DSS1 is not known. Orthologues of DSS1 are found in organisms such as budding yeast and fission yeast that do not have
BRCA2
-related proteins, indicating that DSS1 has a physiological role independent of
BRCA2
. The DSS1 orthologue in Saccharomyces cerevisiae has been shown to associate with the 26 S
proteasome
and, in the present paper, we report that in the distantly related fission yeast Schizosaccharomyces pombe, Dss1 associates with the 19 S RP (regulatory particle) of the 26 S
proteasome
. A role for S. pombe Dss1 in
proteasome
function is supported by three lines of evidence. First, overexpression of two components of the 19 S RP, namely Pad1/Rpn11 and Mts3/Rpn12, rescued the temperature-sensitive growth defect of the dss1 mutant. Secondly, the dss1 mutant showed phenotypes indicative of a defect in
proteasome
function: growth of the dss1 mutant was inhibited by low concentrations of L-canavanine, an amino acid analogue, and cells of the dss1 mutant accumulated high molecular mass poly-ubiquitylated proteins. Thirdly, synthetic growth defects were found when the dss1 mutation was combined with mutations in other
proteasome
subunit genes. These findings show that DSS1 has an evolutionarily conserved role as a regulator of
proteasome
function and suggest that DSS1 may provide a link between
BRCA2
and ubiquitin-mediated proteolysis in human cells.
...
PMID:Fission yeast Dss1 associates with the proteasome and is required for efficient ubiquitin-dependent proteolysis. 1614 16
Aberrant interaction of carcinoma cells with basement membranes (BM) is a fundamental pathophysiological process that initiates a series of events resulting in cancer cell invasion and metastasis. In this report, we describe the results of our investigations pertaining to the events triggered by the adhesion of normal (PNT1A) and highly metastatic (PC-3) prostate cells onto BM proteins. Unlike PNT1A, PC-3 cells adhered avidly to Matrigel BM matrix as well as to isolated collagen type IV, laminin, and heparan sulfate proteoglycan perlecan, main BM components. This aberrantly increased cancer cell adhesion resulted in sustained BRCA2 protein depletion and vigorous cell proliferation, a cascade triggered by beta1 integrin-mediated phosphatidylinositol 3-kinase activation leading to
BRCA2
degradation in the
proteasome
. This latter effect was orchestrated by phosphatidylinositol 3-kinase-dependent up-regulation of Skp2, a subunit of the Skp1-Cul1-F-box protein ubiquitin complex that directly associates with
BRCA2
as demonstrated by coimmunoprecipitation assays, determines its ubiquitination, and ultimately targets it for proteasomal degradation. Inhibition of Skp2 expression by small interference RNA prevented
BRCA2
depletion and inhibited the trophic effect upon cell proliferation. These results provide additional evidence on the role of
BRCA2
as a modulator of cancer cell growth and elucidate the molecular mechanisms involved in its down-regulation in cancer cells when interacting with BM, a crucial step in the biology of metastasis. Furthering the understanding of this molecular pathway may prove valuable in designing new therapeutic strategies aimed at modifying the natural history of prostate carcinoma.
...
PMID:Up-regulation of Skp2 after prostate cancer cell adhesion to basement membranes results in BRCA2 degradation and cell proliferation. 2495 46
The DSS1 protein interacts with the breast cancer susceptibility protein BRCA2 that plays an integral role in the repair of DNA double-strand breaks (DSBs). DSS1 has also been shown to interact with components of the 26S
proteasome
in Saccharomyces cerevisiae and in human tumour cells. This raises the possibility of functional interplay between the DNA repair machinery and the
proteasome
. We show here that human DSS1 interacts with the RPN3 and RPN7
proteasome
subunits and define regions of DSS1 important for the interactions with RPN3, RPN7 and
BRCA2
. We also show that
BRCA2
interacts with RPN3 and RPN7 and that the
BRCA2
/RPN7 interaction is independent of DSS1. Finally, and most significantly, we demonstrate that the proteolytic activity of the
proteasome
is a determinant of the choice of DSB repair pathway; inhibition of
proteasome
proteolytic activity results in an increase in the utilization of potentially mutagenic single-strand annealing at the expense of a reduction in the level of error-free gene conversion. This confirms a functional link between DSB repair and proteasomal activity.
...
PMID:The proteasome is involved in determining differential utilization of double-strand break repair pathways. 1756 42
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