Your search keyword '"Javier Alvarado-Mesén"' showing total 9 results

1. Panorama of the Intracellular Molecular Concert Orchestrated by Actinoporins, Pore-Forming Toxins from Sea Anemones

Author

Carlos Alvarez, Carmen Soto, Sheila Cabezas, Javier Alvarado-Mesén, Rady Laborde, Fabiola Pazos, Uris Ros, Ana María Hernández, and María Eliana Lanio

Subjects

actinoporin, pore-forming proteins, pore-forming toxins, cytolysin, intracellular signaling, cell death, Medicine

Abstract

Actinoporins (APs) are soluble pore-forming proteins secreted by sea anemones that experience conformational changes originating in pores in the membranes that can lead to cell death. The processes involved in the binding and pore-formation of members of this protein family have been deeply examined in recent years; however, the intracellular responses to APs are only beginning to be understood. Unlike pore formers of bacterial origin, whose intracellular impact has been studied in more detail, currently, we only have knowledge of a few poorly integrated elements of the APs’ intracellular action. In this review, we present and discuss an updated landscape of the studies aimed at understanding the intracellular pathways triggered in response to APs attack with particular reference to sticholysin II, the most active isoform produced by the Caribbean Sea anemone Stichodactyla helianthus. To achieve this, we first describe the major alterations these cytolysins elicit on simpler cells, such as non-nucleated mammalian erythrocytes, and then onto more complex eukaryotic cells, including tumor cells. This understanding has provided the basis for the development of novel applications of sticholysins such as the construction of immunotoxins directed against undesirable cells, such as tumor cells, and the design of a cancer vaccine platform. These are among the most interesting potential uses for the members of this toxin family that have been carried out in our laboratory.

Published

2021

2. Antimicrobial properties of sea anemone Anthopleura nigrescens from Pacific coast of Costa Rica

Author

Henry Borbón, Sandra Váldes, Javier Alvarado-Mesén, Roy Soto, and Ilena Vega

Subjects

Biological activity, Antibacterial, Antifungal, Bioactive, Sea anemone, Arctic medicine. Tropical medicine, RC955-962, Biology (General), QH301-705.5

Abstract

Objective: To evaluate the antimicrobial and antifungal activities of the aqueous and partitioned extract of sea anemone Anthopleura nigrescens (A. nigrescens). Methods: The sea anemone A. nigrescens was collected, minced, homogenized, lyophilized and then further partitioned with diethyl ether, acetone, ethanol and water. These fractions were evaluated for antimicrobial activity against bacterial and fungal pathogens. Results: Acetone extract was found to produce a pronounced inhibition of 7.0 mm against Proteus vulgaris and diethyl ether extract inhibited Pseudomonas aeruginosa with an inhibition zone of 6.5 mm. In antifungal activity, ethanol extract showed good activity against Botrytis cinerea, Trichoderma harzianum and Rhizopus oryzae compared with other strains. Acetone and ethanol extract of A. nigrescens showed activity against all of pathogens tested. Slight activity was observed in the water extract with inhibition zone of 1.5 mm. Conclusions: The present study revealed that sea anemone A. nigrescens may also contain some biologically active agents which have potential activity against pathogenic microorganisms.

Published

2016

3. Actividad hemolítica de la Anémona Marina Aiptasia Pallida (Cnidaria: Actiniaria: Actiniidae) de Costa Rica

Author

Adriana Córdoba-Chávez, Henry Borbón-Alpízar, Javier Alvarado-Mesén, Mónica Zamora-Rodríguez, Roy Mario Soto-Fallas, and Daniela Abrego-Ramírez

Subjects

Anémonas marinas, neurotoxinas, bioactividad, actividad hemolítica, Aiptasia pallida., Technology

Abstract

El filo Cnidaria incluye organismos considerados dentro de los más venenosos en la naturaleza. Más específicamente, alrededor de 32 especies de anémonas marinas han sido reportadas como productoras de péptidos y proteínas citolíticas. Este estudio fue llevado a cabo para evaluar la actividad hemolítica del extracto crudo de la anémona marina Aiptasia pallida en Costa Rica. El material biológico fue colectado, triturado, homogenizado y posteriormente centrifugado para la obtención del extracto crudo. El mismo fue caracterizado a través de una evaluación de su actividad hemolítica (HA) con glóbulos rojos de sangre humana (RBC). Interesantemente, los resultados de HA no mostraron rompimiento de los eritrocitos, sin embargo hubo un incremento de la absorbancia en función del tiempo. El extracto crudo reveló la existencia de una banda de proteína alrededor de 30 kDa por SDS-PAGE, no se encontró banda características de actinoporinas en A. pallida. Estos resultados podrían estar asociados con una concentración sub-lítica de otra familia de proteínas las cuales alteran el equilibrio osmótico y cambian el volumen de las células, sin un efecto letal a las concentraciones ensayadas.

Published

2017

4. Panorama of the intracellular molecular concert orchestrated by actinoporins, pore-forming toxins from sea anemones

Author

Sheila Cabezas, Fabiola Pazos, Carlos Alvarez, Rady J. Laborde, Ana María Hernández, Uris Ros, Javier Alvarado-Mesén, María E. Lanio, and Carmen Soto

Subjects

Pore Forming Cytotoxic Proteins, Gene isoform, Programmed cell death, Protein family, pore-forming toxins, Health, Toxicology and Mutagenesis, Review, Sea anemone, Toxicology, Cnidarian Venoms, Animals, Pore-forming toxin, biology, Stichodactyla helianthus, Chemistry, Immunotoxins, intracellular signaling, biology.organism_classification, Cell biology, actinoporin, cytolysin, Sea Anemones, cell death, Medicine, Cytolysin, pore-forming proteins, Intracellular

Abstract

Actinoporins (APs) are soluble pore-forming proteins secreted by sea anemones that experience conformational changes originating in pores in the membranes that can lead to cell death. The processes involved in the binding and pore-formation of members of this protein family have been deeply examined in recent years; however, the intracellular responses to APs are only beginning to be understood. Unlike pore formers of bacterial origin, whose intracellular impact has been studied in more detail, currently, we only have knowledge of a few poorly integrated elements of the APs’ intracellular action. In this review, we present and discuss an updated landscape of the studies aimed at understanding the intracellular pathways triggered in response to APs attack with particular reference to sticholysin II, the most active isoform produced by the Caribbean Sea anemone Stichodactyla helianthus. To achieve this, we first describe the major alterations these cytolysins elicit on simpler cells, such as non-nucleated mammalian erythrocytes, and then onto more complex eukaryotic cells, including tumor cells. This understanding has provided the basis for the development of novel applications of sticholysins such as the construction of immunotoxins directed against undesirable cells, such as tumor cells, and the design of a cancer vaccine platform. These are among the most interesting potential uses for the members of this toxin family that have been carried out in our laboratory.

Published

2021

5. Antimicrobial properties of sea anemone Anthopleura nigrescens from Pacific coast of Costa Rica

Author

Sandra Váldes, Roy Soto, Javier Alvarado-Mesén, Ilena Vega, and Henry Borbón

Subjects

0301 basic medicine, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, 030231 tropical medicine, Proteus vulgaris, Rhizopus oryzae, Sea anemone, Biology, Antifungal, Biochemistry, Genetics and Molecular Biology (miscellaneous), 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Botany, Food science, lcsh:QH301-705.5, Botrytis cinerea, Biological activity, Trichoderma harzianum, Antimicrobial, biology.organism_classification, Antibacterial, 030104 developmental biology, chemistry, Bioactive, lcsh:Biology (General), Diethyl ether

Abstract

Objective To evaluate the antimicrobial and antifungal activities of the aqueous and partitioned extract of sea anemone Anthopleura nigrescens (A. nigrescens). Methods The sea anemone A. nigrescens was collected, minced, homogenized, lyophilized and then further partitioned with diethyl ether, acetone, ethanol and water. These fractions were evaluated for antimicrobial activity against bacterial and fungal pathogens. Results Acetone extract was found to produce a pronounced inhibition of 7.0 mm against Proteus vulgaris and diethyl ether extract inhibited Pseudomonas aeruginosa with an inhibition zone of 6.5 mm. In antifungal activity, ethanol extract showed good activity against Botrytis cinerea, Trichoderma harzianum and Rhizopus oryzae compared with other strains. Acetone and ethanol extract of A. nigrescens showed activity against all of pathogens tested. Slight activity was observed in the water extract with inhibition zone of 1.5 mm. Conclusions The present study revealed that sea anemone A. nigrescens may also contain some biologically active agents which have potential activity against pathogenic microorganisms.

Published

2016

6. Cloning, purification and characterization of nigrelysin, a novel actinoporin from the sea anemone Anthopleura nigrescens

Author

Lohans Pedrera, Liem Canet, Aisel Valle, Yadira P. Hervis, Bruno Lomonte, Carlos Alvarez, Henry Borbón, Frank Solano-Campos, María E. Lanio, Carmen Soto, and Javier Alvarado-Mesén

Subjects

0301 basic medicine, PORE-FORMING TOXIN, Cell Membrane Permeability, Protein family, medicine.disease_cause, Biochemistry, TOXINAS, 03 medical and health sciences, PACÍFICO, ANTHOPLEURA NIGRESCENS, Cnidarian Venoms, Complementary DNA, Anemone, medicine, Humans, Cloning, Molecular, Escherichia coli, Peptide sequence, Protein secondary structure, Pore-forming toxin, 030102 biochemistry & molecular biology, Molecular mass, HEMOLYSIS, Chemistry, Erythrocyte Membrane, LYTIC ACTIVITY, Membranes, Artificial, General Medicine, PROTEÍNAS, Recombinant Proteins, 030104 developmental biology, Cytolysin, NIGRELYSIN, ACTINOPORIN

Abstract

Actinoporins constitute a unique class of pore-forming toxins found in sea anemones that being secreted as soluble monomers are able to bind and permeabilize membranes leading to cell death. The interest in these proteins has risen due to their high cytotoxicity that can be properly used to design immunotoxins against tumor cells and antigen-releasing systems to cell cytosol. In this work we describe a novel actinoporin produced by Anthopleura nigrescens, an anemone found in the Central American Pacific Ocean. Here we report the amino acid sequence of an actinoporin as deduced from cDNA obtained from total body RNA. The synthetic DNA sequence encoding for one cytolysin variant was expressed in BL21 Star (DE3) Escherichia coli and the protein purified by chromatography on CM Sephadex C-25 with more than 97% homogeneity as verified by MS-MS and HPLC analyses. This actinoporin comprises 179 amino acid residues, consistent with its observed isotope-averaged molecular mass of 19 661 Da. The toxin lacks Cys and readily permeabilizes erythrocytes, as well as L1210 cells. CD spectroscopy revealed that its secondary structure is dominated by beta structure (58.5%) with 5.5% of a-helix, and 35% of random structure. Moreover, binding experiments to lipidic monolayers and to liposomes, as well as per meabilization studies in vesicles, revealed that the affinity of this toxin for sphingomyelin-containing membranes is quite similar to sticholysin II (StII). Comparison by spectroscopic techniques and modeling the three-dimensional structure of nigrelysin (Ng) showed a high homology with StII but several differences were also detectable. Taken together, these results reinforce the notion that Ng is a novel member of the actinoporin pore-forming toxin (PFT) family with a HA as high as that of StII, the most potent actinoporin so far described, but with peculiar structural characteristics contributing to expand the understanding of the structure-function relationship in this protein family. Las actinoporinas constituyen una clase única de toxinas formadoras de poros que se encuentran en las anémonas de mar y que, al ser secretadas como monómeros solubles, pueden unirse y permeabilizar las membranas que conducen a la muerte celular. El interés en estas proteínas ha aumentado debido a su alta citotoxicidad que puede usarse adecuadamente para diseñar inmunotoxinas contra células tumorales y sistemas de liberación de antígenos para el citosol celular. En este trabajo describimos una nueva actinoporina producida por Anthopleura nigrescens, una anémona que se encuentra en el Océano Pacífico centroamericano. Aquí presentamos la secuencia de aminoácidos de una actinoporina deducida del ADNc obtenido del ARN corporal total. La secuencia de ADN sintético que codifica una variante de citolisina se expresó en BL21 Star (DE3) Escherichia coli y la proteína se purificó mediante cromatografía en CM Sephadex C-25 con más del 97% de homogeneidad, como se verificó mediante análisis de MS-MS y HPLC. Esta actinoporina comprende 179 residuos de aminoácidos, de acuerdo con su masa molecular promedio de isótopos observada de 19 661 Da. La toxina carece de Cys y permeabiliza fácilmente los eritrocitos, así como las células L1210. La espectroscopia de CD reveló que su estructura secundaria está dominada por una estructura beta (58,5%) con un 5,5% de hélice a y un 35% de estructura aleatoria. Además, los experimentos de unión a monocapas lipídicas y a los liposomas, así como los estudios de permeabilización en vesículas, revelaron que la afinidad de esta toxina por las membranas que contienen esfingomielina es bastante similar a la esticholisina II (StII). La comparación mediante técnicas espectroscópicas y el modelado de la estructura tridimensional de nigrelysin (Ng) mostró una alta homología con StII, pero también fueron detectables varias diferencias. En conjunto, estos resultados refuerzan la noción de que Ng es un miembro nuevo de la familia de toxinas formadoras de poros de actinoporina (PFT) con un HA tan alto como el de StII, la actinoporina más potente descrita hasta ahora, pero con características estructurales peculiares que contribuyen a ampliar la comprensión de la relación estructura-función en esta familia de proteínas. Universidad Nacional, Costa Rica Universidad de La Habana, Cuba University of Brasilia, Brazil Universidad de Costa Rica, Costa Rica Escuela de Ciencias Biológicas Escuela de Química

Published

2018

7. Actividad hemolítica de la Anémona Marina Aiptasia pallida (Cnidaria: Actiniaria: Actiniidae) de Costa Rica

Author

Mónica Zamora-Rodríguez, Henry Borbón-Alpízar, Javier Alvarado-Mesén, Adriana Córdoba-Chávez, Daniela Abrego-Ramírez, and Roy Mario Soto-Fallas

Subjects

Cnidaria, Lysis, biology, Sea anemones, neurotoxins, bioactivity, hemolytic activity, Aiptasia pallida, Anemone, Anémonas marinas, neurotoxinas, bioactividad, actividad hemolítica, Sea anemone, biology.organism_classification, Industrial and Manufacturing Engineering, Microbiology, Cytolysis, Botany, Aiptasia

Abstract

Resumen El filo Cnidaria incluye organismos considerados dentro de los más venenosos en la naturaleza. Más específicamente, alrededor de 32 especies de anémonas marinas han sido reportadas como productoras de péptidos y proteínas citolíticas. Este estudio fue llevado a cabo para evaluar la actividad hemolítica del extracto crudo de la anémona marina Aiptasia pallida en Costa Rica. El material biológico fue colectado, triturado, homogenizado y posteriormente centrifugado para la obtención del extracto crudo. El mismo fue caracterizado a través de una evaluación de su actividad hemolítica (HA) con glóbulos rojos de sangre humana (RBC). Interesantemente, los resultados de HA no mostraron rompimiento de los eritrocitos, sin embargo hubo un incremento de la absorbancia en función del tiempo. El extracto crudo reveló la existencia de una banda de proteína alrededor de 30 kDa por SDS-PAGE, no se encontró banda características de actinoporinas en A. pallida. Estos resultados podrían estar asociados con una concentración sub-lítica de otra familia de proteínas las cuales alteran el equilibrio osmótico y cambian el volumen de las células, sin un efecto letal a las concentraciones ensayadas. Abstract The Cnidaria phylum includes organisms that are among the most venomous animals. More than 32 species of sea anemones have been reported to produce lethal cytolytic peptides and proteins. This study was designed to evaluate the hemolytic activity on the crude extract of the sea anemone Aiptasia pallida. The anemone was collected, minced, homogenized and then centrifuged. Functional characterization of the crude extract was evaluated by hemolytic activity (HA) against human red blood cells. Interestingly, the HA results showed no lysis of the cells, but absorbance increased in function of time. The crude extract revealed the existence of proteins band around 30 kDa by SDS-PAGE, no actinoporin band was found in A. pallida. These results could be associated with a sub-lytic concentration of other protein family which is altering osmotic equilibrium and changing cells volume, with no lethal effect at the concentrations tested.

Published

2017

8. The multigene families of actinoporins (part I): Isoforms and genetic structure

Author

I.F. Pazos, A. Valle, C. Alvarez, María E. Lanio, João Alexandre Ribeiro Gonçalves Barbosa, and Javier Alvarado-Mesén

Subjects

Gene isoform, food.ingredient, Protein Conformation, Molecular Sequence Data, Phyllodiscus, Toxicology, Actinia tenebrosa, food, Cnidarian Venoms, Animals, Protein Isoforms, Amino Acid Sequence, Isoelectric Point, Gene, Peptide sequence, Alleles, Phylogeny, biology, Stichodactyla helianthus, Genetic Variation, biology.organism_classification, Molecular biology, Sphingomyelins, Molecular Weight, Sea Anemones, Biochemistry, Heteractis magnifica, Multigene Family, Actinia

Abstract

Actinoporins are basic pore-forming proteins produced by sea anemones, with molecular weight around 20 kDa showing high affinity for sphingomyelin-containing membranes. Most sea anemones produce more than one actinoporin isoform differing in isoelectric point, molecular weigth and cytolytic activity. Examples of sea anemones with actinoporin isoforms are: Actinia equina with at least five isoform genes; Actinia tenebrosa, three isoforms; Actinia fragacea, five isoforms; Actineria villosa, Phyllodiscus semoni, Stichodactyla helianthus and Oulactis orientalis, with two isoforms each one, and Heteractis crispa with twenty-four isoforms. Additionally, thirty-four different amino acid sequences were deduced from fifty-two nucleotide sequences of Heteractis magnifica toxins suggesting the presence of a large number of isoforms or allelic variants. Many amino acidic changes in the isoforms are located in important regions for pore formation. The genetic structure of actinoporins comprises a pre-propeptide and a mature toxin region; therefore, actinoporins could be synthetized in the Golgi apparatus as precursor forms. The subsequent maturation of the toxins involves a proteolytic processing during secretion. Here we hypothesize that sea anemones could have suffered duplication, conversion and mutation of genes that produced multigene families as an efficient response to evolutionary pressure, leading to successful strategies of predatory and defensive function.

Published

2014

9. La unión y formación de poros de las actinoporinas están determi- nadas por las propiedades fisicoquímicas de la membrana

Author

Carlos Manuel Álvarez Valcárcel, Lohans Pedrera Puentes, Carmen Soto Febles, Javier Alvarado Mesén, Uris L. Ros Quincoces, María E. Lanio Ruíz, Aisel Valle Garay, María Laura Fanani, Fabiola Pazos Santos, Pedro Alberto Valiente Flores, Ana María Hernández Vázquez, and Yadira de la Patria Hervis Valdés

Subjects

actinoporinas, proteínas formadoras de poro, fluidez, membranas modelo, fases lipídicas, Science, Science (General), Q1-390

Abstract

Introducción. Las actinoporinas (AP) son proteínas formadoras de poro (PFP) que se aso - cian a membranas conduciendo a la muerte celular. Sticholysinas I y II (St, StI/II) se encuen- tran entre las AP más potentes descritas en la naturaleza. El objetivo del presente trabajo fue estudiar la influencia de la composición lipídica y dinámica de la membrana en la unión y formación de poros por StI/II y nigrelysina (Ngr), una nueva AP aquí descrita. Métodos. La unión y formación de poros se estudiaron mediante membranas modelo combinadas con espectroscopía de fluorescencia y microscopía. Resultados y discusión. St y Ngr se unen y permeabilizan preferencialmente membranas que contienen esfingomielina (SM) cuando se compara con fosfatidilcolina (PC), debido a la presencia, en SM, de la unidad de fosfocolina de PC más la unidad ceramida (Cer). StI reconoce a Cer y a gangliósidos, aunque en menor extensión. En términos de propiedades dinámicas, StI penetra preferencialmente membra- nas con elevada movilidad lateral y adecuado nivel de SM. StI permeabiliza más eficiente - mente membranas con esteroles además de SM. Los bordes de la coexistencia de dominios lipídicos no constituyen un factor determinante para su unión y actividad. La heterogeneidad molecular de las membranas, más allá de la presencia de dominios, favorece la actividad de AP. Conclusiones. Estos estudios explican la relevancia de SM, otros lípidos de base Cer y esteroles a la actividad de St, Ngr, y por extensión, a las AP. Desde una perspectiva dinámica, una fase altamente fluida y moderadamente enriquecida en SM y esteroles constituye una plataforma ideal para la formación de poros por AP.

Published

2022