EC:3.1.26.9 - FACTA Search

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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)

Members of the pancreatic ribonuclease (RNase) family have diverse activities toward RNA that could cause them to function during host defense and physiological cell death pathways. This activity could be harnessed by coupling RNases to cell binding ligands for the purpose of engineering them into cell-type specific cytotoxins. Therefore, the cytotoxic potential of RNase was explored by linking bovine pancreatic ribonuclease A via a disulfide bond to human transferrin or antibodies to the transferrin receptor. The RNase hybrid proteins were cytotoxic to K562 human erythroleukemia cells in vitro with an IC50 around 10(-7) M, whereas > 10(-4) M of native RNase was required to inhibit protein synthesis. Cytotoxicity required both components of the conjugate since excess transferrin or ribonuclease inhibitors added to the medium protected the cells from the transferrin-RNase toxicity. Importantly, the RNase conjugates were found to have potent antitumor effects in vivo. Chimeric RNase fusion proteins were also developed. F(ab')2-like antibody-enzyme fusions were prepared by linking the gene for human RNase to a chimeric antitransferrin receptor heavy chain gene. The antibody enzyme fusion gene was introduced into a transfectoma that secreted the chimeric light chain of the same antibody, and cell lines were cloned that synthesized and secreted the antibody-enzyme fusion protein of the expected size at a concentration of 1-5 ng/mL. Culture supernatants from clones secreting the fusion protein caused inhibition of growth and protein synthesis toward K562 cells that express the human transferrin receptor but not toward a nonhuman derived cell line. Since human ribonucleases coupled to antibodies also exhibited receptor mediated toxicities, a new approach to selective cell killing is provided. This may allow the development of new therapeutics for cancer treatment that exhibit less systemic toxicity and, importantly, less immunogenicity than the currently employed ligand-toxin conjugates.
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PMID:Rational immunotherapy with ribonuclease chimeras. An approach toward humanizing immunotoxins. 128 24

Pancreatic RNase injected into Xenopus oocytes abolishes protein synthesis at concentrations comparable to the toxin ricin yet has no effect on oocyte protein synthesis when added to the extracellular medium. Therefore RNase behaves like a potent toxin when directed into a cell. To explore the cytotoxic potential of RNase toward mammalian cells, bovine pancreatic ribonuclease A was coupled via a disulfide bond to human transferrin or antibodies to the transferrin receptor. The RNase hybrid proteins were cytotoxic to K562 human erythroleukemia cells in vitro with an IC50 around 10(-7) M whereas greater than 10(-5) M native RNase was required to inhibit protein synthesis. Cytotoxicity requires both components of the conjugate since excess transferrin or ribonuclease inhibitors added to the medium protected the cells from the transferrin-RNase toxicity. Compounds that interfere with transferrin receptor cycling and compartmentalization such as ammonium chloride decreased the cytotoxicity of transferrin-RNase. After a dose-dependent lag period inactivation of protein synthesis by transferrin-RNase followed a first-order decay constant. In a clonogenic assay that measures the extent of cell death 1 x 10(-6) M transferrin-RNase killed at least 4 logs or 99.99% of the cells whereas 70 x 10(-6) M RNase was nontoxic. These results show that RNase coupled to a ligand can be cytotoxic. Human ribonucleases coupled to antibodies also may exhibit receptor-mediated toxicities providing a new approach to selective cell killing possibly with less systemic toxicity and importantly less immunogenicity than the currently employed ligand-toxin conjugates.
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PMID:Cytotoxic potential of ribonuclease and ribonuclease hybrid proteins. 193 62

This paper describes a method which enables the simultaneous measurement of both the concentration of cell surface receptors and the DNA content of individual lymphoid cells. Cells fixed with PLP (periodate-lysine-paraformaldehyde) were treated with ribonuclease (RNase). Transferrin receptors were then successively bound with monoclonal antibody against them and FITC-labeled antibody against the monoclonal antibody. Cells thus treated were stained with propidium iodide and two-parameter flow cytometric analysis was carried out. Using this method, the expression of transferrin receptors on lymphoid cells was analyzed in relation to the action of T-cell growth factor (IL 2). It was found that cells in the G1 phase were stimulated by IL 2 which increased transferrin receptor concentration after a lag of a few hours. Subsequently, the cells entered the S phase and the receptor levels remained high throughout the S, G2 and M phases of the cell cycle.
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PMID:Simultaneous measurement of transferrin receptor and DNA content of human IL 2 dependent T cells by flow cytometry. 325 77

The gene for the human recombinant eosinophil-derived neurotoxin (rEDN) was synthesized and fused to the gene encoding a single chain antibody (sFv) to the human transferrin receptor (EDNsFv). Both rEDN and EDNsFv were expressed as insoluble proteins in inclusion bodies in Escherichia coli BL21(DE3). Following denaturation and renaturation, EDN and EDNsFv were partially purified by chromatography on heparin-Sepharose. Final purification of EDN was achieved by Sephadex G-100, whereas EDNsFv which contained a 6-histidyl residue carboxyl terminus was highly purified using the metal chelate resin, Ni(2+)-nitriloacetic acid. Whereas the recombinant EDN had ribonuclease activity that was similar to the native protein, the fusion protein had enzymatic activity that was 6-13% that of native EDN. The fusion protein was able to bind to the human transferrin receptor. In contrast to rEDN that had no inherent cytotoxicity to human tumor cells, the EDNsFv fusion protein was cytotoxic to human leukemia cells that express the human transferrin receptor with an IC50, 0.2-1 nM. At 1.3 nM EDNsFv, no cytotoxicity was observed on cells that lack the human transferrin receptor. Free antibody to the human transferrin receptor, E6, inhibited the cytotoxicity of the EDNsFv. Human enzymes may be engineered to acquire cytotoxic properties by fusing them to antibodies. Thus, they may be candidates for the construction of immunofusion proteins that may be less immunogenic than immunotoxins containing bacterial- or plant-derived toxin moieties.
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PMID:Expression and characterization of recombinant human eosinophil-derived neurotoxin and eosinophil-derived neurotoxin-anti-transferrin receptor sFv. 792 8

The gene for human angiogenin (Ang), a member of the ribonuclease superfamily, was fused to a gene encoding a single-chain antibody (sFv) against the human transferrin receptor. Three Ang single-chain immunofusion proteins (AngsFvs) were constructed with variations in the type of linker connecting the VL and VH chain [EGKSSGSGSESKEF, L1 or (GGGGS)3, L2] as well as with or without a spacer (FB) connecting the Ang and sFv (AngFBsFvL1 or L2; AngsFv(L2)]. Although the nature of the linker did not affect the enzymatic activity of the FB-containing fusion proteins, the fusion protein containing the L2 linker was 2.3-fold more effective than the L1 linker in competing with the labeled monoclonal IgG1 antibody for binding to the transferrin receptor. The fusion protein containing the L2 linker without the FB spacer exhibited a 13-fold decrease in binding to the transferrin receptor as well as a decrease in its capacity to degrade tRNA and to inhibit translation in the rabbit reticulocyte lysate compared to its counterpart containing the FB spacer. Binding of placental ribonuclease inhibitor (PRI) to Ang also was affected by the nature of the linker and by the presence or absence of a spacer. PRI bound to Ang and AngFBsFv(L2) and inhibited their ribonuclease activity. A 3-fold greater concentration of PRI, however, did not affect the activity of AngFBsFv(L1) or AngsFv(L2), suggesting that the conformation of these fusion proteins was altered. Binding of monoclonal and polyclonal anti-Ang antibodies to AngsFvs was also used to investigate conformational alterations of the fusion proteins. AngFBsFv(L2) was the least altered while AngFBsFv(L1) exhibited the greatest change in structure. Yet maximal concentrations of all AngsFvs elicited angiogenesis in the chick chorioallantoic membrane assay, demonstrating that Ang in all three fusion proteins remained functionally active. Consistent with all the activities, the fusion protein containing the FB spacer and L2 linker was the most cytotoxic to three different human tumor cell lines. The fusion protein lacking the FB spacer exhibited the least cytotoxicity. These data demonstrate that the linker connecting the VH-VL chains can affect the binding and cellular cytotoxicity of Ang immunofusions and that placement of a spacer between the antibody binding domains and Ang is necessary for optimal activity. Thus, a new class of targeted therapeutic agents containing Ang as the toxic moiety can be designed that potentially will be less immunogenic and less toxic than immunotoxins available currently.
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PMID:Angiogenin single-chain immunofusions: influence of peptide linkers and spacers between fusion protein domains. 855 26

This laboratory has previously reported a flow cytometric procedure for quantitatively analyzing mouse peripheral blood reticulocytes for micronucleus content. The current study extends this line of investigation by evaluating whether these same flow cytometric scoring procedures can be applied to the analysis of mouse bone marrow samples. To validate the method, three groups of male BALB/c mice were treated with 100 mg/kg b.wt. methyl methanesulfonate. Bone marrow samples were collected 20, 40 or 60 h after administration. A set of 5 untreated animals was included to provide an indication of spontaneous micronucleus frequencies. The cells were fixed with ultracold methanol, treated with ribonuclease, and labeled with anti-CD71 antibody (FITC conjugate) and propidium iodide. This fixing and labeling procedure resulted in the resolution of the micronucleated reticulocyte population and facilitated high-speed acquisition and enumeration via flow cytometry. The number of micronucleated reticulocytes was determined flow cytometrically by the analysis of 10,000 total reticulocytes per bone marrow sample. In addition to these automated measurements, slides stained with acridine orange were prepared and the number of micronuclei per 1000 reticulocytes was determined microscopically for each sample. The resulting data demonstrate that flow cytometry can effectively enumerate micronucleated reticulocytes in mouse bone marrow. The advantages associated with an objective, high throughput scoring methodology are also clearly indicated.
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PMID:Flow cytometric analysis of micronucleated reticulocytes in mouse bone marrow. 918 75

Antibodies fused to human enzymes offer an alternative to specifically targeting tumors with antibodies linked to plant or bacterial toxins. Since large amounts of these reagents can be administered without eliciting non-specific toxicities, efficient methods of production are needed. The goal of this work was to express a complex immunoenzyme fusion protein (immunotoxin) in the mammary gland of transgenic mice. A chimeric mouse/human antibody directed against the human transferrin receptor (E6) was fused at its CH2 domain to the gene for a human angiogenic ribonuclease, angiogenin (Ang). It was expressed in the mammary gland of mice and secreted into mouse milk. Expression levels in milk were approximately 0.8 g/l. The chimeric protein retained antibody binding activity and protein synthesis inhibitory activity equivalent to that of free Ang. It was specifically cytotoxic to human tumor cells in vitro.
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PMID:Antitransferrin receptor antibody-RNase fusion protein expressed in the mammary gland of transgenic mice. 1064 35

Iron regulatory proteins (IRPs) are cytoplasmic mRNA binding proteins involved in intracellular regulation of iron homeostasis. IRPs regulate expression of ferritin and transferrin receptor at the mRNA level by interacting with a conserved RNA structure termed the iron-responsive element (IRE). This concordant regulation of transferrin receptors and ferritin is designed so a cell can obtain iron when it is needed, and sequester iron when it is in excess. However, we have reported that iron accumulates in the brain in Alzheimer's disease without a concomitant increase in ferritin. An increase in iron without proper sequestration can increase the vulnerability of cells to oxidative stress. Oxidative stress is a component of many neurological diseases including Alzheimer's. We hypothesized that alterations in the IRP/IRE interaction could be the site at which iron mismanagement occurs in the Alzheimer's brains. In this report we demonstrate that in normal human brain extracts, the IRP is detected as a double IRE/IRP complex by RNA band shift assay, but in 2 of 6 Alzheimer's brain (AD) extracts examined a single IRE/IRP complex was obtained. Furthermore, the mobility of the single IRE/IRP complex in Alzheimer's brain extracts is decreased relative to the double IRE/IRP complex. Western blot and RNA band super shift assay demonstrate that IRP1 is involved in the formation of the single IRE/IRP complex. In vitro analyses suggest that the stability of the doublet complex and single AD complex are different. The single complex from the AD brain are more stable. A more stable IRE/IRP complex in the AD brain could increase stability of the transferrin receptor mRNA and inhibit ferritin synthesis. At the cellular level, the outcome of this alteration in the molecular regulatory mechanism would be increased iron accumulation without an increase in ferritin; identical to the observation we reported in AD brains. The appearance of the single IRE/IRP complex in Alzheimer's brain extracts is associated with relatively high endogenous ribonuclease activity. We propose that elevated RNase activity is one mechanism by which the iron regulatory system becomes dysfunctional.
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PMID:Alterations in the interaction between iron regulatory proteins and their iron responsive element in normal and Alzheimer's diseased brains. 1087 38

We have previously demonstrated that an antibody-avidin fusion protein could be used to deliver biotinylated enzymes to tumor cells for antibody-directed enzyme prodrug therapy. However, the presence of the chicken protein avidin suggests that immunogenicity may be a problem. To address this concern, we developed a new delivery system consisting of human proteins. The amino-terminal 15-amino-acid peptide derived from human ribonuclease 1 (human S*tag) can bind with high affinity to human S*protein (residues 21-124 of the same ribonuclease). We constructed an antibody-S*protein fusion protein in which S*protein was genetically linked to an anti-rat transferrin receptor IgG3 at the carboxyl terminus of the heavy chain. We also constructed an enzyme-S*tag fusion protein in which S*tag was genetically linked to the carboxyl terminus of Escherichia coli purine nucleoside phosphorylase (PNP). When these two fusion proteins were mixed, S*tag and S*protein interacted specifically and produced homogeneous antibody/PNP complexes that retained the ability to bind antigen. Furthermore, in the presence of the prodrug 2-fluoro-2'-deoxyadenosine in vitro, the complex efficiently killed rat myeloma cells overexpressing the transferrin receptor. These results suggest that human ribonuclease-based site-specific conjugation can be used in vivo for targeted chemotherapy of cancer.
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PMID:An interaction between S*tag and S*protein derived from human ribonuclease 1 allows site-specific conjugation of an enzyme to an antibody for targeted drug delivery. 1591 91

Immunotoxins based on human and humanized ribonuclease may have potential for cancer therapy while exhibiting less toxic side effects and stimulating less of an immune response in humans than immunotoxins based on plant and bacterial toxins (1). Both recombinant RNase fusion proteins (2-4 see also Chapter 6 , this volume) and chemical RNase conjugates have been made and characterized. The cytotoxic potential of targeted ribonuclease was first demonstrated with bovine RNase conjugated to transferrin or an antibody directed against the human transferrin receptor (5). Antibody RNase conjugates have also been shown to have potent anti-tumor activity against human glioma cells in athymic mice (6) and to enhance the activity of vincristine in mdr1 multidrug-resistant colon cancer cells in vitro and in vivo (7). Recently, RNase chemically conjugated to an antibody against CD22 was found to specifically kill Daudi lymphoma cells in cell culture at picomolar concentrations (IC(50), 10-50 pM) and to exhibit potent antitumor activity in SCID mice with disseminated Daudi lymphoma (unpublished data). Methods for linking RNase to specific cell binding ligands are described.
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PMID:Construction of ribonuclease-antibody conjugates for selective cytotoxicity. 2131 38

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