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

Angiogenin is a 14.4-kDa human plasma protein with 65% homology to RNase A that retains the key active site residues and three of the four RNase A disulfide bonds. We demonstrate that recombinant angiogenin functions as a cytotoxic tRNA-specific RNase in cell-free lysates and when injected into Xenopus oocytes. Inhibition of protein synthesis by angiogenin correlates with degradation of endogenous oocyte tRNA. Exogenous, radiolabeled tRNA is also hydrolyzed by angiogenin, whereas oocyte rRNA and mRNA are not detectably degraded by angiogenin. Protein synthesis was restored to angiogenin-injected oocytes by injecting the RNase inhibitor RNasin plus total Xenopus or calf liver tRNAs, thereby demonstrating that the tRNA degradation induced by angiogenin was the sole cause of cytotoxicity. A similar tRNA-reversible inhibition of protein synthesis was seen in rabbit reticulocyte lysates. Angiogenin therefore appears to be a specific cellular tRNase, whereas five homologues in the RNase A superfamily lack angiogenin's specificity for tRNA. One of these homologues purified from human eosinophils, eosinophil-derived neurotoxin, nonspecifically degrades oocyte RNA similar to RNase A and is also cytotoxic at very low concentrations.
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PMID:Angiogenin is a cytotoxic, tRNA-specific ribonuclease in the RNase A superfamily. 140 May 10

Angiogenin is a potent blood-vessel-inducing polypeptide with a molecular weight of 14,000 that has a unique ribonucleolytic activity. First isolated from the conditioned medium of tumour cells, angiogenin has since been purified from normal plasma, which suggested that its propensity to induce neovascularization should be strictly controlled. Modulation of that activity might involve interaction of angiogenin with cell-surface receptors and extracellular matrix of endothelial cells, tight-binding inhibition of both its ribonucleolytic activity and cell binding property by ribonuclease inhibitor, as well as the overall influence of divalent copper, a modulator of angiogenesis.
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PMID:In vivo and in vitro studies of angiogenin--a potent angiogenic factor. 172 10

Several toxins abolish cellular protein synthesis by attacking specific sites in 28 S RNA. One of these toxins, alpha-sarcin, is an RNase that also cleaves nonspecifically on the 3' side of purines in deproteinized RNA. Several other RNases were injected into Xenopus oocytes, examined for their ability to abolish protein synthesis, and compared with alpha-sarcin and ricin. Surprisingly, pancreatic RNase A or B abolished oocyte protein synthesis at concentrations (approximately 0.03 nM) comparable to, or lower than, the amount of alpha-sarcin (approximately 2 nM) or ricin (approximately 0.07 nM) required to abolish protein synthesis. RNases S and T1 only inhibited oocyte protein synthesis when used at concentrations approximately 10 x higher than RNase A whereas RNases C, T2, U2, and nuclease P1 required concentrations approximately 100 times higher than RNase A to abolish protein synthesis. There was a direct correlation between the degradation of oocyte RNA and the inhibition of protein synthesis. The RNase inhibitors RNasin and Inhibit-Ace injected into the oocyte both prevented RNase A from hydrolyzing oocyte rRNA and abolishing protein synthesis. Enzymatically inactive oxidized RNase A did not inhibit protein synthesis when injected into the oocyte. None of the RNases or alpha-sarcin abolished protein synthesis when added to oocyte extracellular medium. Angiogenin is a human plasma protein that induces blood vessel formation in chick embryos, has 35% amino acid identity with RNase A, and cleaves 18 S and 28 S RNA in rabbit reticulocyte lysates (St. Clair, D. K., Rybak, S. M., Riordan, J. F. & Vallee, B. L. (1988) Biochemistry 27, 7263-7268, and references therein). Recombinant angiogenin injected into oocytes abolished protein synthesis, and this toxic effect was inhibited by RNasin but was not inhibited by Inhibit-Ace. Unlike RNase A and the other nucleases that hydrolyzed cellular rRNA, no cleavage of 18 or 28 S RNA by recombinant angiogenin was seen at concentrations 100 x greater than necessary to abolish protein synthesis. Recombinant angiogenin must selectively attack specific RNA(s) or another target in the cell.
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PMID:Comparison of RNases and toxins upon injection into Xenopus oocytes. 193 63

Angiogenin is a 14 kD protein, initially isolated as a tumour-cell secreted product but subsequently found to be a normal constituent of human plasma. It is a potent inducer of blood vessel formation on the chorioallantoic membrane of the chick embryo. Chemical characterization of the protein reveals a remarkable homology to the pancreatic ribonuclease family and has led to the identification of a unique ribonucleolytic activity for angiogenin. It is a particularly potent inhibitor of in vitro protein synthesis. Treatment with placental ribonuclease inhibitor abolishes the biological and enzymatic activities of angiogenin, an effect with important mechanistic, physiological and pharmacologic implications.
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PMID:Human angiogenin, an organogenic protein. 245 89

Human angiogenin is a blood vessel inducing protein whose primary structure displays 33% identity to that of bovine pancreatic ribonuclease A (RNase A). Angiogenin catalyzes limited cleavage of 18S and 28S ribosomal RNA and is several orders of magnitude less potent than RNase A toward conventional substrates. A striking structural difference between angiogenin and RNase is the virtual absence of sequence similarity within the region of RNase that contains the Cys-65--Cys-72 disulfide bond. Indeed, angiogenin lacks this disulfide linkage. The present report describes the use of regional mutagenesis to generate a covalent angiogenin/RNase hybrid protein, ARH-I, where residues 58-70 of angiogenin have been replaced by the corresponding segment of RNase A (residues 59-73). The protein expressed in Escherichia coli readily folds at pH 8.5 to form the four expected disulfide bonds. The in vivo angiogenic potency of ARH-I is markedly diminished compared with that of angiogenin when examined using the chick chorioallantoic membrane assay. In contrast, its enzymatic activity is dramatically increased. With high molecular weight wheat germ RNA and tRNA, ARH-I is 660- and 300-fold more active than angiogenin, respectively, while with poly(uridylic acid), poly(cytidylic acid), cytidylyl(3'----5')adenosine (CpA), and uridylyl(3'----5')adenosine (UpA) activity is enhanced by about 200-fold. In addition, the specificity of ARH-I toward dinucleoside 3',5'-phosphates is qualitatively similar to RNase A; while angiogenin prefers cytidylyl(3'----5')guanosine (CpG) to UpA, both RNase and the hybrid prefer UpA to CpG. ARH-I also displays greater than 10-fold enhanced activity toward rRNA in intact ribosomes, while abolishing the capacity of the ribosome to support cell-free protein synthesis. The enhanced enzymatic properties of ARH-I parallel a 2-fold increase in chemical reactivity of active-site lysine and histidine residues based on rates of chemical modification. The data indicate that introduction of a region of RNase A containing the Cys-65--Cys-72 disulfide bond into angiogenin dramatically increases RNase-like enzymatic activity while reducing its angiogenicity.
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PMID:A covalent angiogenin/ribonuclease hybrid with a fourth disulfide bond generated by regional mutagenesis. 271 39

The amino acid sequence and disulfide bond pairing of human tumor derived angiogenin, the first tumor angiogenesis factor to be isolated in pure form from human sources, have been determined by conventional sequencing techniques adapted and applied to nanomole and subnanomole levels of material. Angiogenin, obtained from conditioned media of a human colonic adenocarcinoma cell line, is a single-chain protein consisting of 123 amino acids with the following sequences: less than Glu1-Asp-Asn-Ser-Arg-Tyr-Thr-His- Phe-Leu-Thr-Gln-His-Tyr-Asp15-Ala-Lys-Pro-Gln-Gly-Arg-Asp-Asp- Arg-Tyr-Cys-Glu-Ser-Ile-Met30- Arg-Arg-Arg-Gly-Leu-Thr-Ser-Pro-Cys-Lys-Asp-Ile-Asn-Thr- Phe45-Ile-His-Gly-Asn-Lys-Arg-Ser -Ile-Lys-Ala-Ile-Cys-Glu-Asn-Lys60-Asn-Gly-Asn-Pro-His-Arg-Glu-Asn -Leu-Arg-Ile -Ser-Lys-Ser-Ser75 -Phe-Gln-Val-Thr-Thr-Cys-Lys-Leu-His-Gly-Gly-Ser-Pro-Trp-Pro90-Pro -Cys-Gln-Tyr -Arg-Ala-Thr-Ala -Gly-Phe-Arg-Asn-Val-Val-Val105-Ala-Cys-Glu-Asn-Gly-Leu-Pro-Val- His-Leu-Asp-Gln-Ser-Ile-Phe120-Arg-Arg-Pro123-OH. Three disulfide bonds link the half-cystinyl residues 26-81, 39-92, and 57-107. The sequence is homologous to that of the pancreatic ribonucleases with 35% identity and many of the remaining residues conservatively replaced. Similarities are especially apparent around the major active-site residues His-12, Lys-41, and His-119 of ribonuclease which are conserved as are three of the four disulfide bonds.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amino acid sequence of human tumor derived angiogenin. 286 94

Angiogenin, which induces the formation of new blood vessels, was isolated previously from two human sources--HT-29 tumor conditioned media and normal plasma. By use of a newly developed binding assay, a similar protein has now been purified from bovine plasma at levels of 30-80 micrograms/L. This protein has the structural, enzymatic, and biological characteristics expected for an angiogenin molecule. Its amino acid composition is similar to that of the human protein, and 22 of 31 residues in the amino-terminal sequences are identical, including a block of 11 consecutive residues. Like human angiogenin, the bovine protein binds placental ribonuclease inhibitor, is inactive toward conventional RNase A substrates, and displays selective ribonucleolytic activity toward some rRNAs. In addition, the bovine protein induces angiogenesis in vivo in the chick embryo chorioallantoic membrane assay at levels as low as 44 fmol per egg. Thus, angiogenin is present in bovine sera at levels similar to those observed in man, and its enzymatic and biological activities are identical with those of the human protein.
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PMID:Isolation of bovine angiogenin using a placental ribonuclease inhibitor binding assay. 306 6

The base cleavage specificity of angiogenin toward naturally occurring polyribonucleotides has been determined by using rapid RNA sequencing technology. With 5S RNAs from Saccharomyces cerevisiae and Escherichia coli, angiogenin cleaves phosphodiester bonds exclusively at cytidylic or uridylic residues, preferably when the pyrimidines are followed by adenine. However, not all of the existent pyrimidine bonds in the 5S RNAs are cleaved, likely owing to elements of structure in the substrate. Despite the high degree of sequence homology between angiogenin and ribonuclease A (RNase A), which includes all three catalytic as well as substrate binding residues, the cleavage patterns with natural RNAs are unique to each enzyme. Angiogenin significantly hydrolyzes certain bonds that are not appreciably attacked by RNase A and vice versa. The different cleavage specificities of angiogenin and RNase A may account for the fact that the former is angiogenic while the latter is not.
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PMID:Base cleavage specificity of angiogenin with Saccharomyces cerevisiae and Escherichia coli 5S RNAs. 328 12

The primary structures of the blood vessel inducing protein human angiogenin and human pancreatic ribonuclease (RNase) are 35% identical. Angiogenin catalyzes the limited cleavage of ribosomal RNA (18 and 28 S), yielding a characteristic pattern of polynucleotide products, but shows no significant activity toward conventional pancreatic RNase substrates [Shapiro, R., Riordan, J. F., & Vallee, B. L. (1986) Biochemistry 25, 3527-3532]. Angiogenin/RNase hybrid enzymes--wherein particular regions of primary structure in RNase are replaced by the corresponding segments of angiogenin--serve to explore the structural features underlying angiogenin's characteristic activities. Herein we show that synthetic angiogenin peptides, Ang(1-21) and Ang(108-123), form noncovalent complexes with inactive fragments of bovine RNase A--RNase(21-124) (i.e., S-protein) and RNase(1-118), respectively--with regeneration of activity toward conventional RNase substrates. Maximal activities for the Ang(1-21)/S-protein complex (Kd = 1.0 microM) are 52%, 45%, and 15% toward cytidine cyclic 2',3'-phosphate, cytidylyl(3'----5')adenosine, and yeast RNA, respectively. In contrast, activities of the RNase(1-118)/Ang(108-123) hybrid (Kd = 25 microM) are 1-2 orders of magnitude lower toward cyclic nucleotides and dinucleoside phosphates. However, substitution of phenylalanine for Leu-115 in Ang(108-123) increases activity up to 100-fold. Both His-13 and His-114 in the angiogenin peptides are required for activity since their substitution by alanine yields inactive complexes. Importantly, the pattern of polynucleotide products formed during cleavage of ribosomal RNA by the Ang(1-21)/S-protein hybrid shows a striking resemblance to that formed by angiogenin, demonstrating that the hybrid retains features of both angiogenin and RNase A.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enzymatically active angiogenin/ribonuclease A hybrids formed by peptide interchange. 334 27

Angiogenin is a potent inhibitor of cell-free protein synthesis. When incubated with rabbit reticulocyte lysate at a concentration of 40-60 nM, it completely abolishes the capacity of the lysate to support protein synthesis. The inhibition appears to be due to its ribonucleolytic activity since it (i) generates limited cleavage products from reticulocyte RNA and (ii) is prevented from both cleaving RNA and inhibiting protein synthesis by placental RNase inhibitor. The ribonucleolytic activity of angiogenin toward the reticulocyte RNA system is highly specific. Thus, under conditions where angiogenin totally abolishes protein synthesis, an equivalent concentration of pancreatic RNase A inhibits it only partially. In contrast, RNase A is a much more effective enzyme than angiogenin using isolated RNA as substrate. Angiogenin inhibits protein synthesis by cleaving rRNA, thereby inactivating the protein synthesis machinery. Addition of isolated reticulocyte ribosomes to an angiogenin-treated lysate restores the capacity for protein synthesis, whereas addition of tRNA or mRNA does not. This potent effect on protein synthesis suggests a possible physiological function of angiogenin whose overall relevance and implications should become evident as the mechanisms of neovascularization are deciphered. The use of angiogenin may also further elucidate ribosome structure and its role in protein synthesis.
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PMID:Angiogenin abolishes cell-free protein synthesis by specific ribonucleolytic inactivation of ribosomes. 347 95


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