EC:2.7.11.1 - FACTA Search

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)

Loss of myofilaments has been observed in both adaptive cardiac responses (i.e., hypertrophy) as well as in chemotheraputic use of antineoplastic drugs with cardiotoxic side effects (i.e., doxorubicin). An understanding of the degenerative process is a prerequisite for determining approaches to limit the cardiomyopathic changes associated with chronic heart disease or long-term chemotheraputic treatments. However, little is known about the specific events and molecular changes that initiate the degenerative process. To study this process, neonatal rat cardiomyocytes were treated with doxorubicin, which induced rapid and widespread thin-filament degeneration as observed by fluorescence confocal microscopy. Which demonstrated deterioration of sarcomeric thin-filament structure. Changes in the spontaneous beating of cardiomyocytes corresponding with myofibrillar degeneration were apparent using differential interference contrast video microscopy. After finding induction of kinase activity by doxorubicin in cultured cardiomyocytes, the protective effects of specific inhibitors of kinase activity were assessed for their ability to inhibit doxorubicin-induced myofibrillar break-down. Doxorubicin-induced changes appeared similar to the degeneration observed after treatment with a protein kinase activator (phorbol 12-myristate 13-acetate) or a serine-threonine protein phosphatase inhibitor (okadaic acid). Collectively, these results indicate that activation of protein kinase is an important event in the initiation of myofibrillar degeneration by doxorubicin. Further analyses of myofibrillar proteins with respect to biochemical modifications will be necessary to determine if phosphorylation events transmit signal(s) to initiate degeneration.
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PMID:Involvement of phosphorylation in doxorubicin-mediated myofibril degeneration. An immunofluorescence microscopy analysis. 897 22

Stimulation of apoptosis induced by 1-(beta-D-arabinofuranosyl)cytosine (AraC) with protein kinase inhibitors (i.e. staurosporine, CGP 41251-a protein kinase C (PKC)-selective staurosporine derivative and protein tyrosine kinase (PKT) inhibitor genistein) was examined in two human multidrug-resistant promyelocytic leukemia (HL-60) cell lines with different cell membrane drug resistance-associated glycoproteins (i.e. HL-60/VCR:MDR1 gene coded Pgp/p170 and HL-60/ADR: MRP gene coded non-Pgp/p190). Staurosporine stimulated AraC-induced apoptosis in the parental drug-sensitive HL-60 cells and both examined multidrug resistant HL-60 sublines. The stimulation of AraC-induced apoptosis by PKC selective inhibitor CGP 412251 and PTK-inhibitor genistein was approximately equal to that of staurosporine in HL-60/ADR cell line. In both parental drug sensitive HL-60 cells and Pgp/p170 positive (MDR1) HL-60/VCR, staurosporine-stimulated AraC-induced apoptosis was higher than that stimulated by the PKC selective CGP 41251 inhibitor, or PTK-inhibitor genistein. These data suggest that the molecular pathway(s) for AraC-induced apoptosis can be activated and stimulated by PKC- and PTK-inhibitors in both examined drug-resistant HL-60 cell lines. Furthermore, these data suggest that although both PKC- and PTK-dependent mechanisms are involved in AraC-induced apoptosis, in the drug-sensitive HL-60 cells and multidrug-resistant HL-60/VCR (Pgp/p170) cells this process is mediated at least partially, also by PKC- and PTK-independent mechanisms, activated by staurosporine.
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PMID:Stimulation of 1-(beta-D-arabinofuranosyl)cytosine (AraC)-induced apoptosis in the multidrug resistant human promyelocytic leukemia cell lines with protein kinase inhibitors. 899 46

Doxorubicin- (OAW-dox, SK-OV-dox), taxol- (OAW-tax, SK-OV-tax) and cisplatin- (SK-OV-cis) resistant cells derived from the parental OAW-42 and SK-OV-3 cell lines were established. OAW-42 sublines showed high resistance, the SK-OV-3 sublines only low resistance. OAW-42 sublines showed a cross-resistance profile typical of multidrug resistance (MDR). The sublines of SK-OV-3 showed a cross-resistance profile different from the OAW-42 sublines. The mRNA expression of several resistance proteins and related factors was analyzed. An overexpression of P-glycoprotein 170 (P-170), glutathione-S-transferase-pi (GST-pi), thymidylate synthase (TS), glutathione peroxidase (GP) and c-jun was found in OAW-dox and OAW-tax cells. Additionally, OAW-tax cells expressed a higher mRNA level of protein kinase Cbeta2. DNA analysis revealed a 2-fold gene amplification of P-170, whereas the genes for GST-pi, TS and GP were not amplified. SK-OV-dox and SK-OV-tax cells showed a decreased level of histone 3 (H3) and TS mRNA. This shows that the sublines of OAW-42 developed resistance by co-expression of several resistance-related proteins and proto-oncogenes whereas the sublines of SK-OV-3 expressed resistance by decreased expression of the proliferation-dependent proteins H3 and TS.
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PMID:Messenger RNA expression of resistance proteins and related factors in human ovarian carcinoma cell lines resistant to doxorubicin, taxol and cisplatin. 907 15

We have previously shown that several protein kinases are present in higher activity levels in multidrug resistant cell lines, such as KB-V1. We have now isolated a gene that codes for a putative protein kinase, PKY, of over 130 kDa that is expressed at higher levels in multidrug-resistant cells. RNA from KB-V1 multidrug-resistant cells was reverse-transcribed and amplified by using primers derived from consensus regions of serine threonine kinases and amplified fragments were used to recover overlapping clones from a KB-V1 cDNA library. An open reading frame of 3648 bp of DNA sequence predicting 1215 aa, has been identified. This cDNA hybridizes to a mRNA of about 7 kb which is expressed at high levels in human heart and muscle tissue and overexpressed in drug-resistant KB-V1 and HL60/ADR cells. Because its closest homolog is the yeast serine/threonine kinase, Yak1, we have called this gene PKY. PKY is also related to the protein kinase family that includes Cdks, Gsk-3, and MAPK proline-directed protein kinases. This protein represents the first of its type known in mammals and may be involved in growth control pathways similar to those described for Yak1, as well as possibly playing a role in multidrug resistance.
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PMID:Identification and sequence of human PKY, a putative kinase with increased expression in multidrug-resistant cells, with homology to yeast protein kinase Yak1. 937 37

Drug resistance is a well recognized problem in cancer therapy. Despite the current dogma that drug resistance is always an obstacle for treatment, here I show that it provides opportunities for selective protection of non-resistant cells with killing of drug-resistant cancer cells. According to the proposed 'two-drug' strategy, the first drug should be ineffective against a target drug-resistant cell (ie the drug is a substrate of MRP or Pgp pumps). In addition, it must be cytostatic but not cytotoxic. The second drug, which is applied in sequence, must be a cycle-dependent apoptotic drug to which the target cell is not cross-resistant. Thus, low doses of adriamycin, etoposide and actinomycin D, used as the first drugs, were cytostatic to parental HL60 cells. Therefore, these drugs precluded Bcl-2/Raf-1 phosphorylation, PARP cleavage and cell death which are otherwise induced by paclitaxel, a mitosis-selective apoptotic drug for HL60 cells. In contrast, HL60/ADR cells which express MRP, a transporter which pumps out the first drugs from a cell, were insensitive to the first drugs and therefore readily underwent apoptosis following the second drug. This strategy also allowed a selective killing of HL60/TX cells which express MDR-1, with the only difference being that the second drug, paclitaxel, was substituted for epothilones, non-Pgp substrates. Lack of protection by the first drug, a Pgp substrate, resulted in HL60/TX killing by the second drug, whereas parental HL-60 cells were fully protected. Therefore, drug resistant cells can be selectively killed by a combination of drugs not killing sensitive cells. Lack of toxicity against normal cells will be clinically translated in reduction of adverse side-effects of chemotherapy against drug-resistant malignancies.
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PMID:Drug-resistance enables selective killing of resistant leukemia cells: exploiting of drug resistance instead of reversal. 1060 25

The precise molecular events involved in the development of drug resistance (DR) remain largely unknown. Raf is an intermediate in the signal transduction cascades initiated by growth factors. The hypothesis behind the following studies is that deregulated Raf-1 expression plays a role in the development of drug resistance. A positive correlation was observed between increased Raf-1 activity and increased values for IC50 for doxorubicin in established cell lines. The National Cancer Institute/Adriamycin Resistant (NCI/ADR-RES) cell line exhibited both the highest Raf-1 activity and the highest IC50 values for doxorubicin (Adriamycin). In contrast, the MCF-7 cell line exhibited both lower Raf activity and lower IC50 values for doxorubicin. While MCF-7 cells transfected with either constitutively active DeltaRaf-1 or conditionally active DeltaRaf-1:AR demonstrated increased IC50 values for doxorubicin and a reduced capacity to undergo apoptosis after doxorubicin treatment as compared with parental cell lines. Moreover, growth curves performed show that both the constitutively and conditionally active forms of Raf-1 do not increase growth as compared with the parental MCF-7 cell line. This is important because it implies that higher cell counts between Raf transfectants and the parental MCF-7 cell line are attributable to differences in DR, not growth rates. These observations suggest a role for the Raf-1 protooncogene in the regulation of DR.
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PMID:Role of the Raf signal transduction cascade in the in vitro resistance to the anticancer drug doxorubicin. 1155 8

Doxorubicin is a widely used anti-cancer drug. It is assumed to act by inhibiting DNA replication or transcription, although its precise targets and mechanism of cytotoxicity remain unresolved. A T7 phage library expressing human liver cDNA was screened against immobilized doxorubicin to isolate doxorubicin binding proteins. The selected phage contained the C-terminal region of nucleolar phosphoprotein hNopp140, an important factor in the biogenesis of the nucleolus. When the cloned sequence was expressed in E. coli, the recombinant protein was phosphorylated by casein kinase II and oligomerized in the presence of magnesium and fluoride ions, as occurs in vivo. Doxorubicin bound to the expressed protein with a dissociation constant of 4.5 x 10(-6) M, and this interaction was inhibited by the phosphorylation of hNopp140. These results suggested that doxorubicin might disrupt the cellular function of hNopp140.
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PMID:Identification of hNopp140 as a binding partner for doxorubicin with a phage display cloning method. 1188 30

We previously reported that adrenomedullin produced by cardiac myocytes acts as a local modulator in some cardiac disorders. However, the role of adrenomedullin (AM) in cardiomyocyte apoptosis remains to be clarified. The present study investigated the effect of AM on doxorubicin-induced cardiac myocyte apoptosis. Doxorubicin increased the number of cells with pyknotic nuclei and lactate dehydrogenase release, and AM dose-dependently (10(-10)-10(-8)6 M) inhibited these increases produced by doxorubicin. Treatment with AM also suppressed doxorubicin-induced DNA fragmentation and caspase-3 activation. 8-Bromo-cAMP, a cAMP analog, mimicked these antiapoptotic effects of AM. An AM/calcitonin gene-related peptide (CGRP) receptor antagonist CGRP-(8-37) and a protein kinase A inhibitor H89 attenuated the antiapoptotic effect of AM. CGRP-(8-37) and H89 had no apoptotic effect alone, but accelerated doxorubicin-induced apoptosis. Under serum-free conditions, AM secretion into the culture medium and expression of AM mRNA were significantly increased after treatment with doxorubicin. Hydrogen peroxide scavenger catalase and antioxidant N-acetyl-L-cysteine inhibited the doxorubicin-mediated increase in AM secretion and its gene expression. These results indicate that AM inhibits doxorubicin-induced cardiac myocyte apoptosis through a cAMP-dependent mechanism and suggest that augmented production of AM by doxorubicin has an endogenous antiapoptotic effect. AM, as an autocrine factor, may play a protective role against cardiomyocyte injury by doxorubicin.
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PMID:Adrenomedullin inhibits doxorubicin-induced cultured rat cardiac myocyte apoptosis via a cAMP-dependent mechanism. 1219 65

Cardiac hypertrophy is an end point of chronic cardiac toxicity from a number of toxicants. Doxorubicin, cocaine, acetaldehyde, monocrotaline, and azide are examples of these toxicants, which may induce hypertrophy by increasing oxidants, circulating levels of catecholamines, and hemodynamic load or by inducing hypoxia. We summarize here the major signal transduction pathways and common changes in gene expression found with the classical hypertrophy inducers angiotensin II, endothelin 1, and catecholamines. Activation of G-proteins, calcium signaling, phosphoinositide 3-kinase (PI3K), certain family members of protein kinase Cs (PKCs), and three branches of mitogenactivated protein kinases (MAPKs), i.e. extracellular signal-regulated kinases (ERKs), p38, and c-Jun N-terminal kinases (JNKs), are important for developing a hypertrophic phenotype in cardiomyocytes. Characteristic changes of gene expression in hypertrophy include the elevated transcription of atrial natriuretic factor (ANF), beta-myosin heavy chain (beta MHC), skeletal alpha-actin (SkA), certain variants of integrins and perhaps tubulin genes, and reduced expression of the sarcoplasmic reticulum proteins phospholamban and sarco(endo)plasmic reticulum Ca2+-ATPase 2 alpha (SERCA2 alpha), and of the ryanodine receptors. Although which toxicants induce these molecular changes remains to be tested, increasing lines of evidence support that oxidants play a central role in cardiac hypertrophy. Oxidants activate small G-proteins, calcium signaling, PI3K, PKCs, and MAPKs. Oxidants cause cardiomyocytes to enlarge in vitro. Recent developments in transgenic, genomic, and proteomic technologies will provide needed tools to reveal the mechanism of chronic cardiac toxicity at the cellular and molecular levels.
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PMID:Molecular mechanisms of cardiac hypertrophy induced by toxicants. 1221 66

The aim of this study was to test the hypothesis that some of the proliferative effects of steroid hormones on cancer cells are mediated by the Raf proto-oncogenes. The human breast cancer cell line MCF-7 is estrogen-receptor (ER) positive (+). NCI/ADR-RES is a human cell line lacking the estrogen receptor (ER-) that was initially named MCF-ADR. Raf-1, A-Raf and B-Raf kinase activities were examined in cell lines treated with beta-estradiol for 24 hours. Increases in Raf-1 and A-Raf activities were observed after treatment with beta-estradiol in the ER (+) MCF-7 cells but not in the ER (-) NCI/ADR-RES cells. In contrast, no significant changes in B-Raf activity were observed. Thus beta-estradiol can induce Raf-1 and A-Raf activities in ER (+) cells. In addition, beta-estradiol caused cell cycle progression in MCF-7 cells and an increased proliferative response to beta-estradiol was observed in MCF-7, which overexpressed constitutively-active Raf-1 (MCF/DeltaRaf-1). Increased mRNA levels of the ligand for the c-erb-B2 receptor, amphiregulin (ARG) were observed after beta-estradiol treatment of MCF-7 cells whereas constitutively higher levels of ARG and its receptor, c-erb-B2 mRNAs were detected in MCF/DeltaRaf-1 cells. These findings suggest that targeting Raf may prove efficacious in breast cancer therapies.
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PMID:The effects of beta-estradiol on Raf activity, cell cycle progression and growth factor synthesis in the MCF-7 breast cancer cell line. 1243 73

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