EC:3.1.27.5 - FACTA Search

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Onconase is an amphibian protein that is now in Phase III clinical trials as a cancer chemotherapeutic. Human pancreatic ribonuclease (RNase 1) is homologous to Onconase but is not cytotoxic. Here, ERDD RNase 1, which is the L86E/N88R/G89D/R91D variant of RNase 1, is shown to have conformational stability and ribonucleolytic activity similar to that of the wild-type enzyme but > 10(3)-fold less affinity for the endogenous cytosolic ribonuclease inhibitor protein. Most significantly, ERDD RNase 1 is toxic to human leukemia cells. The addition of a non-native disulfide bond to ERDD RNase 1 not only increases the conformational stability of the enzyme but also increases its cytotoxicity such that its IC(50) value is only 8-fold greater than that of Onconase. Thus, only a few amino acid substitutions are necessary to make a human protein toxic to human cancer cells. This finding has significant implications for human cancer chemotherapy.
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PMID:Endowing human pancreatic ribonuclease with toxicity for cancer cells. 1155 55

Ranpirnase (Onconase) is the first ribonuclease to enter cancer clinical trials. In prior phase II trials, responses were seen in mesothelioma and other solid tumors. This phase II trial tested ranpirnase (480 microg/m2/w) in 14 patients with refractory advanced renal cell cancer. The median performance status was zero and the median age was 55. All patients had prior immunotherapy and three had prior chemotherapy. No responses were seen in 14 patients. The median survival from on study was 16 months (range two to 28 months). At this dose and schedule ranpirnase has minimal activity in metastatic renal cell cancer.
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PMID:A phase II trial of weekly intravenous ranpirnase (Onconase), a novel ribonuclease in patients with metastatic kidney cancer. 1156 84

We present sequences of five novel RNase A superfamily ribonuclease genes of the bullfrog, Rana catesbeiana. All five genes encode ribonucleases that are similar to Onconase, a cytotoxic ribonuclease isolated from oocytes of R. pipiens. With amino acid sequence data from 14 ribonucleases from three Rana species (R. catesbeiana, R. japonica, and R. pipiens), we have constructed bootstrap-supported phylogenetic trees that reorganize these ribonucleases into five distinct lineages--the pancreatic ribonucleases (RNases 1), the eosinophil-associated ribonucleases (RNases 2, 3, and 6), the ribonucleases 4, the angiogenins (RNases 5) and the Rana ribonucleases--with the Rana ribonucleases no more closely related to the angiogenins than they are to any of the other ribonuclease lineages shown. Further phylogenetic analysis suggests the division of the Rana ribonucleases into two subclusters (A and B), with positive (Darwinian) selection (dN/dS > 1.0) and an elevated rate of radical nonsynonymous substitution (dR) contributing to the rapid diversification of ribonucleases within each cluster. This pattern of evolution-rapid diversification via positive selection among sequences of a multigene cluster-bears striking resemblance to what we have described for the eosinophil-associated ribonuclease genes of the rodent Mus musculus, a finding that may have implications with respect the physiologic function of this unique family of proteins.
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PMID:Rapid diversification of RNase A superfamily ribonucleases from the bullfrog, Rana catesbeiana. 1168 20

Onconase(ONC) is an amphibian ribonuclease that is in clinical trials as a cancer chemotherapeutic agent. ONC is a homolog of ribonuclease A (RNase A). RNase A can be made toxic to cancer cells by replacing Gly(88) with an arginine residue, thereby enabling the enzyme to evade the endogenous cytosolic ribonuclease inhibitor protein (RI). Unlike ONC, RNase A contains a KFERQ sequence (residues 7-11), which signals for lysosomal degradation. Here, substitution of Arg(10) of the KFERQ sequence has no effect on either the cytotoxicity of G88R RNase A or its affinity for RI. In contrast, K7A/G88R RNase A is nearly 10-fold more cytotoxic than G88R RNase A and has more than 10-fold less affinity for RI. Up-regulation of the KFERQ-mediated lysosomal degradation pathway has no effect on the cytotoxicity of these ribonucleases. Thus, KFERQ-mediated degradation does not limit the cytotoxicity of RNase A variants. Moreover, only two amino acid substitutions (K7A and G88R) are shown to endow RNase A with cytotoxic activity that is nearly equal to that of ONC.
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PMID:KFERQ sequence in ribonuclease A-mediated cytotoxicity. 1180 5

Onconase (ONC) is a ribonuclease isolated from amphibian oocytes that is cytostatic and cytotoxic to numerous tumor lines. ONC shows in vivo anti-tumor activity in mouse tumor models and is currently in Phase III clinical trials. Previous studies indicated that ONC induces apoptosis of the target cells most likely along the mitochondrial pathway involving caspase-9 as the initiator caspase. We have recently developed an approach to detect the activation of serine (Ser) proteases during apoptosis. The method is based on affinity labeling of Ser protease active centers with fluorochrome-tagged inhibitors. The aim of the present study was to reveal whether Ser proteases are activated during apoptosis induced by ONC. Human leukemic HL-60 cells were treated with ONC for up to 72 h and then exposed to 5(6)-carboxyfluoresceinyl-L-phenylalanylchloromethyl ketone (FFCK) or 5(6)-carboxyfluoresceinyl-L-leucylchloromethyl ketone (FLCK), the fluorescing green reagents reactive with active centers of the chymotrypsin-like enzymes that cleave proteins at the Phe (FFCK) or Leu (FLCK) site. Activation of caspases was assayed in the same cells using sulforhodamine-labeled (fluorescing red) pan-caspases inhibitor (SR-VAD-FMK). Administration of 1.67 microM ONC into cultures of HL-60 cells led to the appearance of cells that bound SR-VAD-FMK as well as FFCK and FLCK. Most labeled cells had features characteristic of apoptosis. We interpret the binding of these ligands, which was irreversible and withstood cell fixation, as revealing activation of caspases and chymotrypsin-like Ser proteases. Because the induction of binding of each of the three ligands occurred at approximately the same time, the data suggest that during apoptosis caspases and Ser proteases may transactivate each other. The intercellular and subcellular pattern of binding SR-VAD-FMK vs FFCK or vs FLCK was different indicating a variability in abundance and localization of these enzymes within individual apoptotic cells. The FFCK- and FLCK-reactive proteins were of similar molecular mass, approximately 59 and approximately 57 kDa, respectively.
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PMID:Activation of caspases and serine proteases during apoptosis induced by onconase (Ranpirnase). 1212 58

Onconase (Onc) is an amphibian ribonuclease of the pancreatic RNase family that is cytostatic and cytotoxic to several tumor lines. It also shows anti-tumor activity in mouse tumor models and is currently in phase III clinical trials. In animal tests and clinical trials Onc shows lesser toxicity and fewer side effects compared to most chemotherapeutic drugs. Intriguingly, repeated infusions of this protein do not cause apparent immunological reactions in patients. The aim of the present study was to investigate sensitivity to Onc of human lymphocytes during their mitogenic stimulation in response to the polyvalent mitogen phytohemagglutinin (PHA), and in mixed allogeneic lymphocyte cultures. Unexpectedly, we observed that frequency of cells undergoing activation-induced apoptosis was markedly increased in all cultures containing Onc. Apoptosis was measured by flow cytometry using markers that detect activation of caspases, the in situ presence of DNA strand breaks, and loss of fragmented DNA ('sub-G1' cell subpopulation). The enhancement of frequency of activation-induced apoptosis (up to 244%) was observed at 4.2-83 nM Onc concentration, which is at least an order magnitude lower than its minimal concentration reported to affect proliferation or induce apoptosis of leukemic and solid tumor cell lines. The cell cycle progression of lymphocytes that responded to PHA mitogenically was not affected at 8.3 or 83 nM Onc concentration. Because activation-induced apoptosis is the key mechanism regulating several in vivo immunological functions including induction of tolerance, the observed effects of Onc may explain the apparent lack of immune reactions to this protein in treated patients. The propensity of Onc to potentiate the activation-induced apoptosis suggests that this drug may have clinical utility as immunomodulating agent, e.g., to suppress transplant rejection or treat autoimmune diseases.
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PMID:Enhancement of activation-induced apoptosis of lymphocytes by the cytotoxic ribonuclease onconase (Ranpirnase). 1242 74

Cytosolic internalization is a requirement for the toxicity of secretory ribonucleases. Here, we investigate the mechanism of internalization of Onconase (ONC), a toxic protein, and ribonuclease A (RNase A), a nontoxic homolog. Microscopy studies indicate that both ribonucleases readily bind to the cell surface and are internalized via acidic vesicles. Blocking dynamin-dependent endocytosis prevents transferrin internalization but does not hinder RNase A internalization. ONC and G88R RNase A, which is a toxic variant, demonstrate enhanced cytotoxicity in the absence of clathrin- and dynamin-mediated endocytosis. The cytosolic entry of ribonucleases does not require an acidic environment or transport to the ER and probably occurs from endosomes. Thus, common proteins - secretory ribonucleases - enter the cytosol by a pathway that is distinct from that of other known toxins.
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PMID:Secretory ribonucleases are internalized by a dynamin-independent endocytic pathway. 1248 17

Onconase (ONC) is a homolog of RNase A that is in clinical trials as a cancer chemotherapeutic agent. The toxicity of ONC and RNase A variants relies on their ability to evade the cytosolic ribonuclease inhibitor protein (RI) and degrade cellular RNA. We find that these ribonucleases are more toxic for more rapidly growing cells. The enhanced cytotoxicity does not arise from variation in the endogenous level of RI, which is virtually constant. Overproduction of RI diminishes the potency of toxic RNase A variants, but has no effect on the cytotoxicity of ONC. Thus, RI constrains the cytotoxicity of RNase A. These data provide new insights for the development of an optimal ribonuclease-based cancer chemotherapy.
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PMID:Ribonuclease inhibitor as an intracellular sentry. 1256 Apr 99

Onconase (ONC), a homologue of ribonuclease A (RNase A), is in clinical trials for the treatment of cancer. ONC possesses a conserved active-site catalytic triad, which is composed of His10, Lys31, and His97. The three-dimensional structure of ONC suggests that two additional residues, Lys9 and an N-terminal lactam formed from a glutamine residue (Pca1), could also contribute to catalysis. To determine the role of Pca1, Lys9, and Lys31 in the function of ONC, site-directed mutagenesis was used to replace each with alanine. Values of k(cat)/K(M) for the variants were determined with a novel fluorogenic substrate, which was designed to match the nucleobase specificity of ONC and gives the highest known k(cat)/K(M) value for the enzyme. The K9A and K31A variants display 10(3)-fold lower k(cat)/K(M) values than the wild-type enzyme, and a K9A/K31A double variant suffers a >10(4)-fold decrease in catalytic activity. In addition, replacing Lys9 or Lys31 eliminates the antitumoral activity of ONC. The side chains of Pca1 and Lys9 form a hydrogen bond in crystalline ONC. Replacing Pca1 with an alanine residue lowers the catalytic activity of ONC by 20-fold. Yet, replacing Pca1 in the K9A variant enzyme does not further reduce catalytic activity, revealing that the function of the N-terminal pyroglutamate residue is to secure Lys9. The thermodynamic cycle derived from k(cat)/K(M) values indicates that the Pca1...Lys9 hydrogen bond contributes 2.0 kcal/mol to the stabilization of the rate-limiting transition state during catalysis. Finally, binding isotherms with a substrate analogue indicate that Lys9 and Lys31 contribute little to substrate binding and that the low intrinsic catalytic activity of ONC originates largely from the low affinity of the enzyme for its substrate. These findings could assist the further development of ONC as a cancer chemotherapeutic.
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PMID:Contribution of active-site residues to the function of onconase, a ribonuclease with antitumoral activity. 1451 95

Some members of the ribonuclease superfamily, such as Onconase, are cytotoxic to cancer cells. This is not the case for human pancreatic ribonuclease. This lack of cytotoxicity is probably a result of the inhibition exerted by the cytosolic ribonuclease inhibitor once the protein has reached the cytosol. Until now, all cytotoxic human pancreatic ribonuclease variants have been described as being resistant to the inhibitor. Here, we report on the characterization of a cytotoxic variant of human pancreatic ribonuclease which has an Arg triplet introduced onto one of its surface-exposed loops. Despite its sensitivity to the inhibitor, this variant, called PE5, was only 5-15 times less cytotoxic than Onconase. When it was taken up by cells, it was only observed within late compartments of the endocytic pathway, probably because the number of molecules transported to the cytosol was too small to allow their visualization. Nuclear import assays showed that the Arg triplet endows PE5 with a nuclear localization signal. In these experiments, PE5 was efficiently transported to the nucleus where it was initially localized in the nucleolus. Although the Arg introduction modified the net charge of the protein and somehow impaired recognition by the cytosolic inhibitor, control variants, which had the same number of charges or were not recognized by the inhibitor, were not toxic. We concluded that targeting a ribonuclease to the nucleus results in cytotoxicity. This effect is probably due to ribonuclease interference with rRNA processing and ribosome assembly within the nucleolus.
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PMID:A nuclear localization sequence endows human pancreatic ribonuclease with cytotoxic activity. 1497 13

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