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:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The eosinophil-derived neurotoxin (EDN) and eosinophil cationic protein (ECP) are both small, cationic ribonuclease toxins that are stored in and secreted by activated human eosinophilic leukocytes. We have previously shown that optimal expression of the EDN gene is dependent on an interaction between an intronic enhancer element or elements and the 5' promoter region. Here we present evidence demonstrating that the gene encoding ECP is regulated in an analogous fashion and that an intronic enhancer element functioning in both genes is a consensus binding sequence for the transcription factor NFAT-1. Our initial results demonstrate that one or more nuclear proteins isolated from human promyelocytic leukemia (HL-60) cells bind specifically at this consensus site (5'-GGAGAA-3') within the intron of the EDN gene and that disruption of this sequence reduced the characteristic 20-30-fold increase in reporter gene activity observed with the tandem EDN promoter/exon 1/intron construct to background levels. The NFAT-1 consensus site in the ECP gene differs from that found in the EDN gene by a single nucleotide (5'-GGAGAG-3'); the conversion of the 3' G to an A resulted in a further enhancement of the reporter gene activity supported by the ECP promoter/exon 1/intron construct. Interestingly, no "supershift" was observed in gel shift assays performed in the presence of anti-NFAT-1 antiserum, suggesting that a nuclear protein other than NFAT-1 may be acting at this consensus site.
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PMID:Intronic enhancer activity of the eosinophil-derived neurotoxin (RNS2) and eosinophil cationic protein (RNS3) genes is mediated by an NFAT-1 consensus binding sequence. 899 43

Using the rapid amplification of cDNA ends (RACE) procedure, we have determined the complete nucleotide sequence for the cDNA encoding rat eosinophil cationic protein (ECP)/eosinophil-associated ribonuclease (EAR). The deduced amino acid sequence revealed that the molecular weight of rat preECP/EAR is 18.0 kDa and the isoelectric point is 9.85, indicating that rat ECP/EAR is highly cationic. The homology of amino acid sequence between rat ECP/EAR and human ECP is 54%, and that between rat ECP/EAR and human eosinophil-derived neurotoxin (EDN) is 51%. Rat ECP/EAR is also homologous to human ribonuclease k6 (homology 47%).
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PMID:Identification of cDNA encoding rat eosinophil cationic protein/eosinophil-associated ribonuclease. 911 43

Onconase is a cytotoxic ribonuclease with antitumor properties. A semisynthetic gene encoding the entire protein sequence was constructed by fusing oligonucleotides coding for the first 15 and last six of the 104 amino acid residues to a genomic clone that encoded the remaining amino acid residues. Additionally, the 15 N-terminal amino acid residues of onconase were replaced with the first 21 amino acid residues of the homologous human RNase, eosinophil-derived neurotoxin, EDN. Two versions of the hybrid EDN-onconase protein were cloned, expressed and purified. The chimera that contained a glycine in lieu of the aspartic acid present in native onconase (position 26 in the chimera) exhibited enzymatic activity more characteristic of EDN than native onconase and was considerably more active with respect to both RNase activity and cellular cytotoxicity than recombinant onconase. In contrast to native or recombinant onconase, the EDN chimera was recognized by anti-EDN polyclonal antibodies, demonstrating that the chimera also shared structural antigenic determinants to the human enzyme. These results demonstrate that a chimeric ribonuclease has cytotoxicity comparable to onconase in two out of four cell lines tested. The implications with regard to cancer therapy are presented.
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PMID:Expression and characterization of a cytotoxic human-frog chimeric ribonuclease: potential for cancer therapy. 919 72

Human eosinophils contain a number of granule proteins for which specific physiological roles remain unclear. The combined ribonucleolytic and membrane disruptive properties of the eosinophil-derived neurotoxin and eosinophil cationic protein, respectively, suggest the possibility that eosinophils might participate in host defense against enveloped single-stranded RNA viruses. To test this hypothesis, stocks of a replication-defective retrovirus encoding the reporter gene beta-galactosidase were pretreated with isolated human eosinophils, then used to transduce human erythroleukemia (K-562) target cells. Histochemical staining for beta-galactosidase activity was used to detect and quantitate the transduced cells. Co-incubation of retrovirus with eosinophils (0.4 x 10[6]/mL) before target cell transduction resulted in a marked decrease in transduction efficiency corresponding to an approximately 20-fold dilution of viral stock (P < 0.01), an effect that was directly proportional to the concentration of eosinophils, and that was reversed in the presence of ribonuclease inhibitor. Reverse transcriptase-polymerase chain reaction analysis demonstrated loss of the retroviral RNA genome as a result of eosinophil pretreatment, indicating that eosinophils are capable of mediating direct ribonucleolytic destruction of the isolated retroviral particles. Our results demonstrate that eosinophils function as effective anti-retroviral agents in vitro via the actions of their secreted ribonucleases, and suggest that eosinophils may represent an unrecognized arm of host defense against enveloped single-stranded RNA viral pathogens.
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PMID:Eosinophils inhibit retroviral transduction of human target cells by a ribonuclease-dependent mechanism. 930 75

Evolutionary mechanisms of origins of new gene function have been a subject of long-standing debate. Here we report a convincing case in which positive Darwinian selection operated at the molecular level during the evolution of novel function by gene duplication. The genes for eosinophil cationic protein (ECP) and eosinophil-derived neurotoxin (EDN) in primates belong to the ribonuclease gene family, and the ECP gene, whose product has an anti-pathogen function not displayed by EDN, was generated by duplication of the EDN gene about 31 million years ago. Using inferred nucleotide sequences of ancestral organisms, we showed that the rate of nonsynonymous nucleotide substitution was significantly higher than that of synonymous substitution for the ECP gene. This strongly suggests that positive Darwinian selection operated in the early stage of evolution of the ECP gene. It was also found that the number of arginine residues increased substantially in a short period of evolutionary time after gene duplication, and these amino acid changes probably produced the novel anti-pathogen function of ECP.
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PMID:Positive Darwinian selection after gene duplication in primate ribonuclease genes. 952 Apr 31

Onconase is a cytotoxic ribonuclease with antitumor properties. A semisynthetic gene encoding the entire protein sequence was constructed by fusing oligonucleotides coding for the first 15 and the last 6 of the 104 amino acids to a genomic clone that encoded the remaining amino acid residues [Newton, D. L., et al. (1997) Protein Eng. 10, 463-470]. The resulting protein product expressed in Escherichia coli exhibited little enzymatic or cytotoxic activity due to the unprocessed N-terminal Met amino acid residue. In this study, we demonstrate that modification of the 5'-region of the gene to encode [Met-(-1)]Ser or [Met-(-1)]Tyr instead of the native pyroglutamate results in recombinant onconase derivatives with restored activities. [Met-(-1)]rOnc(E1S) was more active than [Met-(-1)]rOnc(E1Y) in all assays tested. Consistent with the action of native onconase, [Met-(-1)]rOnc(E1S) was a potent inhibitor of protein synthesis in the cell-free rabbit reticulocyte lysate assay, degrading tRNA at concentrations that correlated with inhibition of protein synthesis. An interesting difference between the recombinant onconase derivatives and the native protein was their susceptibility to inhibition by the major intracellular RNase inhibitor, PRI (onconase is refractory to PRI inhibition). [Met-(-1)]rOnc(E1S) and [Met-(-1)]rOnc(E1Y) inhibited protein synthesis in intact SF539 neuroblastoma cells with IC50's very similar to that of onconase (IC50 3.5, 10, and 10 microg/mL after 1 day and 0.16, 0.35, and 2.5 microg/mL after 5 days for onconase, [Met-(-1)]rOnc(E1S), and [Met-(-1)]rOnc(E1Y), respectively). Similar to that of onconase, cytotoxic activity of the recombinant derivatives was potentiated by monensin, NH4Cl, and retinoic acid. Brefeldin A completely blocked the enhancement of cytotoxicity caused by retinoic acid with all three proteins. Thus, drug-induced alterations of the intracellular trafficking of the recombinant derivatives also resembles that of onconase. Stability studies as assessed in serum-containing medium in the presence or absence of cells at 37 degreesC showed that the recombinant proteins were as stable to temperature and cell culture conditions as the native protein. Therefore, exchanging the Glu amino acid residue at the amino terminus of onconase with an amino acid residue containing a hydroxyl group produces recombinant proteins with ribonuclease and cytotoxic properties similar to native onconase.
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PMID:Single amino acid substitutions at the N-terminus of a recombinant cytotoxic ribonuclease markedly influence biochemical and biological properties. 954 48

We have localized the gene encoding human RNase k6 to within approximately 120 kb on the long (q) arm of chromosome 14 by HAPPY mapping. With this information, the relative positions of the six human RNase A ribonucleases that have been mapped to this locus can be inferred. To further our understanding of the individual lineages comprising the RNase A superfamily, we have isolated and characterized 10 novel genes orthologous to that encoding human RNase k6 from Great Ape, Old World, and New World monkey genomes. Each gene encodes a complete ORF with no less than 86% amino acid sequence identity to human RNase k6 with the eight cysteines and catalytic histidines (H15 and H123) and lysine (K38) typically observed among members of the RNase A superfamily. Interesting trends include an unusually low number of synonymous substitutions (Ks) observed among the New World monkey RNase k6 genes. When considering nonsilent mutations, RNase k6 is a relatively stable lineage, with a nonsynonymous substitution rate of 0.40 x 10(-9) nonsynonymous substitutions/nonsynonymous site/year (ns/ns/yr). These results stand in contrast to those determined for the primate orthologs of the two closely related ribonucleases, the eosinophil-derived neurotoxin (EDN) and eosinophil cationic protein (ECP), which have incorporated nonsilent mutations at very rapid rates (1.9 x 10(-9) and 2.0 x 10(-9) ns/ns/yr, respectively). The uneventful trends observed for RNase k6 serve to spotlight the unique nature of EDN and ECP and the unusual evolutionary constraints to which these two ribonuclease genes must be responding. [The sequence data described in this paper have been submitted to the GenBank data library under accession nos. AF037081-AF037090.]
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PMID:Ribonuclease k6: chromosomal mapping and divergent rates of evolution within the RNase A gene superfamily. 964 35

Eosinophil cationic protein (ECP) is one of two RNase A-superfamily ribonucleases found in secretory granules of human eosinophilic leukocytes. Although the physiologic function of eosinophils [and thus of the two eosinophil ribonucleases, ECP and eosinophil-derived neurotoxin (EDN)] remains controversial, we have recently shown that isolated human eosinophils promote ribonuclease-dependent toxicity toward extracellular virions of the single-stranded RNA virus, respiratory syncytial virus, group B (RSV-B). We have also shown that recombinant human EDN (rhEDN) can act alone as a ribonuclease-dependent antiviral agent. In this work, we provide a biochemical characterization of recombinant human ECP (rhECP) prepared in baculovirus, and demonstrate that rhECP also promotes ribonuclease-dependent antiviral activity. The rhECP described here is N-glycosylated, as is native ECP, and has approximately 100-fold more ribonuclease activity than non-glycosylated rhECP prepared in bacteria. The enzymatic activity of rhECP was sensitive to inhibition by placental ribonuclease inhibitor (RI). Although rhECP was not as effective as rhEDN at reducing viral infectivity (500 nM rhECP reduced infectivity of RSV-B approximately 6 fold; 500 nM rhEDN, >50 fold), the antiviral activity appears to be unique to the eosinophil ribonucleases; no reduction in infectivity was promoted by bovine RNase A, by the amphibian ribonuclease, onconase, nor by the closely-related human ribonuclease, RNase k6. Interestingly, combinations of rhEDN and rhECP did not result in either a synergistic or even an additive antiviral effect. Taken together, these results suggest that that the interaction between the eosinophil ribonucleases and the extracellular virions of RSV-B may be specific and saturable.
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PMID:Eosinophil cationic protein/RNase 3 is another RNase A-family ribonuclease with direct antiviral activity. 964 19

ECP (eosinophil cationic protein) was first purified from human myleoid cells in 1971 and identified as an eosinophil granule protein in 1975. ECP is a heterogeneous protein with molecular weights of the variants from 16-24 kDa. ECP is extremely basic with a pI of pH 10.8. The gene for ECP is found on chromosome 14 adjacent to other proteins of the ribonuclease family, with which ECP shares some sequence homologies. ECP has a variety of biological activities interacting with other immune cells and plasma proteins such as coagulation factors and proteins of the complement system. The cytotoxic activity, however, is the most conspicuous. The different isoforms of ECP seem to have different biological properties with respect to cytotoxicity and the effects on fibroblasts. ECP can be measured in biological fluids, by means of sensitive immunoassays, as an indication of eosinophil turnover and activity in vivo.
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PMID:Eosinophil cationic protein (ECP). 967 76

Select members of the bovine pancreatic ribonuclease A (RNase A) superfamily are potent cytotoxins. These cytotoxic ribonucleases enter the cytosol, where they degrade cellular RNA and cause cell death. Ribonuclease inhibitor (RI), a cytosolic protein, binds to members of the RNase A superfamily with inhibition constants that span 10 orders of magnitude. Here, we show that the affinity of a ribonuclease for RI plays an integral role in defining the potency of a cytotoxic ribonuclease. RNase A is not cytotoxic and binds RI with high affinity. Onconase, a cytotoxic RNase A homolog, binds RI with low affinity. To disrupt the RI-RNase A interaction, three RNase A residues (Asp-38, Gly-88, and Ala-109) that form multiple contacts with RI were replaced with arginine. Replacing Asp-38 and Ala-109 with an arginine residue has no effect on the RI-RNase interaction. In addition, these variants are not cytotoxic. In contrast, replacing Gly-88 with an arginine residue yields a ribonuclease (G88R RNase A) that retains catalytic activity in the presence of RI and is cytotoxic to a transformed cell line. Replacing Gly-88 with aspartate also yields a ribonuclease (G88D RNase A) with a decreased affinity for RI and cytotoxic activity. The cytotoxic potency of onconase, G88R RNase A, and G88D RNase A correlate with RI evasion. We conclude that ribonucleases that retain catalytic activity in the presence of RI are cytotoxins. This finding portends the development of a class of chemotherapeutic agents based on pancreatic ribonucleases.
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PMID:Ribonuclease A variants with potent cytotoxic activity. 972 16


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