Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We report a review on progress in the etiology and pathogenesis of Parkinson's disease (PD). We also report the long-term prognosis of PD patients seen in our clinic. Modern research on the pathogenesis started after the discovery of MPTP. We found inhibition of mitochondrial complex I by MPTP and MPP+. Mitochondrial respiratory failure induces oxidative damage to high molecular weight substances. Both mitochondrial failure and oxidative stress are important triggers of apoptosis. We found TUNEL positive nigral neurons in PD patients suggesting involvement of apoptosis in the pathogenesis. Interaction of genetic risk factors and environmental neurotoxins has been implicated in the etiology of PD. While we were investigating MnSOD gene polymorphism in PD patients, we found a young onset autosomal recessive PD family that was linked to the MnSOD locus. Subsequent linkage analysis on 13 families of young onset autosomal recessive families disclosed the linkage of this disease to the telomeric region of the long arm of chromosome 6 (6q25.2-27). Then we were lucky enough to find a patient who had a deletion of one of the microsatellite markers (D6S305) that we were using in the linkage analysis. We thought this marker might be located within the disease gene and this was the case. We screened the Keio BAC library with this marker, and eventually we cloned a novel gene encompassing 1.4 Mb; we named it parkin. The coding region consisted of 1,395 base pairs. The parkin protein had an unique sequence in that there was a 30% homology in the amino terminal region and two RING-finger motives on the carboxy terminal side. This unique structure suggested that the parkin protein was related to the ubiquitin-proteasome system. Parkin protein turned out to be an ubiquitin-protein ligase. Numbers of parkin-interacting proteins were reported in the literature and accumulation of parkin-substrates is likely to be the cause for the nigral neuronal death in this familial PD. Regarding the prognosis of PD, we analyzed the patients who visited our clinic from January 1, 1989 to December 31, 2002. The total of patients recruited was 1,772. The average age of onset was 57.2 years. Mean levodopa dose at the final examination was 479 mg/day. The most common initial symptom was tremor which was seen in 51% of the patients. Total percentage of patients who had tremor during the course of the disease was 75%. Long-term prognosis was evaluated on a subgroup of the patients who visited our clinic within 5 years from the onset and Hoehn and Yahr stage III or less when first seen. Analysis was done by the Kaplan-Meier survival curve. Percentages of patients who reached Hoehn and Yahr III 5, 10, and 15 years after the onset were 24%, 46%, and 65%, respectively. Percentages of patients who developed wearing off fluctuations were 5, 10, and 15 years after the start of levodopa were 18%, 46%, and 55%, respectively. Overall mortality on the total investigated patients was 7.9%. When compared to the age at death of Japanese population, mortality of men PD patients became very close to that of the general population in the year 2003. However, that in women PD patients showed significantly shorter survival compared to Japanese female population. Average ages of onset and the death were essentially similar between men and women PD patients. Survival curves to reach stage III and wearing off showed slightly but significantly faster time courses for women compared to those of men. This was an unexpected observation and its mechanism was discussed. It is our conclusion that overall prognosis of PD patients is improving and both patients and treating physicians should take an optimistic attitude to the disease.
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PMID:[Progress in the basic and clinical aspects of Parkinson's disease]. 1565 Dec 81

Pin2/TRF1 was identified previously as both a protein (TRF1) that binds to telomeric DNA repeats and as a protein (Pin2) that associates with the kinase NIMA and suppresses its mitosis inducing activity. Pin2/TRF1 negatively regulates telomere length and also plays a critical role in cell cycle checkpoint control. Pin2/TRF1 is down-regulated in many human cancers and may be degraded by the ubiquitin-proteasome pathway, but components of the pathway involved in Pin2/TRF1 turnover have not been elucidated. By using the two-hybrid system, we recently identified Pin2/TRF1-interacting proteins, PinX1-4, and we demonstrated that PinX1 is a conserved telomerase inhibitor and a putative tumor suppressor. Here we report the characterization of PinX3. PinX3 was later found to be identical to Fbx4, a member of the F-box family of proteins, which function as substrate-specific adaptors of Cul1-based ubiquitin ligases. Fbx4 interacts with both Pin2 and TRF1 isoforms and promotes their ubiquitination in vitro and in vivo. Moreover, overexpression of Fbx4 reduces endogenous Pin2/TRF1 protein levels and causes progressive telomere elongation in human cells. In contrast, inhibition of Fbx4 by RNA interference stabilizes Pin2/TRF1 and promotes telomere shortening, thereby impairing cell growth. These results demonstrate that Fbx4 is a central regulator of Pin2/TRF1 protein abundance and that alterations in the stability of Pin2/TRF1 can have a dramatic impact on telomere length. Thus, Fbx4 may play a critical role in telomere maintenance.
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PMID:The F-box protein FBX4 targets PIN2/TRF1 for ubiquitin-mediated degradation and regulates telomere maintenance. 1627 45

Chromosome separation in meiosis I is different from those in mitosis and meiosis II in that homologs separate from each other in the former while sisters do so in the latter. We show here that meiosis-specific cohesin subunit Rec8 in mouse oocytes shows essentially the same pattern of localization to those reported in yeasts and mammalian spermatocytes; Rec8 along chromosome arm (armRec8) is lost at the metaphase I-to-anaphase I transition, although centromeric Rec8 (cenRec8) is maintained until the onset of anaphase II. Suppression of the loss of armRec8 by microinjection of anti-Rec8 antibody into the oocytes inhibits homolog separation but not the first polar body emission (cytokinesis). Similarly, the injection of anti-Rec8 antibody into metaphase II oocytes prevents sister separation in anaphase II after oocyte activation. These data demonstrate that the loss of armRec8 and cenRec8 is required for separation of homologs and sisters, respectively, but both are not required for other late mitotic events such as spindle elongation and cytokinesis in mouse oocytes. Further, by using some inhibitors for spindle assembly, proteasome and Topoisomerase II and overexpression of Securin, we propose that loss of armRec8 (homolog separation) and cytokinesis are suppressed until anaphase I by Securin whose destruction is regulated by spindle checkpoint-proteasome pathway, and that Topoisomerase II is required for homolog separation independently from such pathway.
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PMID:Loss of Rec8 from chromosome arm and centromere region is required for homologous chromosome separation and sister chromatid separation, respectively, in mammalian meiosis. 1685 1

Centromere identity is determined by the formation of a specialized chromatin structure containing the centromere-specific histone H3 variant CENP-A. The precise molecular mechanism(s) accounting for the specific deposition of CENP-A at centromeres are still poorly understood. Centromeric deposition of CENP-A, which is independent of DNA replication, might involve specific chromatin assembly complexes and/or specific interactions with kinetochore components. However, transiently expressed CENP-A incorporates throughout chromatin indicating that CENP-A nucleosomes can also be promiscuously deposited during DNA replication. Therefore, additional mechanisms must exist to prevent deposition of CENP-A nucleosomes during replication and/or to remove them afterwards. Here, using transient expression experiments performed in Drosophila Kc cells, we show that proteasome-mediated degradation restricts localization of Drosophila CENP-A (CID) to centromeres by eliminating mislocalized CID as well as by regulating available CID levels. Regulating available CID levels appears essential to ensure centromeric deposition of transiently expressed CID as, when expression is increased in the presence of proteasome inhibitors, newly synthesized CID mislocalizes. Mislocalization of CID affects cell cycle progression as a high percentage of cells showing mislocalized CID are reactive against alphaPSer(10)H3 antibodies, enter mitosis at a very low frequency and show strong segregation defects. However, cells showing reduced amounts of mislocalized CID show normal cell cycle progression.
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PMID:Proteolysis restricts localization of CID, the centromere-specific histone H3 variant of Drosophila, to centromeres. 1709 May 96

Telomere repeat binding factor 2 (TRF2) has been increasingly recognized to be involved in DNA damage response and telomere maintenance. Our previous report found that salvicine (SAL), a novel topoisomerase II poison, elicited DNA double-strand breaks and telomere erosion in separate experimental systems. However, it remains to be clarified whether they share a common response to these two events and in particular whether TRF2 is involved in this process. In this study, we found that SAL concurrently induced DNA double-strand breaks, telomeric DNA damage, and telomere erosion in lung carcinoma A549 cells. It was unexpected to find that SAL led to disruption of TRF2, independently of either its transcription or proteasome-mediated degradation. By overexpressing the full-length trf2 gene and transfecting TRF2 small interfering RNAs, we showed that TRF2 protein protected both telomeric and genomic DNA from the SAL-elicited events. It is noteworthy that although both the Ataxia-telangiectasia-mutated (ATM) and the ATM- and Rad3-related (ATR) kinases responded to the SAL-induced DNA damages, only ATR was essential for the telomere erosion. The study also showed that the activated ATR augmented the SAL-triggered TRF2 disruption, whereas TRF2 reduction in turn enhanced ATR function. All of these findings suggest the emerging significance of TRF2 protecting both telomeric DNA and genomic DNA on the one hand and reveal the mutual modulation between ATR and TRF2 in sensing DNA damage signaling during cancer development on the other hand.
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PMID:The telomeric protein TRF2 is critical for the protection of A549 cells from both telomere erosion and DNA double-strand breaks driven by salvicine. 1802 71

Telomere maintenance is essential for continued cell proliferation and chromosome stability. Telomeres are maintained by telomerase and a collection of associated proteins. The telomeric protein telomeric repeat binding factor 1 (TRF1) negatively regulates telomere length by inhibiting access of telomerase at telomere termini. Here we report that TRF1 interacts with the beta subunit of casein kinase 2 (CK2) and serves as a substrate for CK2. CK2-mediated phosphorylation is required for the efficient telomere binding of TRF1 in vitro and in vivo. Inhibition of CK2 by the CK2 inhibitor 5,6-dichloro-1-beta-d-ribofuranosylbenzimidazole decreased the ability of TRF1 to bind telomeric DNA. The resulting telomere-unbound form of TRF1 was then ubiquitinated and degraded by the proteasome. Partial knockdown of CK2 by small interfering RNA resulted in removal of TRF1 from telomeres and subsequent degradation of TRF1. Mapping of the CK2 target site identified threonine 122 as a substrate in TRF1. A threonine to alanine change at this position led to a diminished DNA binding due to reduced dimerization of TRF1. In addition, phosphorylation of threonine 122 seemed critical for TRF1-mediated telomere length control. Our findings suggest that CK2-mediated phosphorylation of TRF1 plays an important role in modulating telomere length homeostasis by determining the levels of TRF1 at telomeres.
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PMID:Regulation of telomeric repeat binding factor 1 binding to telomeres by casein kinase 2-mediated phosphorylation. 1834 21

A detailed understanding of aging and senescence is limited by the complex interplay of the effects of extracellular and environmental stimuli on cellular metabolic, mutational, and epigenetic phenomena. For example, STASIS (stress or aberrant signaling-induced senescence) is affected by the exposure to free radicals and conditions that cause an increased cellular production of reactive oxygen species (ROS) during normal life span. In addition, progressive telomere erosion and telomeric dysfunction contribute to a cellular feature termed replicative or cellular senescence. To focus on distinct cellular pathways that contribute to these different forms of senescence, we investigated the reversible differentiation and aging process of the human U937 leukemia cell line. This was compared to cellular senescence that occurred in normal primary human mammary epithelial cells (HMECs). These two cell systems revealed an important role of the proteolytic activity of the 20S proteasome and its activation by the nuclear protein poly(ADP-ribose) polymerase-1 (PARP-1) during "retrodifferentiation" and rejuvenation of the leukemic cells. Moreover, reduced extracellular proteolytic activity of certain matrix metalloproteinases-for example, MMP-7-is associated with accelerated aging and senescence in normal HMECs.
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PMID:Matrix metalloproteinase-7 and the 20S proteasome contribute to cellular senescence. 1836 12

Shelterin/telosome is a multi-protein complex at mammalian telomeres, anchored to the double-stranded region by the telomeric-repeat binding factors-1 and -2. In vitro modification of these proteins by poly(ADP-ribosyl)ation through poly(ADP-ribose) polymerases-5 (tankyrases) and -1/-2, respectively, impairs binding. Thereafter, at least telomeric-repeat binding factor-1 is degraded by the proteasome. We show that pharmacological inhibition of poly(ADP-ribose) polymerase activity in cells from two different species leads to rapid decrease in median telomere length and stabilization at a lower setting. Specific knockdown of poly(ADP-ribose) polymerase-1 by RNA interference had the same effect. The length of the single-stranded telomeric overhang as well as telomerase activity were not affected. Release of inhibition led to a fast re-gain in telomere length to control levels in cells expressing active telomerase. We conclude that poly(ADP-ribose) polymerase-1 activity and probably its interplay with telomeric-repeat binding factor-2 is an important determinant in telomere regulation. Our findings reinforce the link between poly(ADP-ribosyl)ation and aging/longevity and also impact on the use of poly(ADP-ribose) polymerase inhibitors in tumor therapy.
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PMID:Rapid regulation of telomere length is mediated by poly(ADP-ribose) polymerase-1. 1883 51

Ubiquitin-proteasome pathway (UPP) is the major system for the selective degradation of cellular proteins that play key roles in cellular processes. Previous study indicated that ubiquitin-proteasome inhibitor MG-132 could inhibit growth of some carcinoma. However, anti-carcinoma mechanism of MG-132 is unclear. Our objective was to investigate mechanisms of growth inhibitory effect of MG-132 on gastric carcinoma cells. Gastric carcinoma cell SGC-7901 was treated with ubiquitin-proteasome inhibitor MG-132. Cell growth suppression was evaluated with 3-(4,5-dimethylthiazole-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay. DNA synthesis was evaluated by (3)H-thymidine ((3)H-TdR) incorporation. Activity of telomerase was examined by telomeric repeat amplification protocol (TRAP) PCR-ELISA. Cell cycle and apoptosis were detected by flow cytometry (FCM). DNA fragment analysis was used to confirm the presence of apoptosis. Expression of p27kip1 and survivin was detected using the western blot method. After exposed to MG-132, the growth and value of (3)H-TdR incorporation of gastric carcinoma cells were obviously inhibited. TRAP PCR-ELISA showed that light absorption of cells gradually decreased after exposed to 5 microM of MG-132 for 24, 48, 72 and 96 h (P < 0.01). The percentage of cells at G(0)/G(1) phase was increased and that at S and G(2)/M phase was decreased (P < 0.01). The ratio of apoptotic cells treated with 5 microM MG-132 for 96 h was 53.7 +/- 6.4%. Agarose electrophoresis showed marked ladders. Moreover, expression of p27kip1 of cells was increased and expression of survivin was decreased. Our results suggest that MG-132 inhibits telomerase activity, induces apoptosis and G(1) arrest which is associated with upregulated p27kip1 expression and downregulated survivin expression in gastric carcinoma cells.
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PMID:MG-132 inhibits telomerase activity, induces apoptosis and G(1) arrest associated with upregulated p27kip1 expression and downregulated survivin expression in gastric carcinoma cells. 1909 61

The telomeric protein TRF1 negatively regulates telomere length by inhibiting telomerase access at the telomere termini, suggesting that the protein level of TRF1 at telomeres is tightly regulated. Regulation of TRF1 protein abundance is essential for proper telomere function and occurs primarily through post-translational modifications of TRF1. Here we describe RLIM, a RING H2 zinc finger protein with intrinsic ubiquitin ligase activity, as a TRF1-interacting protein. RLIM increases TRF1 turnover by targeting it for degradation by the proteasome in a ubiquitin-dependent manner, independently of Fbx4, which is known to interact with and negatively regulate TRF1. Whereas overexpression of RLIM decreases the level of TRF1 protein, depletion of endogenous RLIM expression by small hairpin RNA increases the level of TRF1 and leads to telomere shortening, thereby impairing cell growth. These results demonstrate that RLIM is involved in the negative regulation of TRF1 function through physical interaction and ubiquitin-mediated proteolysis. Hence, RLIM represents a new pathway for telomere maintenance by modulating the level of TRF1 at telomeres.
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PMID:Ubiquitin Ligase RLIM Modulates Telomere Length Homeostasis through a Proteolysis of TRF1. 1916 95


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