Deletion of the NH2-terminal β-Hairpin of the Ribotoxin α-Sarcin Produces a Nontoxic but Active Ribonuclease

Garcı́a-Ortega, Lucı́a; Masip, Manuel; Mancheño, José M.; Oñaderra, Mercedes; Lizarbe, M.A.; García-Mayoral, Mâria Flor; Bruix, Marta; Pozo, Álvaro Martı́nez del; Gavilanes, José G.

doi:10.1074/jbc.m200922200

Cited by 49 publications

(114 citation statements)

References 63 publications

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“…This mutant retains the structural features of the wild-type protein, as well as its ability to interact with membranes, but lacks the characteristic ribonucleolytic activity of ribotoxins (Lacadena et al, 1995(Lacadena et al, , 1999. SDS-PAGE of proteins, Western blots, protein hydrolysis, amino acid analysis, and spectroscopic characterization were performed according to standardized procedures described before (García-Ortega et al, 2000, 2002Lacadena et al, 1994;Martínez-Ruiz et al, 2001). According to all these criteria, the three proteins used in this study were purified to homogeneity and retained their structural and functional properties.…”

Section: Protein Production and Purificationmentioning

confidence: 99%

Fungal extracellular ribotoxins as insecticidal agents

Olombrada¹,

Herrero-Galán²,

Tello³

et al. 2013

Insect Biochemistry and Molecular Biology

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Fungal ribotoxins were discovered almost 50 years ago as extracellular ribonucleases (RNases) with antitumoral properties. However, the biological function of these toxic proteins has remained elusive. The discovery of the ribotoxin HtA, produced by the invertebrates pathogen H. thompsonii, revived the old proposal that insecticidal activity would be their long searched function. Unfortunately, HtA is rather singular among all ribotoxins known in terms of sequence and structure similarities. Thus, it was intriguing to answer the question of whether HtA is just an exception or, on the contrary, the paradigmatic example of the ribotoxins function. The work presented uses HtA and -sarcin, the most representative member of the ribotoxins family, to show their strong toxic action against insect larvae and cells.

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Section: Protein Production and Purificationmentioning

confidence: 99%

Fungal extracellular ribotoxins as insecticidal agents

Olombrada¹,

Herrero-Galán²,

Tello³

et al. 2013

Insect Biochemistry and Molecular Biology

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“…This assay was performed at pH 7.0 in 15% (w/v) polyacrylamide gels containing 0.1% (w/v) SDS and 0.3 mg/mL of the homopolynucleotide. In these zymograms, proteins exhibiting ribonuclease activity appear as colorless bands after appropriate distaining (Lacadena et al, 1999;Kao et al, 2001;García-Ortega et al, 2002). Mice (n = 6) were inoculated daily via intragastric gaugage with 2 x 10 7 L. lactis cells suspended in 200 μl of bicarbonate solution during 14 consecutive days.…”

Section: Protein Analysis and Detectionmentioning

confidence: 99%

“…Suitable deoxyoligonucleotides were used as primers for PCR amplification, using a series of plasmids constructed before as templates (Lacadena et al, 1994(Lacadena et al, , 1995García-Ortega et al, 2002, containing the cDNA corresponding to the five proteins studied: Asp f 1, α-sarcin, Asp f 1 Δ(7-22), and α-sarcins Δ(7-22) and H137Q. These amplified DNA fragments were flanked by NgoMIV and BamHI restriction sites that were used to clone the proteins into the corresponding cloning sites of the plasmid pT1NX, in frame with the secretion signal leader of the lactococcal usp45 gene placed under the control of the constitutive promoter P1 (Steidler et al, 1995.…”

Section: Cloning Proceduresmentioning

confidence: 99%

“…The second of them (residues 7-22) juts out as a solvent-exposed protuberance and is one of the protein regions with highest conformational flexibility (Pérez-Cañadillas et al, 2000, 2002. Deletion of this β-sheet results in a Δ(7-22) mutant that shows no significant conformational differences except for the deleted region (García-Mayoral et al, 2004) but has lost its ability to specifically recognize the ribosome and is much less cytotoxic (García-Ortega et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

“…In this work, the extracellular 5 production by L. lactis of the above α-sarcin and Asp f 1 deletion variants is presented. Both wild-type proteins were also included in the study, as well as a properly folded, but catalytically inactive α-sarcin H137Q mutant, as a control (Lacadena et al, 1995;García-Ortega et al, 2002. The possibility of using this strategy as a potential immunomodulating therapeutic approach is discussed.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Lactococcus lactis as a vehicle for the heterologous expression of fungal ribotoxin variants with reduced IgE-binding affinity

Álvarez-García

Alegre-Cebollada

Batanero

et al. 2008

Journal of Biotechnology

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Fungal Ribotoxins

Garcı́a-Ortega

Palacios-Ortega

Martínez‐del‐Pozo

2018

Encyclopedia of Life Sciences

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Fungal ribotoxins constitute a family of extracellular ribonucleases with exquisite specificity against rRNA (ribonucleic acid). They induce apoptotic death of cells after inhibiting protein translation. Ribosomes become functionally incompetent because ribotoxins cleave one single phosphodiester bond, located at a unique and universally conserved loop, needed for elongation factors function. As secreted proteins, ribotoxins need to cross the membrane of their target cells in order to exert their catalytic activity, and they do it without receptor mediation. Using lipid model systems, it has been shown that they are able to enter cells with membranes enriched in acidic phospholipids. Both membrane‐interacting and ribosomal‐recognition activities are characterised by distinct structural features. Even though the natural function of ribotoxins is not known yet, their production by entomopathogenic fungi has suggested their insecticidal role. After decades of detailed study, the biotechnological potential of ribotoxins in pest control and as antitumour agents is becoming evident. Key Concepts Ribotoxins are extremely specific ribonucleases targeted against ribosomes. Ribotoxins are produced by fungi, some of them entomopathogens. They show a high degree of structural conservation, including the local arrangement of the active site residues. Cleavage of a single rRNA phosphodiester bond leads to cell death by inhibiting translation. Ribotoxins are cyclising RNases because they follow a general acid–base mechanism with production of a 2′,3′‐cyclic intermediate. Ribotoxins must first enter their target cells to exert their lethal action. Cell entrance is possible in cells with membranes enriched in acidic phospholipids and altered permeability. Ribotoxins are optimal candidates to be employed as pest control agents and in antitumour immunotoxins.

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Deletion of the NH2-terminal β-Hairpin of the Ribotoxin α-Sarcin Produces a Nontoxic but Active Ribonuclease

Cited by 49 publications

References 63 publications

Fungal extracellular ribotoxins as insecticidal agents

Fungal extracellular ribotoxins as insecticidal agents

Lactococcus lactis as a vehicle for the heterologous expression of fungal ribotoxin variants with reduced IgE-binding affinity

Fungal Ribotoxins

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