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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interferon-gamma (IFN-gamma) has some anti-tumour activity in human ovarian cancer. This cytokine inhibited proliferation in three of four ovarian cancer cell lines in vitro. We then compared the action of IFN-gamma in two cell lines, one sensitive and one resistant to its growth inhibitory effects. IFN-gamma signalling appeared normal in both cell lines, with stat1 DNA binding activity detectable at 30 min. Continuous exposure to IFN-gamma for 2-3 days was necessary for an irreversible effect on cell growth and apoptosis in cells sensitive to growth inhibition. During this time there was an increase in mRNA for the CKI p21, but no alterations in mRNA levels for other members of the CKI family. Maintenance of p21 mRNA required continuous mRNA synthesis. mRNA for the transcription factor IRF-1 was also induced in growth inhibited cells with similar kinetics to those observed for p21. Maximal induction of both p21 and IRF-1 mRNA was observed after 2-3 days IFN-gamma exposure as the cells became committed to cell death. There was also a rapid increase in p21 and IRF-1 mRNA in cells resistant to the growth inhibitory effects of IFN-gamma, but this increase was not maintained. Thus, continuous interaction with the IFN-gamma receptor, together with a sustained induction of p21 and IRF-1, is associated with growth inhibitory and apoptotic effects of IFN-gamma in ovarian cancer cells.
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PMID:Cytotoxic response of ovarian cancer cell lines to IFN-gamma is associated with sustained induction of IRF-1 and p21 mRNA. 1037 77

The eukaryotic cell division cycle consists of two characteristic states: G1, when replication origins of chromosomes are in a pre-replicative state, and S/G2/M, when they are in a post-replicative state (Nasmyth, 1995). Using straightforward biochemical kinetics, we show that these two states can be created by antagonistic interactions between cyclin-dependent kinases (Cdk) and their foes: the cyclin-degradation machinery (APC) and a stoichiometric inhibitor (CKI). Irreversible transitions between these two self-maintaining steady states drive progress through the cell cycle: at "Start" a cell leaves the G1 state and commences chromosome replication, and at "Finish" the cell separates the products of replication to the incipient daughter cells and re-enters G1. We propose that a protein-phosphatase, by up-regulating the APC and by stabilizing the CKI, plays an essential role at Finish. The phosphatase acts in parallel pathways; hence, cells can leave mitosis in the absence of cyclin degradation or in the absence of the CKI.
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PMID:Finishing the cell cycle. 1039 16

Casein kinase I is a highly conserved family of serine/threonine protein kinases present in every organism tested from yeast to humans. To date, little is known about the function of the higher eukaryotic isoforms in this family. The CKI isoforms in Saccharomyces cerevisiae, however, have been genetically linked to the regulation of DNA repair, cell cycle progression and cytokinesis. It has also been established that the nuclear localization of two of these isoforms is essential for their function. The work presented here demonstrates that the higher eukaryotic CKIalpha isoform is also present within nuclei of certain established cell lines and associated with discrete nuclear structures. The nature of its nuclear localization was characterized. In this regard, CKIalpha was shown to colocalize with factors involved in pre-mRNA splicing at nuclear speckles and that its association with these structures exhibited several biochemical properties in common with known splicing factors. The kinase was also shown to be associated with a complex that contained certain splicing factors. Finally, in vitro, CKIalpha was shown to be capable of phosphorylating particular splicing factors within a region rich in serine/arginine dipeptide repeat motifs suggesting that it has both the opportunity and the capacity to regulate one or more steps of mRNA metabolism.
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PMID:The casein kinase Ialpha isoform is both physically positioned and functionally competent to regulate multiple events of mRNA metabolism. 1041 73

The lens fiber cell-specific gap junction protein connexin49 is a substrate for a membrane-associated Ser/Thr protein kinase that can be extracted from lens cell membranes by 0.6 M KCl. However, the identity of this protein kinase has not been defined. In this report, evidence is presented indicating that it is casein kinase I. Thus, connexin49 was shown to be a substrate for purified casein kinase I but not for casein kinase II; the endogenous connexin49 protein kinase activity extracted from lens membranes with KCl was inhibited by the casein kinase I-specific inhibitor, N-(2-aminoethyl)-5-chloroisoquinoline-8-sulfonamide (CKI-7); the connexin49 protein kinase activity in the lens membrane KCl extract, which could be partially purified by gel filtration and affinity purification with a casein-Sepharose 4B column, copurified with casein kinase activity; phosphopeptide analysis showed that casein kinase I and the connexin49 protein kinase activity in the lens membrane KCl extract probably share the same phosphorylation sites in connexin49. Reverse transcription-PCR using total ovine lens RNA and casein kinase I isoform-specific oligonucleotide primers resulted in the amplification of cDNAs encoding casein kinase I-alpha and -gamma, while an in-gel casein kinase assay indicated casein kinase activity in the lens membrane KCl extract was associated with a major 39.2-kDa species, which is consistent with the 36 to 40-kDa size of casein kinase I-alpha in other animal species. These results demonstrate that the protein kinase activity present in the lens membrane 0.6 M KCl extract that catalyzes the phosphorylation of connexin49 is casein kinase I, probably the alpha isoform.
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PMID:Endogenous casein kinase I catalyzes the phosphorylation of the lens fiber cell connexin49. 1042 14

Lymphatic mapping with selective sentinel lymphadenectomy allows accurate pathologic examination of the nodes most likely to contain macro- or micrometastastic disease for staging and proper adjuvant chemotherapy. The hypothesis of SLN biopsies was histopathologically validated by Turner et al that if the node is tumor free by H&E and immunohistochemistry, the probability of non-SLN involvement is less than 0.1%. Giuliano et al and Veronesi et al reported that detection of metastases in SLNs by frozen section technique is 89% and 64%, respectively. At MCC, frozen section evaluation of SLN is not performed because of its potential loss of micrometastasis in the cryostat, freezing artifacts, sampling error, and perhaps radioactive contamination. Intraoperative detection of macro- or micrometastasis is critical because it enables conversion of patients with positive SLN to CLND in one surgical setting more cost-effectively. IIC of the lymph nodes has been used routinely in the diagnosis of hematologic malignancies and also in breast cancer as a useful method in many series. In the author's experience, IIC by Diff-Quik stain converted 100% of grossly positive and suspicious SLNs and 22% of grossly negative SLNs. The significance of detecting micrometastases in axillary lymph nodes using immunohistochemical techniques has been reported in many series. At the MCC, routine use of CKI on paraffin sections of grossly negative SLNs enabled the upstaging of 10.6% of patients from N0 to N1. Recent addition of intraoperative rapid CKI as an adjunct to complement Diff-Quik stain has proven to be more sensitive in detecting micrometastases than using Diff-Quik stain alone. IIC technique using either Diff-Quik stain or CKI requires intensive training and experience to avoid potential pitfalls and errors in interpretation. Evaluation of SLN should use methods that enhance the ability to detect micrometastasis, however, in a cost-effective manner. The cost-effectiveness of IIC by Diff-Quik stain is incomparable with frozen section evaluation. The added cost of routine immunohistochemical stain and perhaps multiple levels of H&E stain should be offset by the decreased costs of IIC and clinically by treating most patients in the outpatient settings. In summary, IIC by Diff-Quik stain is simple, rapid, and has excellent diagnostic accuracy in grossly positive and suspicious SLNs allowing cost-effective, immediate CLND. IIC by CKI is an extremely useful ancillary technique that complements Diff-Quik stain in detecting micrometastases particularly in low grade ductal or lobular carcinoma and low tumor cell volume. Appropriate combined use of both stains may lead to intraoperative nodal staging and cost-effective CLND. SLN mapping technology at MCC using IIC in conjunction with serial sections, entire tissue submission, routine use of CKI, and multiple levels of the SLN have led us to uncover micrometastasis in high-risk, traditionally node-negative patients. These results have encouraged investigators to pursue even more sensitive techniques to detect micrometastases, including molecular biology techniques such as RT-PCR. Experienced cytopathologists and active cytopathology services are required to avoid potential pitfalls in performing and interpreting IIC. More long-term follow-up and prospective trials are needed to determine the prognostic significance of upstaging by ancillary techniques, which may lead to a revision of the current TNM staging system.
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PMID:Pathologic examination of sentinel lymph nodes in breast cancer. 1044 90

We have found that heparin has a different effect on Trichosporon cutaneum ribosomal protein phosphorylation by CKI and by CKII. In the presence of heparin, modification of 13 kDa, 19 kDa and 38 kDa proteins catalyzed by CKII was inhibited, while in the case of CKI, in addition to protein of 15 kDa, phosphorylation of 20 kDa and 35 kDa proteins was detected. It was also found that, in the presence of heparin, phosphorylation of P proteins (13 kDa and 38 kDa) by ribosome-bound protein kinases was inhibited. Moreover at the same conditions modification of 40 kDa protein was observed in all four yeast species tested.
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PMID:Phosphorylation of yeast ribosomal proteins by CKI and CKII in the presence of heparin. 1045 97

Most modern chemo- and radiotherapy treatments of human cancers use the DNA damage pathway, which induces a p53 response leading to either G1 arrest or apoptosis. However, such treatments can induce mutations and translocations leading to secondary malignancies or recurrent disease, which often have a poor prognosis because of resistance to therapy. Here we report that 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB), an inhibitor of CDK7 TFIIH-associated kinase, CKI and CKII kinases, blocking RNA polymerase II in the early elongation stage, triggers p53-dependent apoptosis in human colon adenocarcinoma cells in a transcription independent manner. The fact that DRB kills tumour-derived cells without employment of DNA damage gives rise to the possibility of the development of a new alternative chemotherapeutic treatment of tumours expressing wild type p53, with a decreased risk of therapy-related, secondary malignancies.
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PMID:RNA synthesis block by 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB) triggers p53-dependent apoptosis in human colon carcinoma cells. 1052 57

Casein kinase I epsilon (CKIepsilon) is a widely expressed protein kinase implicated in the regulation of diverse cellular processes including DNA replication and repair, nuclear trafficking, and circadian rhythm. CKIepsilon and the closely related CKIdelta are regulated in part through autophosphorylation of their carboxyl-terminal extensions, resulting in down-regulation of enzyme activity. Treatment of CKIepsilon with any of several serine/threonine phosphatases causes a marked increase in kinase activity that is self-limited. To identify the sites of inhibitory autophosphorylation, a series of carboxyl-terminal deletion mutants was constructed by site-directed mutagenesis. Truncations that eliminated specific phosphopeptides present in the wild-type kinase were used to guide construction of specific serine/threonine to alanine mutants. Amino acids Ser-323, Thr-325, Thr-334, Thr-337, Ser-368, Ser-405, Thr-407, and Ser-408 in the carboxyl-terminal tail of CKIepsilon were identified as probable in vivo autophosphorylation sites. A recombinant CKIepsilon protein with serine and threonine to alanine mutations eliminating these autophosphorylation sites was 8-fold more active than wild-type CKIepsilon using IkappaBalpha as a substrate. The identified autophosphorylation sites do not conform to CKI substrate motifs identified in peptide substrates.
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PMID:Identification of inhibitory autophosphorylation sites in casein kinase I epsilon. 1054 39

The influenza B virus genome RNA segment 7 encodes the M1 and BM2 proteins. The BM2 protein is synthesized by a coupled translational termination-reinitiation mechanism at the overlapping stop-start pentanucleotide in a bicistronic mRNA transcribed from RNA segment 7. However, features and functions of this protein remain unclear. In this study the BM2 protein was characterized by using an antiserum raised to the BM2 protein of influenza virus strain B/Yamagata/1/73. In cells infected with B/Yamagata virus the alphaBM2 antibody specifically detected the BM2 protein with a molecular mass of 12 kDa and also a polypeptide with a molecular mass of 17 kDa. When infected cells were labelled with 32Pi and immunoprecipitated with the alphaBM2 antibody, the 32P-labelled 17 kDa polypeptide was specifically precipitated. In the presence of casein kinase inhibitor CKI-7 the synthesis of the 17 kDa and BM2 proteins was completely suppressed, although other viral proteins, except for the polymerase protein, were synthesized normally. These results suggest that the 17 kDa species is a phosphorylated form of the BM2 protein. These species were substantially synthesized in the late phase of infection and localized in the cytoplasm throughout infection. Moreover, they were transported to the plasma membrane and thereafter were incorporated into virions. These results therefore suggest that the BM2 and the 17 kDa proteins are necessary for the life-cycle of influenza B virus.
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PMID:The BM2 protein of influenza B virus is synthesized in the late phase of infection and incorporated into virions as a subviral component. 1057 49

The human cullin protein CUL-2 functions in a ubiquitin-ligase complex with the von Hippel-Lindau (VHL) tumour suppressor protein. Here we show that, in Caenorhabditis elegans, cul-2 is expressed in proliferating cells and is required at two distinct points in the cell cycle, the G1-to-S-phase transition and mitosis. cul-2 mutant germ cells undergo a G1-phase arrest that correlates with accumulation of CKI-1, a member of the CIP/KIP family of cyclin-dependent-kinase inhibitors. In cul-2 mutant embryos, mitotic chromosomes are unable to condense, leading to unequal DNA segregation, chromosome bridging and the formation of multiple nuclei.
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PMID:CUL-2 is required for the G1-to-S-phase transition and mitotic chromosome condensation in Caenorhabditis elegans. 1058 44


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