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

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mildly affected individuals from xeroderma pigmentosum complementation group G (XP-G) possess single amino acid substitutions in the XPG protein that adversely affects its 3' endonuclease function in nucleotide excision repair. More serious mutations in the XPG gene generate truncated or unstable XPG proteins and result in a particularly early and severe form of the combined XP/CS complex. Following UV irradiation, cells from such XP-G/CS patients enter apoptosis more readily than other DNA repair-deficient cells. Here, we explore the mechanisms by which UV triggers the apoptotic cell death program in XP-G and XP-G/CS primary fibroblasts. Activation of the CD95 signalling pathway occurs within minutes and it is the earliest detectable post-UV event in such cells. This is rapidly followed by activation of caspase-8 then caspase-3. Several hours later caspase-9 becomes activated and the mitochondrial membrane potential drops, but without any obvious prior release of cytochrome c. Although p53 accumulates in XPG-deficient cells after UV irradiation, use of RNA interference demonstrates that p53 is not required for their UV-induced apoptotic response. p53 ablation of wild-type fibroblasts reduces MDM2 mRNA levels, inhibits accumulation of the 90kDa/92kDa Mdm2 isoforms, and prevents the nuclear relocalisation of Mdm2 after UV treatment. The same post-UV effects occur in XPG-deficient cells that express normal p53 levels. These results emphasise the importance of the extrinsic apoptotic pathway and aberrant Mdm2 events for the severe UV-induced apoptosis of XPG-deficient primary fibroblasts. XP-G/CS cells constitutively overexpress the pro-apoptotic Bax protein and a long isoform of the E2F1 transcription factor that controls S phase entry, which may prime them to enter apoptosis very readily after UV irradiation.
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PMID:UV-induced apoptosis in XPG-deficient fibroblasts involves activation of CD95 and caspases but not p53. 1720 56

TRIP-Br1 and TRIP-Br2 are potent cell growth promoting factors that function as components of the E2F1/DP1 transcription complex to integrate positive growth signals provided by PHD zinc finger- and/or bromodomain-containing transcription factors. TRIP-Br1 has been demonstrated to be an oncogene. We recently reported that antagonism of the TRIP-Br integrator function by synthetic decoy peptides that compete with TRIP-Br for binding to PHD zinc finger- and/or bromodomain-containing proteins elicit an anti-proliferative effect and induces caspase-3-independent sub-diploidization in cancer cells in vitro. We now demonstrate the chemotherapeutic potential of TRIP-Br decoy peptides for the treatment of cutaneous and intracavitary lesions in vitro as well as in vivo in representative human nasopharyngeal cancer (CNE2), cervical cancer (Ca Ski) and melanoma (MeWo) cancer cell lines. In vitro, BrdU incorporation, colony formation assays and cell cycle analysis confirmed that TRIP-Br decoy peptides possess strong anti-proliferative effects and induce nuclear sub-diploidization in cancer cells. In vivo, CNE2, Ca Ski and MeWo-derived chick embryo chorioallantoic membrane (CAM) tumor xenografts were used to evaluate the effect of topically applied TRIP-Br peptides. Confocal microscopy and flow cytometric analysis demonstrated that cells comprising the tumor xenografts efficiently internalized topically applied FITC-labeled peptides. Fifty muM of TRIP-Br1 decoy peptide significantly suppressed the growth of NPC2-derived human nasopharyngeal tumors, while 50 muM of TRIP-Br2 decoy peptide significantly inhibited tumor growth in all three CAM tumor xenograft models. Two hundred muM of TRIP-Br1 decoy peptide significantly inhibited MeWo-derived tumors. These results suggest that the TRIP-Br integrator function may represent a novel chemotherapeutic target for the treatment of human cutaneous and intracavitary proliferative lesions.
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PMID:Exploiting the TRIP-Br family of cell cycle regulatory proteins as chemotherapeutic drug targets in human cancer. 1750 96

Nucleophosmin/B23 is a major multifunctional nucleolar phosphoprotein that plays a critical role in ribosome biogenesis and cell proliferation. Arf tumor suppressor binds B23 and enhances its sumoylation. However, the biological effects of this event remain unknown. Here we show that B23 is sumoylated on both Lysine 230 and 263 residues, but the latter is the major one. Mutation of K263, but not K230, into R abolishes its centrosomal and nucleolar residency. Moreover, Rb binds to wild-type B23, but fails to interact with K263R. Sumoylation enhances B23 binding to Rb. Consequently, B23 potently stimulates E2F1-mediated transcriptional activity, which is abolished in B23 K263R. Further, K263R mutation makes B23 vulnerable to caspase-3 cleavage and sensitizes cells to apoptosis. Surprisingly, K230R mutant strongly binds to phosphatidylinositol-3,4,5-trisphosphate and suppresses DNA fragmentation. Thus, B23 sumoylation regulates its subcellular localization, cell proliferation, and survival activities.
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PMID:Sumoylation of nucleophosmin/B23 regulates its subcellular localization, mediating cell proliferation and survival. 1753 15

The molecular genetic events underlying thyroid carcinogenesis are not well understood. Mice harboring a dominant-negative mutant thyroid hormone receptor-beta (TRbeta(PV/PV) mice) spontaneously develop follicular thyroid carcinoma similar to human cancer. The present study aimed to elucidate the role of the steroid receptor coactivator-3 (SRC-3) in thyroid carcinogenesis in vivo by using the offspring from the cross of TRbeta(PV/PV) and SRC-3(-/-) mice. TRbeta(PV/PV) mice deficient in SRC-3 (TRbeta(PV/PV)SRC-3(-/-) mice) had significantly increased survival, decreased thyroid tumor growth, delayed tumor progression and lower incidence of distant metastasis as compared with TRbeta(PV/PV) mice with SRC-3 (TRbeta(PV/PV)SRC-3(+/+) mice). Further, in vivo and in vitro analyses of multiple signaling pathways indicated that SRC-3 deficiency could lead to (1) inhibition of cell cycle progression at the G(1)/S transition via controlling the expression of cell cycle regulators, such as E2F1; (2) induction of apoptosis by controlling the expression of the Bcl-2 and caspase-3 genes and (3) suppression of neovascularization and metastasis, at least in part, through modulating the vascular endothelial growth factor gene expression. Taken together, SRC-3 could play important roles through regulating multiple target genes and signaling pathways during thyroid carcinogenesis, understanding of which should direct future therapeutic options for thyroid cancer.
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PMID:The steroid receptor coactivator-3 is a tumor promoter in a mouse model of thyroid cancer. 1765 82

E2F transcription factors control cell cycle progression. The localization of E2F4 in intestinal epithelial cells is cell cycle dependent, being cytoplasmic in quiescent differentiated cells but nuclear in proliferative cells. However, whether nuclear translocation of E2F4 alone is sufficient to trigger intestinal epithelial cell proliferation remains to be established. Adenoviruses expressing fusion proteins between green fluorescent protein (GFP) and wild-type (wt)E2F4 or GFP and nuclear localization signal (NLS)-tagged E2F4 were used to infect normal human intestinal epithelial crypt cells (HIEC). In contrast to expression of wtE2F4, persistent expression of E2F4 into the nucleus of HIEC triggered phosphatidylserine exposure, cytoplasmic shrinkage, zeiosis, formation of apoptotic bodies, and activation of caspase 9 and caspase 3. Inhibition of caspase activities by zVAD-fmk partially inhibited cell death induced by E2F4-NLS. An induction of p53, phosphorylated Ser15-p53, PUMA, FAS, BAX, RIP, and phosphorylated JNK1 was also observed in HIEC expressing E2F4-NLS compared with wtE2F4-expressing cells. E2F1 and p14ARF expression remained unaltered. Downregulation of p53 expression by RNA interference attenuated cell death induced by E2F4-NLS. By contrast, the level of cell death was negligible in colon cancer cells despite the strong expression of E2F4 into the nucleus. In conclusion, deregulated nuclear E2F4 expression induces apoptosis via multiple pathways in normal intestinal epithelial cells but not in colon cancer cells. Hence, mutations that deregulate E2F4 localization may provide an initial proliferative advantage but at the same time accelerate cell death. However, intestinal cells acquiring mutations (e.g., p53, Bax loci, etc.) may escape apoptosis, thereby revealing the full mitogenic potential of the E2F4 transcription factor.
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PMID:Nuclear expression of E2F4 induces cell death via multiple pathways in normal human intestinal epithelial crypt cells but not in colon cancer cells. 1765 49

Cerebellar granule neurons (CGNs) undergo apoptosis when deprived of depolarizing concentration of potassium. A key regulator of cell cycle, E2F1, was believed to play a role in CGN apoptosis induced by potassium deprivation. However, here we demonstrated that although E2F1 was upregulated in wild type CGNs following potassium deprivation, CGNs that derived from E2F1 knockout mice underwent apoptosis at a similar rate as the wild type. Analysis of the apoptotic neurons revealed no difference in the activation of caspase-3 in E2F1 null and wild type CGNs. Furthermore, knockdown of E2F1 expression by RNA interference failed to attenuate the apoptosis of CGNs induced by potassium deprivation. Taken together, our results suggested that E2F1 is not essential for apoptosis induced by potassium deprivation in CGNs.
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PMID:E2F1 is not essential for apoptosis induced by potassium deprivation in cerebellar granule neurons. 1772 64

We recently isolated 20(S)-25-methoxyl-dammarane-3beta, 12beta, 20-triol (25-OCH3-PPD), a natural product from Panax notoginseng, and demonstrated its cytotoxicity against a variety of cancer cells. Here we report the effects of this compound in vitro and in vivo on human prostate cancer cells, LNCaP (androgen-dependent) and PC3 (androgen-independent), in comparison with three structurally related ginsenosides, ginsenoside Rh2, ginsenoside Rg3, and 20(S)-protopanaxadiol. Of the four test compounds, 25-OCH3-PPD was most potent. It decreased survival, inhibited proliferation, induced apoptosis, and led to G1 cell cycle arrest in both cell lines. It also decreased the levels of proteins associated with cell proliferation (MDM2, E2F1, cyclin D1, and cdks 2 and 4) and increased or activated pro-apoptotic proteins (cleaved PARP, cleaved caspase-3, -8, and -9). In LNCaP cells, 25-OCH3-PPD inhibited the expression of the androgen receptor and prostate-specific antigen. Moreover, 25-OCH3-PPD inhibited the growth of prostate cancer xenograft tumours. Combining 25-OCH3-PPD with conventional chemotherapeutic agents or with radiation led to potent antitumour effects; tumour regression was almost complete following administration of 25-OCH3-PPD and either taxotere or gemcitabine. 25-OCH3-PPD also demonstrated low toxicity to noncancer cells and no observable toxicity in animals. In conclusion, our preclinical data indicate that 25-OCH3-PPD is a potential therapeutic agent against both androgen-dependent and androgen-independent prostate cancer.
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PMID:20(S)-25-methoxyl-dammarane-3beta, 12beta, 20-triol, a novel natural product for prostate cancer therapy: activity in vitro and in vivo and mechanisms of action. 1825 23

Inhibitors of DNA binding proteins (Ids) are implicated in the control of proliferation and differentiation. Herein, we tested the hypothesis that Id2 could stimulate proliferation and survival in differentiated pancreatic beta cells. We showed that Id2-enhanced proliferation of a growth-arrested pancreatic beta cell line (BTC-tet). This was mediated by the Rb pathway, as shown by an E2F1-driven reporter assay and Western immunoblot of phosphorylated Rb protein. Id2 also induced expression of Bcl-2, accompanied by a significant reduction of critical mediators of cytokine stimulation, including p38 MAPK and NFkappaB, as well as apoptosis markers, caspase-3 and Annexin-V. Overall, our data suggest that Id2 enhances proliferation and survival of growth-arrested BTC-tet cells.
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PMID:ID2 promotes the expansion and survival of growth-arrested pancreatic beta cells. 1832 22

DNA damage induced apoptosis, along with precise DNA damage repair, is a critical cellular function, and both of these functions are necessary for cancer prevention. The NBS1 protein is known to be a key regulator of DNA damage repair. It acts by forming a complex with Rad50/Mre11 and by activating ATM. We show here that NBS1 regulates a novel p53 independent apoptotic pathway in response to DNA damage. DNA damage induced apoptosis was significantly reduced in NBS1 deficient cells regardless of their p53 status. Experiments using a series of cell lines expressing mutant NBS1 proteins revealed that NBS1 is able to regulate the activation of Bax and Caspase-3 without the FHA, Mre11-binding, or the ATM-interacting domains, whereas the phosphorylation sites of NBS1 were essential for Bax activation. Expression of apoptosis-related transcription factors such as E2F1 and their downstream pro-apoptotic factors were not related to this apoptosis induction. Interestingly, NBS1 regulates a novel Bax activation pathway by disrupting the Ku70-Bax complex which is required for activation of the mitochondrial apoptotic pathway. This dissociation of the Ku70-Bax complex can be mediated by acetylation of Ku70, and NBS1 can function in this process through a protein-protein interaction with Ku70. Thus, NBS1 is a key protein involved in the prevention of carcinogenesis, not only through the precise repair of damaged DNA by homologous recombination (HR) but also by its role in the elimination of inappropriately repaired cells.
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PMID:NBS1 regulates a novel apoptotic pathway through Bax activation. 1864 72

Paclitaxel (PTX) is an anticancer drug currently in phase II clinical trials. This study shows for the first time that low doses of PTX (5 nM) potently induce apoptosis in human retinoblastoma Y79 cells. The effect of PTX is accompanied by a potent induction of E2F1 which appears to play a critical role in the effects induced by PTX. PTX induced a dose- and time-dependent effect, with G2/M arrest, cyclines A, E and B1 accumulation and a marked modification in the status of Cdc2-cyclin B1 complex, the major player of the G2/M checkpoint. Apoptosis followed G2/M arrest. An early and prolonged increase in p53 expression with its stabilization by phosphorylation and acetylation and its nuclear translocation occurred. Consistently, PTX increased p21WAF1, bax and MDM2 levels, suggesting that p53 is transcriptionally active. p53 accumulated following both E2F1 up-regulation and increase in the levels of p14ARF which interacts with MDM2 preventing ubiquitination and proteosomal degradation of p53. Both extrinsic (E2F1/Fas/JNK/caspase-2 activation) and intrinsic (Bcl-2 phosphorylation, Bid fragmentation and Bax increase) pathways seemed to be involved. Loss of mitochondrial potential and activation of apoptosome and executive caspase-3,-6 and-7 was shown. Incubation with either the irreversible pan-caspase inhibitors Z-VAD-FMK, or SP600125, a selective inhibitor of JNK, or pifithrin alpha, a potent p53 inhibitor, significantly inhibited the effects induced by PTX.
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PMID:Low doses of paclitaxel potently induce apoptosis in human retinoblastoma Y79 cells by up-regulating E2F1. 1881 80


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