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Enzyme
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Query: EC:3.1.27.1 (
RNase
)
16,360
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The crystal structure of ribonuclease A (RNase A) in complex with pdUppA-3'-p [5'-phospho-2'-deoxyuridine-3'-pyrophosphate (P'-->5') adenosine 3'-phosphate] has been determined at 1.7 A resolution. This dinucleotide is the most potent low molecular weight inhibitor of RNase A reported to date (K(i) = 27 nM) and is also effective against two major nonpancreatic RNases:
eosinophil-derived neurotoxin
and
RNase
-4; in all cases, tight binding in large part derives from the unusual 3',5'-pyrophosphate internucleotide linkage [Russo, N., and Shapiro, R. (1999) J. Biol. Chem. 274, 14902-14908]. The design of pdUppA-3'-p was based on the crystal structure of RNase A complexed with 5'-diphosphoadenosine 3'-phosphate (ppA-3'-p) [Leonidas, D. D., Shapiro, R., Irons, L. I., Russo, N., and Acharya, K. R. (1997) Biochemistry 36, 5578-5588]. The adenosine of pdUppA-3'-p adopts an atypical syn conformation not observed for standard adenosine nucleotides bound to RNase A. This conformation, which allows extensive interactions with Asn 67, Gln 69, Asn 71, and His 119, is associated with the placement of the 5'-beta-phosphate of the adenylate, rather than alpha-phosphate, at the site where substrate phosphodiester bond cleavage occurs. The contacts of the deoxyuridine 5'-phosphate portion of pdUppA-3'-p appear to be responsible for the 9-fold increased affinity of this compound as compared to ppA-3'-p: the uracil base binds to Thr 45 in the same manner as previous pyrimidine inhibitors, and the terminal 5'-phosphate is positioned to form medium-range Coulombic interactions with Lys 66. The full potential benefit of these added interactions is not realized because of compensatory losses of hydrogen bonds of Lys 7 and Gln 11 with the terminal 3'-phosphate and the adenylate 5'-alpha-phosphate, which were not predicted by modeling. The results reported here have important implications for the design of improved inhibitors of RNase A and for the development of therapeutic agents to control the activities of
RNase
homologues such as
eosinophil-derived neurotoxin
and angiogenin that have roles in human pathologies.
...
PMID:Toward rational design of ribonuclease inhibitors: high-resolution crystal structure of a ribonuclease A complex with a potent 3',5'-pyrophosphate-linked dinucleotide inhibitor. 1044 Nov 22
The
eosinophil-derived neurotoxin
(
EDN
), a member of the mammalian
ribonuclease
family, is found in the large specific granules of human eosinophilic leukocytes. We have investigated the role of the C/EBP transcription factor family in the regulation of
EDN
promoter activity. Here we show that the C/EBP family is involved in intrinsic regulation of
EDN
promoter activity. We have identified a C/EBP binding site located at -124 in the proximal promoter of the
EDN
gene. Mutation of this C/EBP site results in a decrease of promoter activity in HL-60-eos cells as well as in eosinophils differentiated in vitro from CD34+ cells. Different C/EBP proteins are able to bind to the C/EBP site as shown by gel shift assay. Our results indicate the importance of the C/EBP family in the regulation of the
EDN
gene in eosinophils.
...
PMID:C/EBP regulates the promoter of the eosinophil-derived neurotoxin/RNS2 gene in human eosinophilic cells. 1053 26
The two eosinophil ribonucleases,
eosinophil-derived neurotoxin
(EDN/RNase 2) and eosinophil cationic protein (ECP/RNase 3), are among the most rapidly evolving coding sequences known among primates. The eight mouse genes identified as orthologs of EDN and ECP form a highly divergent, species-limited cluster. We present here the rat
ribonuclease
cluster, a group of eight distinct ribonuclease A superfamily genes that are more closely related to one another than they are to their murine counterparts. The existence of independent gene clusters suggests that numerous duplications and diversification events have occurred at these loci recently, sometime after the divergence of these two rodent species ( approximately 10-15 million years ago). Nonsynonymous substitutions per site (d(N)) calculated for the 64 mouse/rat gene pairs indicate that these ribonucleases are incorporating nonsilent mutations at accelerated rates, and comparisons of nonsynonymous to synonymous substitution (d(N) / d(S)) suggest that diversity in the mouse
ribonuclease
cluster is promoted by positive (Darwinian) selection. Although the pressures promoting similar but clearly independent styles of rapid diversification among these primate and rodent genes remain uncertain, our recent findings regarding the function of human EDN suggest a role for these ribonucleases in antiviral host defense.
...
PMID:Rapid evolution of the ribonuclease A superfamily: adaptive expansion of independent gene clusters in rats and mice. 1059 73
Eosinophil cationic protein (ECP) is located in the matrix of the eosinophil's large specific granule and has marked toxicity for a variety of helminth parasites, hemoflagellates, bacteria, single-stranded RNA virus, and mammalian cells and tissues. It belongs to the bovine pancreatic ribonuclease A (RNase A) family and exhibits ribonucleolytic activity which is about 100-fold lower than that of a related eosinophil
ribonuclease
, the
eosinophil-derived neurotoxin
(
EDN
). The crystal structure of human ECP, determined at 2.4 A, is similar to that of RNase A and
EDN
. It reveals that residues Gln-14, His-15, Lys-38, Thr-42, and His-128 at the active site are conserved as in all other RNase A homologues. Nevertheless, evidence for considerable divergence of ECP is also implicit in the structure. Amino acid residues Arg-7, Trp-10, Asn-39, His-64, and His-82 appear to play a key part in the substrate specificity and low catalytic activity of ECP. The structure also shows how the cationic residues are distributed on the surface of the ECP molecule that may have implications for an understanding of the cytotoxicity of this enzyme.
...
PMID:Crystal structure of eosinophil cationic protein at 2.4 A resolution. 1060 11
The eosinophil ribonucleases
eosinophil-derived neurotoxin
(EDN/RNase 2) and eosinophil cationic protein (ECP/RNase 3) are among the major secretory effector proteins of human eosinophilic leukocytes, cells whose role in host defense remains controversial and poorly understood. We have recently described the unusual manner in which this
ribonuclease
lineage has evolved, with extraordinary diversification observed in primate as well as in rodent EDNs and ECPs. The results of our evolutionary studies suggest that the EDN/ ECP ribonucleases are in the process of being tailored for a specific,
ribonuclease
-related goal. With this in mind, we have begun to look carefully at some of the intriguing associations that link eosinophils and their ribonucleases to disease caused by the single-stranded RNA viral pathogen, respiratory syncytial virus (RSV). Recent work in our laboratory has demonstrated that eosinophils can mediate a direct,
ribonuclease
-dependent reduction in infectivity of RSV in vitro, and that EDN can function alone as an independent antiviral agent. The results of this work have led us to consider the possibility that the EDN/ECP ribonucleases represent a heretofore unrecognized element of innate and specific antiviral host defense.
...
PMID:Eosinophils, ribonucleases and host defense: solving the puzzle. 1074 66
Mouse eosinophil-associated
ribonuclease
-2 (mEAR-2) is one of a cluster of genes identified in the genome of the mouse Mus musculus that are highly divergent orthologs of the primate ribonucleases,
eosinophil-derived neurotoxin
(
EDN
) and eosinophil cationic protein (ECP). Northern analysis revealed expression of genes hybridizing to mEAR-2 in mouse lung, liver and spleen tissues. We obtained full-length cDNA by hybridization screening of mouse eosinophil and lung cDNA libraries and by rapid amplification of cDNA ends (RACE) from liver, spleen and lung RNA. Using these methods we have isolated the 195 base pair (bp) 3' untranslated region (UTR) that includes a typical polyadenylation signal preceding a poly A tail and the 5' UTR which includes 63-71 bp and three distinct transcriptional start sites. Using unidirectional PCR we isolated a 361-bp 5' promoter region and delineated the intronic / exonic boundaries which include a non-coding exon 1, a single intron, and a coding exon 2, a structure that is typical of genes of the RNase A superfamily. Consensus sites for PU.1 and EoTF, both active as intronic enhancer elements of the gene encoding
EDN
, are also present in the intron of the gene encoding mEAR-2. The catalytic activity of recombinant baculovirus-derived mEAR-2 is similar to that of rhEDN from this source, with catalytic constants k(cat)/K(m)=5.6x10(6) M(-1) s(-1) and 10.5x10(6) M(-1) s(-1), respectively, against a standard yeast tRNA substrate. Sequence analysis of the non-coding regions and enzymatic characterization of the gene product provide further evidence indicating that mEAR-2 is a structural and functional ortholog of primate EDNs and ECPs.
...
PMID:Gene structure and enzymatic activity of mouse eosinophil-associated ribonuclease 2. 1131 52
Our demonstration of a 19kDa anti-Kaposi's sarcoma (KS)
ribonuclease
(
RNase
) in urine from a non-pregnant female may provide at least part of the explanation for the low incidence of KS in human females. N-terminal sequence analysis and isoelectric focusing of the purified
RNase
, coupled with the very low levels of anti-KS activity noted for recombinant forms of human
eosinophil derived neurotoxin
and human eosinophil cationic protein, suggest that the 19kDa enzyme is an eosinophilic protein whose potent anti-KS activity is dependent upon post-translational modifications that occur only in human cells.
...
PMID:Human non-pregnancy ribonuclease with anti-Kaposi's sarcoma activity. 1180 46
Human
eosinophil-derived neurotoxin
(
EDN
) is a small, basic protein that belongs to the ribonuclease A superfamily.
EDN
displays antiviral activity and causes the neurotoxic Gordon phenomenon when injected into rabbits. Although
EDN
and ribonuclease A have appreciable structural similarity and a conserved catalytic triad, their peripheral substrate-binding sites are not conserved. The crystal structure of recombinant
EDN
(rEDN) has been determined at 0.98 A resolution from data collected at a low temperature (100 K). We have refined the crystallographic model of the structure using anisotropic displacement parameters to a conventional R-factor of 0.116. This represents the highest resolution structure of rEDN determined to date and is only the second
ribonuclease
structure to be determined at a resolution greater than 1.0 A. The structure provides a detailed picture of the conformational freedom at the various subsites of rEDN, and the water structure accounts for more than 50% of the total solvent content of the unit cell. This information will be crucial for the design of tight-binding inhibitors to restrain the ribonucleolytic activity of rEDN.
...
PMID:Atomic resolution (0.98 A) structure of eosinophil-derived neurotoxin. 1187 42
An improved understanding of the evolution of gene function at the molecular level may provide significant insights into the origin of biological novelty and adaptation. With the approach of ancestral protein reconstruction, we here address the question of how a dramatically enhanced ribonucleolytic activity and the related antiviral activity evolved in a recently duplicated
ribonuclease
(
eosinophil-derived neurotoxin
) gene of higher primates. We show that the mother gene of the duplicated genes had already possessed a weak antiviral activity before duplication. After duplication, substitutions at two interacting sites (Arg-64-->Ser and Thr-132-->Arg) resulted in a 13-fold enhancement of the ribonucleolytic activity of
eosinophil-derived neurotoxin
. These substitutions are also necessary for the potent antiviral activity, with contributions from additional amino acid changes at interacting sites. Our observation that a change in
eosinophil-derived neurotoxin
function occurs only when both interacting sites are altered indicates the importance of complementary substitutions in protein evolution. Thus, neutral substitutions are not simply "noises" in protein evolution, as many have thought. They may play constructive roles by setting the intramolecular microenvironment for further complementary advantageous substitutions, which can lead to improved or altered function. Overall, our study illustrates the power of the "paleomolecular biochemistry" approach in delineating the complex interplays of amino acid substitutions in evolution and in identifying the molecular basis of biological innovation.
...
PMID:Complementary advantageous substitutions in the evolution of an antiviral RNase of higher primates. 1195 27
Certain ribonucleases (RNases), such as
eosinophil-derived neurotoxin
, are associated with pathological conditions (e.g. asthma and inflammatory bowel disease) and can even be overtly cyto(neuro)toxic. It has been proposed that small-molecule inhibitors should have therapeutic utility. We used isothermal titration microcalorimetry to characterize reversible inhibitor cytidine 2'-monophosphate (2'-CMP) binding to
RNase
-A in a multi-ion buffer at 37 degrees as a representative system. The estimated parameters were: K(d)=13.9 microM; DeltaG degrees =-6.90 kcal/mol; DeltaH degrees =-15.7 kcal/mol; and DeltaS degrees =-0.028 kcal/mol-K ('enthalpy-driven' interaction). These data should assist drug design of small-molecule inhibitors of homologous
RNase
catalytic domains.
...
PMID:Toward RNase inhibitors: thermodynamics of 2'-CMP/RNase-A binding in multi-ion buffer. 1209 69
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