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: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histone acetylation is emerging as a major regulatory mechanism thought to modulate gene expression by altering the accessibility of transcription factors to DNA. In this study, treatment of human tumor cells with the histone deacetylase inhibitor, trapoxin (TPX), resulted in selective changes in genes that control the cell cycle. TPX activated p21(waf1) transcription that led to elevated p21(waf1) protein levels in three human tumor cell lines without altering the protein levels of cdk2, cdk4, or cyclin B. In addition, TPX increased cyclin E transcription without increasing the levels of Rb, E2F, dihydrofolate reductase, or glyceraldehyde-3-phosphate dehydrogenase. The elevated levels of p21(waf1) protein led to decreased Rb phosphorylation and cdk2 activity. These effects resulted in G(1) and G(2) cell cycle arrest in H1299 human lung and MDA-MB-435 breast carcinoma cells and apoptosis in A549 lung carcinoma cells. Chromatin immunoprecipitation assays revealed that TPX increased the level of chromatin acetylation associated with histone H3 in the trapoxin-responsive region of the p21(waf1) promoter. This study demonstrates that inhibition of HDAC by TPX increases acetylation of H3-associated chromatin and alters gene expression with marked selectivity.
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PMID:Histone deacetylase inhibition selectively alters the activity and expression of cell cycle proteins leading to specific chromatin acetylation and antiproliferative effects. 1057 69

The acetylation of histone tails is a primary determinant of gene activity. Histone deacetylase 3 (HDAC3) requires the nuclear receptor corepressor SMRT for HDAC enzyme activity. Here we report that HDAC3 interacts with SMRT only after priming by cellular chaperones including the TCP-1 ring complex (TRiC), which is required for proper folding of HDAC3 in an ATP-dependent process. SMRT displaces TRiC from HDAC3, yielding an active HDAC enzyme. The SMRT-HDAC3 repression complex thus joins the VHL-elongin BC tumor suppression complex and the cyclin E-Cdk2 cell cycle regulation complex as critical cellular machines requiring TRiC for proper assembly and function. The strict control of HDAC3 activity underscores the cellular imperative that histone deacetylation occur only in targeted regions of the genome.
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PMID:Assembly of the SMRT-histone deacetylase 3 repression complex requires the TCP-1 ring complex. 1250 35

Rat embryonic fibroblasts, transformed with E1A and cHa-ras oncogenes, are unable to stop in the cell cycle checkpoints under growth factor withdrawal and genotoxic stresses (Bulavin et al., 1999). In the present paper, we showed that sodium butyrate, an inhibitor of histone deacetyase activity, decreased the share of cells being in S-phase, and caused G1/S and G2/M blocks of the cell cycle in the transformants. By means of RT-PCR and immunoblotting, we found that NaB significantly changed the expression of genes involved in proliferation: cyclins D1, A, E and cyclin-dependent kinases Cdk2 and Cdk4, whereas the amount of p21Waf1 and p27Kip1 inhibitors greatly increased. Along with accumulation of p21Waf1 protein content, that of Cdk2-bound p21 increases. Taken together, these data allow to suggest that NaB treatment does evidently restore the capability of p21Waf1 to inhibit cyclin-kinase activity. One may suppose that inhibition of HDAC activity by sodium butyrate leads to activation of yet unknown HDAC-dependent genes, which is followed by restoration of p21Waf1 function in spite of the E1A oncogene expression.
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PMID:[Histone deacetylase inhibitor blocks proliferation of cells transformed with oncogenes E1A and cHa-ras]. 1498 49

The last decade has witnessed the introduction of a large number of novel, molecularly targeted agents into the therapeutic armamentarium against diverse forms of cancer, including leukemia. Such agents include signal transduction, cell cycle, histone deacetylase, Hsp90, proteasome, and Bcl-2 family member inhibitors, among others. While most of these agents have been or are currently being evaluated in adult patients with acute leukemia, experience in childhood leukemia is very limited. Although the use of such targeted agents as potentiators of conventional cytotoxic agent activity represents a logical approach, an emerging body of evidence suggests that neoplastic cells in general, and leukemic cells in particular, are highly susceptible to a therapeutic strategy in which survival signaling and cell cycle regulatory pathways are simultaneously disrupted. In in vitro studies, highly synergistic antileukemic interactions have been reported between CDK and HDAC inhibitors; HDAC and proteasome inhibitors; Bcl-2 antagonists and CDK inhibitors; MEK/ERK and Chk1 inhibitors, and proteasome and CDK inhibitors, among other combinations. Some of these strategies, including combinations of HDAC and CDK inhibitors, and CDK and proteasome inhibitors, have now entered the clinical arena in patients with leukemia and other hematologic malignancies. Based upon preclinical results to date, there is reason to suspect that such strategies might prove to be active against several types of childhood leukemia. Thus, over the next decade, the introduction of molecularly targeted agents, alone and in combination, into the therapeutic armamentarium against childhood leukemia may have significant implications for children with this disease.
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PMID:Simultaneous interruption of signal transduction and cell cycle regulatory pathways: implications for new approaches to the treatment of childhood leukemias. 1758 30

Effective therapies for advanced stages of hepatocellular carcinoma (HCC) have yet to be developed. We investigated how far a combination of the HDAC inhibitor MS-275 and the CDK inhibitor CYC-202 synergizes to inhibit proliferation and promotes apoptosis of hepatoma cells in vitro. Human hepatoma cell lines Hep3B and HepG2 as well as primary human foreskin fibroblasts as non-malignant controls were cultured under standardized conditions and incubated with increasing concentrations of CYC-202 and MS-275 as single agents and in combination. After 24 to 72 h, apoptosis was analyzed by flow cytometry (propidium iodide, JC-1) and by immunocytochemistry for cytokeratin 18 fragmentation. DNA synthesis was assessed using bromodeoxyuridine incorporation. Protein was separated for Western blotting against p21, bax and bcl-2 and fluorimetric activity assays against caspase 3 and 8. The results showed that the combination of CYC-202 and MS-275 leads to better pro-apoptotic effects than the employment of single substances. Apoptosis was induced via the mitochondrial pathway as evidenced by a shift in the bax/bcl-2 ratio and breakdown of mitochondrial transmembrane potentials. Caspase assays revealed a strong induction of caspase 3 but not of the extrinsic initiator caspase 8. In conclusion, combination therapy with the biomodulators MS-275 and CYC-202 is a promising treatment option for HCC.
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PMID:The histone-deacetylase inhibitor MS-275 and the CDK-inhibitor CYC-202 promote anti-tumor effects in hepatoma cell lines. 1894 29

p25/Cdk5 dysregulation may contribute to neurodegeneration. In this issue of Neuron, Kim et al. show that cdk5 inactivates HDAC-1, leading to cell cycle deregulation and DNA damage accumulation. This study provides further insights into the function of p25/Cdk5 in neurons and points to HDAC-1 as a target for therapeutic interventions.
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PMID:A sequel to the tale of p25/Cdk5 in neurodegeneration. 1908 76

The herpes simplex virus 1 ICP0 is a regulatory protein. Early in infection ICP0 localizes in ND10 bodies and performs two functions: As an E3 ligase in conjunction with E2 UbcH5a conjugating enzyme, it degrades the ND10 components PML and SP100. Concurrently, it suppresses the silencing of viral DNA by dispersing the HDAC1/CoREST/REST/LSD1 repressor complex. Subsequently, ICP0 is exported to the cytoplasm. In cells treated with HDAC inhibitors or transfected with irrelevant DNA, the export is delayed in a DNA dose-dependent fashion. Here, we follow up an observation that ICP0 binds cyclin D3 and that ICP0 mutants unable to bind cyclin D3 are not exported. Moreover, in infected cells cdk4 is activated, but cdk2 is not. We report that (i) cyclin D1, D2, or D3 colocalize with ND10 bodies and ICP0 early in infection and ultimately become incorporated into viral replication compartments, (ii) each of the D cyclins partially rescues DeltaICP0 mutants, and (iii) inhibition of cdk4 by inhibitor I sequesters ICP0 in the nucleus. A key finding is that overexpression of cyclin D3 enables the transport of ICP0 to the cytoplasm. We conclude that (i) ICP0 facilitates the recruitment of cyclin D3 to the sites of viral DNA synthesis, (ii) until its functions are completed, ICP0 is retained in the nucleus, and (iii) a common signal that results in the export of ICP0 to the cytoplasm is the accumulation of a viral DNA-synthesis-dependent late protein.
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PMID:ICP0 enables and monitors the function of D cyclins in herpes simplex virus 1 infected cells. 1970 44

HDACs and HATs regulate histone acetylation, an epigenetic modification that controls chromatin structure and through it, gene expression. Butyrate, a dietary HDAC inhibitor, inhibits VSMC proliferation, a crucial factor in atherogenesis, and the principle mechanism in arterial and in-stent restenosis. Here, the link between antiproliferation action of butyrate and the portraits of global covalent modifications of histone H3 that it induces are characterized to understand the mechanics of butyrate-arrested VSMC proliferation. Analysis of histone H3 modifications specific to butyrate arrested VSMC proliferation display induction of histone H3-Lysine9 acetylation, inhibition of histone H3-Serine10 phosphorylation, reduction of histone H3-Lysine9 dimethylation and stimulation of histone H3-Lysine4 di-methylation, which is linked to transcriptional activation, cell cycle/mitosis, transcriptional suppression and activation, respectively. Conversely, untreated VSMCs exhibit inhibition of H3-Lysine9 acetylation, induction of H3-Serine10 phosphorylation, stimulation of H3-Lysine9 di-methylation and reduction in H3-Lysine4 di-methylation. Butyrate's cooperative effects on H3-Lysine9 acetylation and H3-Serine10 phosphorylation, and contrasting effects on di-methylation of H3-Lysine9 and H3-Lysine4 suggests that the interplay between these site-specific modifications cause distinct chromatin alterations that allow cyclin D1 and D3 induction, G1-specific cdk4, cdk6 and cdk2 downregulation, and upregulation of cdk inhibitors, p15INK4b and p21Cip1. Regardless of butyrate's effect on D-type cyclins, downregulation of G1-specific cdks and upregulation of cdk inhibitors by butyrate prevents cell cycle progression by failing to inactivate Rb. Overall, through chromatin remodeling, butyrate appears to differentially alter G1-specific cell cycle proteins to ensure proliferation arrest of VSMCs, a crucial cellular component of blood vessel wall.
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PMID:Butyrate, an HDAC inhibitor, stimulates interplay between different posttranslational modifications of histone H3 and differently alters G1-specific cell cycle proteins in vascular smooth muscle cells. 2097 Sep 54

RUNX1 regulates formation of the definitive hematopoietic stem cell and its subsequent lineage maturation, and mutations of RUNX1 contribute to leukemic transformation. Phosphorylation of Ser-48, Ser-303, and Ser-424 by cyclin-dependent kinases (cdks) increases RUNX1 trans-activation activity without perturbing p300 interaction. We now find that endogenous RUNX1 interacts with endogenous HDAC1 or HDAC3. Mutation of the three RUNX1 serines to aspartic acid reduces co-immunoprecipitation with HDAC1 or HDAC3 when expressed in 293T cells; mutation of these three serines to alanine increases HDAC interaction, and mutation of each serine individually to aspartic acid also reduces these interactions. GST-RUNX1 isolated from bacterial extracts bound in vitro translated HDAC1 or HDAC3, and these interactions were weakened by mutation of Ser-48, Ser-303, and Ser-424 to aspartic acid. The ability of RUNX1 phosphorylation and not only serine to aspartic acid conversion to reduce HDAC1 binding was demonstrated using wild-type GST-RUNX1 phosphorylated in vitro using cdk1/cyclinB and by exposure of 293T cells transduced with RUNX1 and HDAC1 to roscovitine, a cdk inhibitor. Finally, RUNX1 or RUNX1(tripleD), in which Ser-48, Ser-303, and Ser-424 are mutated to aspartic acid, stimulated proliferation of transduced, lineage-negative murine marrow progenitors more potently than did RUNX1(tripleA), in which these serines are mutated to alanine, suggesting that stimulation of RUNX1 trans-activation by cdk-mediated reduction in HDAC interaction increases marrow progenitor cell proliferation.
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PMID:Phosphorylation of RUNX1 by cyclin-dependent kinase reduces direct interaction with HDAC1 and HDAC3. 2105 42

Though the expected overall survival (OS) for mantle cell lymphoma (MCL) has doubled in the last 30 years it is still in the range of only 4-5 years. Despite high response rates with current first-line treatments, most patients eventually relapse and become typically chemoresistant, leading to very poor outcome in the relapsed setting. Here, we summarize the clinical characteristics of MCL and frontline strategies used in MCL, and review a number of novel options that are currently being investigated in an effort to extend survival outcomes for this difficult-to-treat patient population. Among these novel options figure cytotoxics (bendamustine, cladribine), new biologicals/small molecules such as proteasome inhibitors (bortezomib 1st drug approved in the USA for MCL), mTOR inhibitors with temsirolimus (1st drug approved in EU for MCL), CDK inhibitors (flavopiridol); IMiDs (thalidomide, lenalidomide); HDAC inhibitors, Bcl-2 inhibitors and second or third generation monoclonal antibodies or immunotoxins. The panel of novel drugs approved or being tested offers new opportunities in the management of MCL from combination in the frontline setting (e.g. bortezomib-R-chemo) to post-induction strategies such as consolidation (e.g. radioimmunotherapy, bortezomib) or maintenance therapy (e.g. rituximab, lenalidomide).
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PMID:Mantle cell lymphoma: the promise of new treatment options. 2116 43


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