Person:
Martínez Del Pozo, Álvaro

First Name

Álvaro

Last Name

Martínez Del Pozo

URI

https://hdl.handle.net/20.500.14352/76226

Affiliation

Universidad Complutense de Madrid

Faculty / Institute

Ciencias Químicas

Department

Bioquímica y Biología Molecular

Area

Bioquímica y Biología Molecular

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Now showing 1 - 10 of 10

Ribotoxins are a more widespread group of proteins within the filamentous fungi than previously believed
(Toxicon, 1999) Martínez Ruiz, Antonio; Richard Kao; Julian Davies; Martínez Del Pozo, Álvaro
a-Sarcin, restrictocin and mitogillin are the best known members of the family of fungal ribotoxins. In recent years, new members of this family have been discovered and characterised. In this work, we study the occurrence of ribotoxins among di erent species of fungi. The presence of ribotoxins has been identi®ed in some new species by means of genetic studies, as well as expression and activity assays. The ribotoxin genes have been partially sequenced, and demonstrate a high degree of similarity. These studies demonstrate that these toxins are more widespread than previously considered. This is surprising, considering the ribotoxins are such speci®c and potent toxins, of unknown biological function. These studies con®rm the hypothesis that these proteins are naturally engineered toxins derived from ribonucleases of broad substrate speci®city.
The cytotoxin α‐sarcin behaves as a cyclizing ribonuclease
(FEBS Letters, 1998) Lacadena García-Gallo, Francisco Javier; Martínez Del Pozo, Álvaro; Valle Lacadena; Martínez Ruiz, Antonio; Mancheño Gómez, José Miguel; Oñaderra Sánchez, Mercedes; Gavilanes Franco, José Gregorio
The hydrolysis of adenylyl(3PC5P)adenosine (ApA) and guanylyl(3PC5P)adenosine (GpA) dinucleotides by the cytotoxic protein K-sarcin has been studied. Quantitative analysis of the reaction has been performed through reversephase chromatographic (HPLC) separation of the resulting products. The hydrolysis of the 3P-5P phosphodiester bond of these substrates yields the 2P-3P cyclic mononucleotide; this intermediate is converted into the corresponding 3P-monophosphate derivative as the final product of the reaction. The values of the apparent Michaelis constant (KM), kcat and kcat/ KM have also been calculated. The obtained results fit into a twostep mechanism for the enzymatic activity of K-sarcin and allow to consider this protein as a cyclizing RNase. z 1998 Federation of European Biochemical Societies.
Secretion of Recombinant Pro- and Mature Fungal α-Sarcin Ribotoxin by the Methylotrophic YeastPichia pastoris:The Lys–Arg Motif Is Required for Maturation
(Protein Expression and Purification, 1998) Martínez Ruiz, Antonio; Martínez Del Pozo, Álvaro; Lacadena García-Gallo, Francisco Javier; Mancheño Gómez, José Miguel; Oñaderra Sánchez, Mercedes; Carlos López-Otı́n; Gavilanes Franco, José Gregorio
α-Sarcin is a ribosome-inactivating protein from the moldAspergillus giganteus.The methylotrophic yeastPichia pastorishas been transformed with two plasmids (pHILD2preαS and pHILS1preαS), which contain the complete α-sarcin cDNA, including its original fungal leader peptide, under the control of yeast alcohol oxidase promoter. The second one is indeed fused to the signal sequence ofP. pastorisacid phosphatase. The transformed yeasts secreted both mature and pro-α-sarcin. The presence of this pro-α-sarcin in the yeast extracellular medium is due to an inefficient recognition of the pro-sequence by a putative Kex2p-like endopeptidase. A third plasmid accounting for a single mutation of the α-sarcin leader peptide was designed to produce a more efficient Kex2p recognition motif. This approach resulted in the extracellular production of only the mature protein, suggesting the existence of a two-step mechanism for processing its leader peptide. This recombinant α-sarcin is identical to the original fungal protein, according to activity and spectroscopic criteria. In addition, pro-α-sarcin, which has been characterized for the first time, also exhibits ribonucleolytic activity as the mature protein does. Therefore, protection of the producing cells against this kind of ribotoxins may depend on an efficient recognition of the signal sequence followed by translocation of the nascent polypeptide to the endoplasmic reticulum.
Characterization of a natural larger form of the antifungal protein (AFP) from Aspergillus giganteus
(Biochim Biophys Acta, 1997) Martínez Ruiz, Antonio; Martínez Del Pozo, Álvaro; Lacadena García-Gallo, Francisco Javier; Mancheño Gómez, José Miguel; Oñaderra Sánchez, Mercedes; Gavilanes Franco, José Gregorio
Two major proteins, a-sarcin and an antifungal polypeptide AFP , are secreted by the mould Ž . Aspergillus giganteus MDH 18894 when it is cultured for 70–80 h. A third major protein is also found in the extracellular medium at 48–60 h, but it disappears as the culture proceeds. This protein has been isolated and characterized in terms of apparent molecular mass, electrophoretic and chromatographic behaviour, NH -terminal primary structure, amino acid content, spectroscopical 2 features, reactivity against anti-AFP antibodies, and antifungal activity. Based on the obtained results it would be an extracellular inactive precursor form of AFP, designated as the large form of AFP lf-AFP . Its amino acid composition is Ž . identical to that of AFP but containing six extra residues. NH -terminal sequence analysis of the first eight amino acid 2 residues of this polypeptide revealed that the extra residues can be perfectly accommodated within the DNA-deduced sequence of the precursor form of AFP. Its alignment with precursor sequences of different proteins, secreted by a variety of Aspergillus spp., reveals the existence of a common tetrapeptide at the carboxy-terminal end of their leader peptides. This sequence would be IlerLeu-Xaa-Yaa-Arg, being mostly Xaa and Yaa an acid residue Asp Ž . rGlu and alanine, respectively. The presence of lf-AFP as an extracellular protein would be in perfect agreement with the existence of this tetrapeptide motif, that can be involved in the protein secretion mechanisms of filamentous fungi.
The Effect of Cholesterol on the Long-Range Network of Interactions Established among Sea Anemone Sticholysin II Residues at the Water-Membrane Interface
(Marine Drugs, 2015) García Linares, Sara; Alm, Ida; Maula, Terhi; Gavilanes Franco, José Gregorio; Slotte, J. Peter; Martínez Del Pozo, Álvaro
Actinoporins are α-pore forming proteins with therapeutic potential, produced by sea anemones. Sticholysin II (StnII) from Stichodactyla helianthus is one of its most extensively characterized members. These proteins remain stably folded in water, but upon interaction with lipid bilayers, they oligomerize to form a pore. This event is triggered by the presence of sphingomyelin (SM), but cholesterol (Chol) facilitates pore formation. Membrane attachment and pore formation require changes involving long-distance rearrangements of residues located at the protein-membrane interface. The influence of Chol on membrane recognition, oligomerization, and/or pore formation is now studied using StnII variants, which are characterized in terms of their ability to interact with model membranes in the presence or absence of Chol. The results obtained frame Chol not only as an important partner for SM for functional membrane recognition but also as a molecule which significantly reduces the structural requirements for the mentioned conformational rearrangements to occur. However, given that the DOPC:SM:Chol vesicles employed display phase coexistence and have domain boundaries, the observed effects could be also due to the presence of these different phases on the membrane. In addition, it is also shown that the Arg51 guanidinium group is strictly required for membrane recognition, independently of the presence of Chol.
Stichodactyla helianthus' de novo transcriptome assembly: Discovery of a new actinoporin isoform
(Toxicon, 2018) Rivera De Torre, Esperanza; Martínez Del Pozo, Álvaro; Garb, Jessica E.
Transcriptomic profiling of venom producing tissues from different animals is an effective approach for discovering new toxins useful in biotechnological and pharmaceutical applications, as well in evolutionary comparative studies of venomous animals. Stichodactyla helianthus is a Caribbean sea anemone which produces actinoporins as part of its toxic venom. This family of pore forming toxins is multigenic and at least two different isoforms, encoded by separate genes, are produced by S. helianthus. These isoforms, sticholysins I and II, share 93% amino acid identity but differ in their pore forming activity and act synergistically. This observation suggests that other actinoporin isoforms, if present in the venomous mixture, could offer an advantageous strategy to modulate whole venom activity. Using high-throughput sequencing we generated a de novo transcriptome of S. helianthus and determined the relative expression of assembled transcripts using RNA-Seq to better characterize components of this species' venom, focusing on actinoporin diversity. Applying this approach, we have discovered at least one new actinoporin variant from S. helianthus in addition to several other putative venom components.
Sequence determination and molecular characterization of gigantin, a cytotoxic protein produced by the mouldAspergillus giganteusIFO 5818
(Archives of Biochemestry and Biophysics, 1997) Jérémie Wirth; Martínez Del Pozo, Álvaro; Mancheño Gómez, José Miguel; Martínez Ruiz, Antonio; Lacadena García-Gallo, Francisco Javier; Oñaderra Sánchez, Mercedes; Gavilanes Franco, José Gregorio
Gigantin is a 17-kDa ribonuclease secreted by Aspergillus giganteus IFO 5818. The sequence of the genomic DNA coding for this protein is reported. The deduced amino acid sequence reveals nine amino acid variations with respect to alpha-sarcin, a well-characterized ribosome-inactivating protein from A. giganteus MDH 18894. The peptides obtained after tryptic digestion of reduced and carboxyamidomethylated gigantin have been chromatographically separated. The analysis of these peptides in comparison to those originating from alpha-sarcin corroborates the above sequence differences. These do not sensibly modify the conformation of the protein, based on the coincidence of the circular dichroism and fluorescence emission spectra of the two proteins. The obtained results are discussed in terms of the involvement of the distinctive residues in the immunological and catalytic properties that distinguish gigantin from alpha-sarcin.
Der p 1‑based immunotoxin as potential tool for the treatment of dust mite respiratory allergy
(Scientific Reports, 2020) Lázaro‑Gorines, Rodrigo; López Rodríguez, Juan Carlos; Benedé Pérez, Sara; González, Miguel; Mayorga, Cristobalina; Vogel, Lothar; Martínez Del Pozo, Álvaro; Lacadena García-Gallo, Francisco Javier; Villalba Díaz, María Teresa
Immunotoxins appear as promising therapeutic molecules, alternative to allergen-specifcimmunotherapy. In this work, we achieved the development of a protein chimera able to promote specifc cell death on efector cells involved in the allergic reaction. Der p 1 allergen was chosen as cell-targeting domain and the powerful ribotoxin α-sarcin as the toxic moiety. The resultant construction, named proDerp1αS, was produced and purifed from the yeast Pichia pastoris. Der p 1-protease activity and α-sarcin ribonucleolytic action were efectively conserved in proDerp1αS. Immunotoxin impact was assayed by using efector cells sensitized with house dust mite-allergic sera. Cell degranulation and death, triggered by proDerp1αS, was exclusively observed on Der p 1 sera sensitized-humRBL-2H3 cells, but not when treated with non-allergic sera. Most notably, equivalent IgE-binding and degranulation were observed with both proDerp1αS construct and native Der p 1 when using purifed basophils from sensitized patients. However, proDerp1αS did not cause any cytotoxic efect on these cells, apparently due to its lack of internalization after their surface IgEbinding, showing the complex in vivo panorama governing allergic reactions. In conclusion, herein we present proDerp1αS as a proof of concept for a potential and alternative new designs of therapeutic tools for allergies. Development of new, and more specifc, second-generation of immunotoxins following proDerp1αS, is further discussed
The Effect of Cholesterol on the Long-Range Network of Interactions Established among Sea Anemone Sticholysin II Residues at the Water-Membrane Interface
(Marine Drugs, 2015) García Linares, Sara; Alm, Ida; Maula, Terhi; Gavilanes Franco, José Gregorio; Slotte, Johan; Martínez Del Pozo, Álvaro
Actinoporins are α-pore forming proteins with therapeutic potential, produced by sea anemones. Sticholysin II (StnII) from Stichodactyla helianthus is one of its most extensively characterized members. These proteins remain stably folded in water, but upon interaction with lipid bilayers, they oligomerize to form a pore. This event is triggered by the presence of sphingomyelin (SM), but cholesterol (Chol) facilitates pore formation. Membrane attachment and pore formation require changes involving long-distance rearrangements of residues located at the protein-membrane interface. The influence of Chol on membrane recognition, oligomerization, and/or pore formation is now studied using StnII variants, which are characterized in terms of their ability to interact with model membranes in the presence or absence of Chol. The results obtained frame Chol not only as an important partner for SM for functional membrane recognition but also as a molecule which significantly reduces the structural requirements for the mentioned conformational rearrangements to occur. However, given that the DOPC:SM:Chol vesicles employed display phase coexistence and have domain boundaries, the observed effects could be also due to the presence of these different phases on the membrane. In addition, it is also shown that the Arg51 guanidinium group is strictly required for membrane recognition, independently of the presence of Chol.
Three-dimensional structure of the actinoporin sticholysin I. Influence of long-distance effects on protein function
(Archives of Chemistry and Biophysics, 2013) García Linares, Sara; Castrillo, Inés; Bruix, Marta; Menéndez, Margarita; Alegre-Cebollada, Jorge; Martínez Del Pozo, Álvaro; Gavilanes Franco, José Gregorio
Actinoporins are water-soluble proteins with the ability to form pores upon insertion into biological membranes. They constitute a family of proteins with high degree of sequence identities but different hemolytic activities, suggesting that minor conformational arrangements result in major functional changes. A good example of this situation is the sea anemone Stichodactyla helianthus which produces two very similar actinoporins, sticholysins I (StnI) and II (StnII), but of very different hemolytic efficiency. Within this idea, given that the high resolution three-dimensional structure of StnII is already known, we have now solved that one corresponding to StnI in order to analyze the influence of particular residues on the conformation and activity of these proteins. In addition, random mutagenesis has been also used to produce five less hemolytic variants of StnI. All these mutations map to functionally relevant regions because they are probably involved in conformational changes associated with pore formation, which take place after membrane binding, and involve long-distance rearrangements of the polypeptide chain of actinoporins.