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3. Mediterranean Lithophyllum stictiforme (Corallinales, Rhodophyta) is a genetically diverse species complex: implications for species circumscription, biogeography and conservation of coralligenous habitats

Author

Pezzolesi, L, Peña, V, Le Gall, L, Gabrielson, P, Kaleb, S, Hughey, J, Rodondi, G, Hernandez-Kantun, J, Falace, A, Basso, D, Cerrano, C, Rindi, F, Pezzolesi, L, Peña, V, Le Gall, L, Gabrielson, P, Kaleb, S, Hughey, J, Rodondi, G, Hernandez-Kantun, J, Falace, A, Basso, D, Cerrano, C, and Rindi, F

Abstract

Lithophyllum species in the Mediterranean Sea function as algal bioconstructors, contributing to the formation of biogenic habitats such as coralligenous concretions. In such habitats, thalli of Lithophyllum, consisting of crusts or lamellae with entire or lobed margins, have been variously referred to as either one species, L. stictiforme, or two species, L. stictiforme and L. cabiochiae, in the recent literature. We investigated species diversity and phylogenetic relationships in these algae by sequencing three markers (psbA and rbcL genes, cox2,3 spacer), in conjunction with methods for algorithmic delimitation of species (ABGD and GMYC). Mediterranean subtidal Lithophyllum 68 belong to a well-supported lineage, hereby called the Lithophyllum stictiforme complex, which also includes two species described from the Atlantic, L. lobatum and L. searlesii. Our results indicate that the L. stictiforme complex consists of at least 13 species. Among the Mediterranean species, some are widely distributed and span most of the western and central Mediterranean, whereas others appear to be restricted to specific localities. These patterns are interpreted as possibly resulting from allopatric speciation events that took place during the Messinian Salinity Crisis and subsequent glacial periods. A partial rbcL sequence from the lectotype of L. stictiforme unambiguously indicates that this name applies to the most common subtidal Lithophyllum in the central Mediterranean. We agree with recent treatments that considered L. cabiochiae and L. stictiforme conspecific. The diversity of Lithophyllum in Mediterranean coralligenous habitats has been substantially underestimated, and future work on these and other Mediterranean corallines should use identifications based on DNA sequences

Published
2019

6. Mediterranean Lithophyllum stictiforme (Corallinales, Rhodophyta) is a genetically diverse species complex: implications for species circumscription, biogeography and conservation of coralligenous habitats

Author

Paul W. Gabrielson, Sara Kaleb, Line Le Gall, Annalisa Falace, Carlo Cerrano, Daniela Basso, Viviana Peña, Fabio Rindi, Laura Pezzolesi, Jazmin J. Hernandez-Kantun, Jeffery R. Hughey, Graziella Rodondi, Pezzolesi, L, Peña, V, Le Gall, L, Gabrielson, P, Kaleb, S, Hughey, J, Rodondi, G, Hernandez-Kantun, J, Falace, A, Basso, D, Cerrano, C, Rindi, F, Dipartimento di Scienze Biologiche, Geologiche e Ambientali, Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Universidade da Coruña, Institut de Systématique, Evolution, Biodiversité (ISYEB ), Muséum national d'Histoire naturelle (MNHN)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA), University of North Carolina [Chapel Hill] (UNC), University of North Carolina System (UNC), Dipartimento di Scienze della Vita, Università di Trieste, Hartnell College, Università degli Studi di Milano, Dipartimento di Bioscienze, Botany Department, National Museum of Natural History, Smithsonian Institution, Department of Life Science [Trieste], Dipartimento di Scienze dell'Ambiente e della Terra, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Dipartimiento per lo Studio del Territorio e delle sue Risorse, University of Genoa (UNIGE), Dipartimento di Scienze della Vita e dell’Ambiente, Università Politecnica delle Marche, Pezzolesi, L., Peña, V., Line Le Gall, L., Paul W. Gabrielson, Sara Kaleb, Jeffery R. Hughey,Graziella Rodondi, Jazmin J. Hernandez-Kantun, Annalisa Falace, Daniela Basso, Cerrano, C., Rindi, F., Pezzolesi, Laura, Peña, Viviana, Le Gall, Line, Gabrielson, Paul W., Kaleb, Sara, Hughey, Jeffery R., Rodondi, Graziella, Hernandez‐kantun, Jazmin J., Falace, Annalisa, Basso, Daniela, Cerrano, Carlo, and Rindi, Fabio

Subjects
0106 biological sciences, Mediterranean climate, Species complex, Salinity, ecosystem engineers, rbcL, Allopatric speciation, psbA rb, Plant Science, Aquatic Science, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 010603 evolutionary biology, 01 natural sciences, Ecosystem engineer, ecosystem engineer, Mediterranean sea, Mediterranean Sea, cox2 3, biogenic habitats, biogeography, coralline algae, cox2,3, cryptic species, ecosystem engineers, molecular phylogeny, psbA, rbcL, 14. Life underwater, biogeography coralline algae, biogeography, molecular phylogeny, Ecosystem, Phylogeny, biogenic habitats, s ecosystem engineers, Coralline algae species, cryptic species, biology, Ecology, 010604 marine biology & hydrobiology, cryptic specie, Coralline algae, Species diversity, Sequence Analysis, DNA, [SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics, cox2,3, biology.organism_classification, psbA, cox2, cox3, Rhodophyta, Lithophyllum, biogenic habitat, coralline algae
Abstract

International audience; Lithophyllum species in the Mediterranean Sea function as algal bioconstructors, contributing to the formation of biogenic habitats such as coralligenous concretions. In such habitats, thalli of Lithophyllum, consisting of crusts or lamellae with entire or lobed margins, have been variously referred to as either one species, L. stictiforme, or two species, L. stictiforme and L. cabiochiae, in the recent literature. We investigated species diversity and phylogenetic relationships in these algae by sequencing three markers (psbA and rbcL genes, cox2,3 spacer), in conjunction with methods for algorithmic delimitation of species (ABGD and GMYC). Mediterranean subtidal Lithophyllum belong to a well‐supported lineage, hereby called the L. stictiforme complex, which also includes two species described from the Atlantic, L. lobatum and L. searlesii. Our results indicate that the L. stictiforme complex consists of at least 13 species. Among the Mediterranean species, some are widely distributed and span most of the western and central Mediterranean, whereas others appear to be restricted to specific localities. These patterns are interpreted as possibly resulting from allopatric speciation events that took place during the Messinian Salinity Crisis and subsequent glacial periods. A partial rbcL sequence from the lectotype of L. stictiforme unambiguously indicates that this name applies to the most common subtidal Lithophyllum in the central Mediterranean. We agree with recent treatments that considered L. cabiochiae and L. stictiforme conspecific. The diversity of Lithophyllum in Mediterranean coralligenous habitats has been substantially underestimated, and future work on these and other Mediterranean corallines should use identifications based on DNA sequences.

Published
2019
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7. Natural Astaxanthin Is a Green Antioxidant Able to Counteract Lipid Peroxidation and Ferroptotic Cell Death

Author

Nicola Rizzardi, Laura Pezzolesi, Chiara Samorì, Federica Senese, Chiara Zalambani, Walter Pitacco, Natalia Calonghi, Christian Bergamini, Cecilia Prata, Romana Fato, Rizzardi N., Pezzolesi L., Samori' C., Senese F., Zalambani C., Pitacco W., Calonghi N., Bergamini C., Prata C., and Fato R.

Subjects
Cell Death, green chemistry, Organic Chemistry, General Medicine, Xanthophylls, Haematococcus pluviali, Antioxidants, Catalysis, ferroptosi, lipoperoxidation, Computer Science Applications, astaxanthin, Inorganic Chemistry, Haematococcus pluvialis, oxidative stress, ferroptosis, Humans, Lipid Peroxidation, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy
Abstract

Astaxanthin is a red orange xanthophyll carotenoid produced mainly by microalgae but which can also be chemically synthesized. As demonstrated by several studies, this lipophilic molecule is endowed with potent antioxidant properties and is able to modulate biological functions. Unlike synthetic astaxanthin, natural astaxanthin (NAst) is considered safe for human nutrition, and its production is considered eco-friendly. The antioxidant activity of astaxanthin depends on its bioavailability, which, in turn, is related to its hydrophobicity. In this study, we analyzed the water-solubility of NAst and assessed its protective effect against oxidative stress by means of different approaches using a neuroblastoma cell model. Moreover, due to its highly lipophilic nature, astaxanthin is particularly protective against lipid peroxidation; therefore, the role of NAst in counteracting ferroptosis was investigated. This recently discovered process of programmed cell death is indeed characterized by iron-dependent lipid peroxidation and seems to be linked to the onset and development of oxidative-stress-related diseases. The promising results of this study, together with the “green sources” from which astaxanthin could derive, suggest a potential role for NAst in the prevention and co-treatment of chronic degenerative diseases by means of a sustainable approach.

Published
2022
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8. Extraction of astaxanthin from Haematococcus pluvialis with hydrophobic deep eutectic solvents based on oleic acid

Author

Walter Pitacco, Chiara Samorì, Laura Pezzolesi, Virginia Gori, Antonio Grillo, Matteo Tiecco, Martina Vagnoni, Paola Galletti, Pitacco W., Samori' C., Pezzolesi L., Gori V., Grillo A., Tiecco M., Vagnoni M., and Galletti P.

Subjects
Deep eutectic solvent, Algal culture, Astaxanthin, Xanthophyll, Deep Eutectic Solvents, General Medicine, Xanthophylls, Haematococcus pluviali, Analytical Chemistry, Antioxidant potential, Chlorophyceae, Terpene, Oleic Acid, Food Science
Abstract

Three novel hydrophobic deep eutectic solvents (DESs) based on oleic acid and terpenes (thymol, DL-menthol, and geraniol) were prepared, characterized, and used to extract astaxanthin from the microalga Haematococcus pluvialis without any pre-treatment of the cells. The three DES were composed of Generally Recognized As Safe (GRAS) and edible ingredients. All the tested DESs gave astaxanthin recovery values of about 60 and 30% in 6 h if applied on freeze-dried biomass or directly on algae culture, respectively. The carotenoid profile was qualitatively identical to what was obtained by using traditional organic solvents, regardless of the DES used; the monoesters of astaxanthin with C18-fatty acids were the main compounds found in all the carotenoid extracts. The thymol:oleic acid DES (TAO) could preserve astaxanthin content after prolonged oxidative stress (40% of the astaxanthin initially extracted was still present after 13.5 h of light exposure), thanks to the superior antioxidant properties of thymol. The capacity of improving astaxanthin stability combined with the intrinsic safety and edibility of the DES components makes the formulation astaxanthin-TAO appealing for the food ingredients/additives industry.

Published
2022
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9. Reassessment of branched Lithophyllum spp. (Corallinales, Rhodophyta) in the Caribbean Sea with global implications

Author

Rafael Riosmena-Rodríguez, Line Le Gall, Fabio Rindi, Viviana Peña, Laura Pezzolesi, Jeffery R. Hughey, Paul W. Gabrielson, Néstor M. Robinson, Jazmin J. Hernandez-Kantun, Walter H. Adey, Hernández-Kantún J.J., Gabrielson P., Hughey J.R., Pezzolesi L., Rindi F., Robinson N.M., Peña V., Riosmena-Rodriguez R., Le Gall L., and Adey W.

Subjects
0106 biological sciences, Systematics, biology, 010604 marine biology & hydrobiology, Plant Science, computer.file_format, Aquatic Science, Algal ridges, Lithophyllum congestum, Lithophyllum daedaleum, Lithophyllum kaiseri, Lithophyllum neocongestum sp. nov., Lithophyllum platyphyllum, Lithophyllum pseudoplatyphyllum sp. nov., psbA, rbcL, Sequencing type material, Systematics, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Mediterranean sea, Synonym (taxonomy), Botany, RDFa, Lithophyllum stictaeforme, Lithophyllum, Lithophyllum neocongestum, computer, Lithophyllum platyphyllum
Abstract

Plastid-encoded rbcL and psbA sequences from branched, Caribbean Sea Lithophyllum specimens indicate that four species are present, not one. Short (263 base pairs) rbcL sequences from an isolectotype of L. kaiseri (Gulf of Suez) and the holotypes of L. congestum, L. daedaleum and L. platyphyllum (Caribbean Sea) show that L. congestum and L. daedaleum are conspecific with L. kaiseri, the last having nomenclatural priority. Lithophyllum platyphyllum, currently considered a synonym of L. congestum, is recognised as a valid species. Lithophyllum stictaeforme, originally described from the Mediterranean Sea, is not conspecific with L. kaiseri (as L. congestum) as previously suggested. Lithophyllum neocongestum sp. nov. and L. pseudoplatyphyllum sp. nov. are proposed. Together with L. platyphyllum, these three branched species are so far endemic to the Caribbean Sea. This is the first report, documented by DNA sequence data, of a coralline species (L. kaiseri) widespread through the tropical Indo-West Pacific Oceans, Red Sea and Caribbean Sea.

Published
2016
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10. Extraction and milking of astaxanthin from: Haematococcus pluvialis cultures

Author

Laura Pezzolesi, Margherita Semeraro, Emilio Tagliavini, Chiara Samorì, Paola Galletti, Samori C., Pezzolesi L., Galletti P., Semeraro M., and Tagliavini E.

Subjects
Haematococcus pluvialis, food.ingredient, biology, 010405 organic chemistry, Pluvialis, Chemistry, Food additive, Extraction (chemistry), Isoamyl acetate, Ethyl acetate, milking extraction, 010402 general chemistry, Photosynthesis, biology.organism_classification, 01 natural sciences, Pollution, Haematococcus pluviali, 0104 chemical sciences, astaxanthin, chemistry.chemical_compound, food, Astaxanthin, Environmental Chemistry, Food science
Abstract

We thank the University of Bologna (RFO program) for funding. The microalga Haematococcus pluvialis is capable of accumulating natural astaxanthin when subjected to external stress and shifted towards a red-cyst phase, characterized by a robust and multilayered cell wall. In the present study, still-unexplored solvents were applied for extracting astaxanthin from H. pluvialis, directly from algae culture and without any pre-treatment of the cells. Among the tested solvents, some of them (e.g. ethyl acetate and 2-methyltehydrofuran) gave excellent astaxanthin recovery (>80%) in a short time (30 min) and others (e.g. isoamyl acetate, well known as a human-compatible solvent and already in use as a food additive) gave an astaxanthin recovery close to 90% in 1 hour and thus they are exploitable in the natural astaxanthin market. Almond oil is proved to be able to extract astaxanthin and keep H. pluvialis alive, without affecting the algal photosynthetic activity, providing the possibility to milk and regeneratively cultivate H. pluvialis and avoid an uneconomical loss of biomass.

Published
2019

11. Effects of N and P availability on carbon allocation in the toxic dinoflagellate Ostreopsis cf. ovata

Author

Silvana Vanucci, Carmela Dell'Aversano, Rossella Pistocchi, Emma Dello Iacovo, Luciana Tartaglione, Laura Pezzolesi, Pezzolesi, Laura, Vanucci, Silvana, Dell'Aversano, Carmela, Emma Dello, Iacovo, Tartaglione, Luciana, Pistocchi, Rossella, Pezzolesi, L., Vanucci, S., Dell'Aversano, C., Dello Iacovo, E., Tartaglione, L., and Pistocchi, R.

Subjects
0106 biological sciences, Nitrogen, Harmful Algal Bloom, Ostreopsis, Ovatoxins, Nutrients, C:N, C:P, N:P, chemistry.chemical_element, C:N, Plant Science, 010501 environmental sciences, Aquatic Science, medicine.disease_cause, 01 natural sciences, Algal bloom, Nutrient, C:P, Botany, medicine, Mediterranean Sea, Seawater, N:P, 0105 earth and related environmental sciences, biology, Toxin, 010604 marine biology & hydrobiology, Phosphorus, Ostreopsi, Dinoflagellate, Temperature, Ostreopsis cf. ovata, ovatoxins, isobaric palytoxin, environmental conditions, biology.organism_classification, Carbon, chemistry, Benthic zone, Dinoflagellida, Marine Toxins, Ovatoxin, Marine toxin, Dinophyceae
Abstract

Blooms of the toxic dinoflagellate Ostreopsis cf. ovata are usually associated with shallow and calm coastal waters, characterized by low nutrient concentrations. The algal cells typically cover the benthic substrates, such as the macroalgal and invertebrate communities and rocks, forming a mucilaginous film. Data reported on O. cf. ovate toxin production observed under both field and culture conditions show high variability in terms of toxic profile and cellular content; little is known about the environmental and physiological aspects which regulate the toxin dynamics. In this study, O. cf. ovata physiology was investigated using batch cultures supplied with nutrient concentrations similar to those found in the Adriatic Sea during the recurrent blooms and the observed cellular dynamics were compared with those found in a culture grown under optimal conditions, used as a reference. Data on the cellular C, N and P content during the growth highlighted a possible important role of the cellular nutritional status in regulating the toxin production that resulted to be promoted under specific intervals of the C:N and C:P ratios. The variable toxicity found for 0. cf. ovata in various geographic areas could be related to the different in situ prevalent environmental conditions (e.g., nutrient concentrations) which affect the cellular elemental composition and carbon allocation. The obtained results strongly suggest that in the environment toxin production is steadily sustained by a low and constant nutrient supply, able to maintain appropriate cellular C:N (>12) or C:P (>170) ratios for a long period. These results explain to some extent the variability in toxicity and growth dynamics observed in blooms occurring in the different coastal areas. (C) 2016 Elsevier B.V. All rights reserved.

Published
2015

12. Modelling the Stoichiometric Regulation of C-Rich Toxins in Marine Dinoflagellates

Author

Adriano Pinna, Stefano Ciavatta, Rossella Pistocchi, Laura Pezzolesi, Luca Polimene, Silvana Vanucci, Pinna, A., Pezzolesi, L., Pistocchi, R., Vanucci S., Ciavatta S., and Polimene L.

Subjects
P supply ratios, phytoplankton growth, Harmful Algal Bloom, lcsh:Medicine, coastal waters, medicine.disease_cause, N-P, Algal bloom, Ostreopsis cf ovata, P supply ratios, N-P, Alexandrium Fundyense, Karlodinium veneficum, phytoplankton growth, coastal waters, cell growth, bacteria, temperature, Algae, Karlodinium veneficum, Ecosystem model, Ostreopsis cf ovata, Botany, medicine, cell growth, Seawater, Marine ecosystem, Biomass, lcsh:Science, bacteria, Dinoflagellate, C-rich toxins, modelling, ERSEM model, toxin production, Biomass (ecology), Models, Statistical, Multidisciplinary, biology, Ecology, Toxin, lcsh:R, Alexandrium Fundyense, Dinoflagellate, temperature, biology.organism_classification, Dinoflagellida, lcsh:Q, Marine Toxins, Marine toxin, Research Article
Abstract

Toxin production in marine microalgae was previously shown to be tightly coupled with cellular stoichiometry. The highest values of cellular toxin are in fact mainly associated with a high carbon to nutrient cellular ratio. In particular, the cellular accumulation of C-rich toxins (i.e., with C:N > 6.6) can be stimulated by both N and P deficiency. Dinoflagellates are the main producers of C-rich toxins and may represent a serious threat for human health and the marine ecosystem. As such, the development of a numerical model able to predict how toxin production is stimulated by nutrient supply/deficiency is of primary utility for both scientific and management purposes. In this work we have developed a mechanistic model describing the stoichiometric regulation of C-rich toxins in marine dinoflagellates. To this purpose, a new formulation describing toxin production and fate was embedded in the European Regional Seas Ecosystem Model (ERSEM), here simplified to describe a monospecific batch culture. Toxin production was assumed to be composed by two distinct additive terms; the first is a constant fraction of algal production and is assumed to take place at any physiological conditions. The second term is assumed to be dependent on algal biomass and to be stimulated by internal nutrient deficiency. By using these assumptions, the model reproduced the concentrations and temporal evolution of toxins observed in cultures of Ostreopsis cf. ovata, a benthic/epiphytic dinoflagellate producing C-rich toxins named ovatoxins. The analysis of simulations and their comparison with experimental data provided a conceptual model linking toxin production and nutritional status in this species. The model was also qualitatively validated by using independent literature data, and the results indicate that our formulation can be also used to simulate toxin dynamics in other dinoflagellates. Our model represents an important step towards the simulation and prediction of marine algal toxicity.

Published
2015

13. Toxin levels and profiles in microalgae from the North-Western Adriatic Sea – 15 years of studies on cultured species

Author

Rossella Pistocchi, Monica Cangini, Carmela Dell'Aversano, Marinella Pompei, Anna Milandri, Silvia Pigozzi, Manuela Riccardi, Franca Guerrini, Laura Pezzolesi, Patrizia Ciminiello, Elena Riccardi, Ernesto Fattorusso, Luciana Tartaglione, Silvana Vanucci, Martino Forino, Pistocchi R., Guerrini F, Pezzolesi L, Riccardi M, Vanucci S, Ciminiello P, Dell’Aversano C., Forino M, Fattorusso E., Tartaglione L, Milandri A, Pompei M, Cangini M, Pigozzi S, Riccardi E., R., Pistocchi, F., Guerrini, L., Pezzolesi, M., Riccardi, S., Vanucci, Ciminiello, Patrizia, Dell'Aversano, Carmela, Forino, Martino, Fattorusso, Ernesto, Tartaglione, Luciana, A., Milandri, M., Pompei, M., Cangini, S., Pigozzi, and E., Riccardi

Subjects
marine toxin, BIOINTOXICATIONS, Time Factors, spirolide, Pharmaceutical Science, Review, Aquaculture, chemistry.chemical_compound, Drug Discovery, Microalgae, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), lcsh:QH301-705.5, biology, Ecology, Oxocins, toxins, Domoic acid, yessotoxin, palytoxin, Lingulodinium polyedrum, Diarrhetic shellfish poisoning, ovatoxin, Adriatic Sea, biointoxications, harmful algal blooms, ichthyotoxic species, Chattonella, ICHTHYOTOXIC SPECIES, Mollusk Venoms, Algal bloom, Okadaic Acid, medicine, Mediterranean Sea, Animals, Humans, ALGAL TOXINS, Paralytic shellfish poisoning, Ecosystem, Shellfish, Saxitoxin, Aerosols, biology.organism_classification, medicine.disease, LC-MS, Bivalvia, chemistry, lcsh:Biology (General), domoic acid, HARMFUL ALGAL BLOOMS, Marine Toxins, Marine toxin, ADRIATIC SEA
Abstract

The Northern Adriatic Sea is the area of the Mediterranean Sea where eutrophication and episodes related to harmful algae have occurred most frequently since the 1970s. In this area, which is highly exploited for mollusk farming, the first occurrence of human intoxication due to shellfish consumption occurred in 1989, nearly 10 years later than other countries in Europe and worldwide that had faced similar problems. Until 1997, Adriatic mollusks had been found to be contaminated mostly by diarrhetic shellfish poisoning toxins (i.e., okadaic acid and dinophysistoxins) that, along with paralytic shellfish poisoning toxins (i.e., saxitoxins), constitute the most common marine biotoxins. Only once, in 1994, a toxic outbreak was related to the occurrence of paralytic shellfish poisoning toxins in the Adriatic coastal waters. Moreover, in the past 15 years, the Adriatic Sea has been characterized by the presence of toxic or potentially toxic algae, not highly widespread outside Europe, such as species producing yessotoxins (i.e., Protoceratium reticulatum, Gonyaulax spinifera and Lingulodinium polyedrum), recurrent blooms of the potentially ichthyotoxic species Fibrocapsa japonica and, recently, by blooms of palytoxin-like producing species of the Ostreopsis genus. This review is aimed at integrating monitoring data on toxin spectra and levels in mussels farmed along the coast of the Emilia-Romagna region with laboratory studies performed on the species involved in the production of those toxins; toxicity studies on toxic or potentially toxic species that have recently appeared in this area are also reviewed. Overall, reviewed data are related to: (i) the yessotoxins producing species P. reticulatum, G. spinifera and L. polyedrum, highlighting genetic and toxic characteristics; (ii) Adriatic strains of Alexandrium minutum, Alexandrium ostenfeldii and Prorocentrum lima whose toxic profiles are compared with those of strains of different geographic origins; (iii) F. japonica and Ostreopsis cf. ovata toxicity. Moreover, new data concerning domoic acid production by a Pseudo-nitzschia multistriata strain, toxicity investigations on a Prorocentrum cf. levis, and on presumably ichthyotoxic species, Heterosigma akashiwo and Chattonella cf. subsalsa, are also reported.

Published
2012

14. Untargeted LC-HRMS applied to microcystin-producing cyanobacterial cultures for the evaluation of the efficiency of chlorine-based treatments commonly used for water potabilization.

Author

Simonazzi M, Miglione A, Tartaglione L, Varra M, DellAversano C, Guerrini F, Pistocchi R, and Pezzolesi L

Subjects
Chromatography, Liquid, Oxides chemistry, Oxides pharmacology, Sodium Hypochlorite pharmacology, Halogenation, Drinking Water microbiology, Drinking Water chemistry, Cyanobacteria drug effects, Cyanobacteria metabolism, Microcystins analysis, Microcystins metabolism, Water Purification methods, Microcystis drug effects, Microcystis growth & development, Chlorine Compounds pharmacology, Chlorine pharmacology
Abstract

Cyanobacteria in water supplies are considered an emerging threat, as some species produce toxic metabolites, cyanotoxins, of which the most widespread and well-studied are microcystins. Consumption of contaminated water is a common exposure route to cyanotoxins, making the study of cyanobacteria in drinking waters a priority to protect public health. In drinking water treatment plants, pre-oxidation with chlorinated compounds is widely employed to inhibit cyanobacterial growth, although concerns on its efficacy in reducing cyanotoxin content exists. Additionally, the effects of chlorination on abundant but less-studied cyanometabolites (e.g. cyanopeptolins whose toxicity is still unclear) remain poorly investigated. Here, two chlorinated oxidants, sodium hypochlorite (NaClO) and chlorine dioxide (ClO 2 ), were tested on the toxic cyanobacterium Microcystis aeruginosa, evaluating their effect on cell viability, toxin profile and content. Intra- and extracellular microcystins and other cyanometabolites, including their degradation products, were identified using an untargeted LC-HRMS approach. Both oxidants were able to inactivate M. aeruginosa cells at a low dose (0.5 mg L -1 ), and greatly reduced intracellular toxins content (>90%), regardless of the treatment time (1-3 h). Conversely, a two-fold increase of extracellular toxins after NaClO treatment emerged, suggesting a cellular damage. A novel metabolite named cyanopeptolin-type peptide-1029, was identified based on LC-HRMS n (n = 2, 3) evidence, and it was differently affected by the two oxidants. NaClO led to increase its extracellular concentration from 2 to 80-100 μg L -1 , and ClO 2 induced the formation of its oxidized derivative, cyanopeptolin-type peptide-1045. In conclusion, pre-oxidation treatments of raw water contaminated by toxic cyanobacteria may lead to increased cyanotoxin concentrations in drinking water and, depending on the chemical agent, its dose and treatment duration, also of oxidized metabolites. Since the effects of such metabolites on human health remain unknown, this issue should be handled with extreme caution by water security agencies involved in drinking water management., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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15. Natural Astaxanthin Is a Green Antioxidant Able to Counteract Lipid Peroxidation and Ferroptotic Cell Death.

Author

Rizzardi N, Pezzolesi L, Samorì C, Senese F, Zalambani C, Pitacco W, Calonghi N, Bergamini C, Prata C, and Fato R

Subjects
Humans, Lipid Peroxidation, Cell Death, Antioxidants pharmacology, Xanthophylls pharmacology
Abstract

Astaxanthin is a red orange xanthophyll carotenoid produced mainly by microalgae but which can also be chemically synthesized. As demonstrated by several studies, this lipophilic molecule is endowed with potent antioxidant properties and is able to modulate biological functions. Unlike synthetic astaxanthin, natural astaxanthin (NAst) is considered safe for human nutrition, and its production is considered eco-friendly. The antioxidant activity of astaxanthin depends on its bioavailability, which, in turn, is related to its hydrophobicity. In this study, we analyzed the water-solubility of NAst and assessed its protective effect against oxidative stress by means of different approaches using a neuroblastoma cell model. Moreover, due to its highly lipophilic nature, astaxanthin is particularly protective against lipid peroxidation; therefore, the role of NAst in counteracting ferroptosis was investigated. This recently discovered process of programmed cell death is indeed characterized by iron-dependent lipid peroxidation and seems to be linked to the onset and development of oxidative-stress-related diseases. The promising results of this study, together with the "green sources" from which astaxanthin could derive, suggest a potential role for NAst in the prevention and co-treatment of chronic degenerative diseases by means of a sustainable approach.

Published
2022
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16. Improvement of In Vivo Fluorescence Tools for Fast Monitoring of Freshwater Phytoplankton and Potentially Harmful Cyanobacteria.

Author

Simonazzi M, Pezzolesi L, Guerrini F, Vanucci S, Graziani G, Vasumini I, Pandolfi A, Servadei I, and Pistocchi R

Subjects
Phytoplankton, Chlorophyll A analysis, Reproducibility of Results, Fresh Water, Environmental Monitoring methods, Chlorophyll analysis, Cyanobacteria, Chlorophyta
Abstract

The use of multi-wavelength spectrofluorometers for the fast detection of algal taxa, based on chlorophyll a (Chl- a ) emission spectra, has become a common practice in freshwater water management, although concerns about their accuracy have been raised. Here, inter-laboratory comparisons using monoalgal cultures have been performed to assess the reliability of different spectrofluorometer models, alongside Chl- a extraction methods. Higher Chl- a concentrations were obtained when using the spectrofluorometers than extraction methods, likely due to the poor extraction efficiencies of solvents, highlighting that traditional extraction methods could underestimate algal or cyanobacterial biomass. Spectrofluorometers correctly assigned species to the respective taxonomic group, with low and constant percent attribution errors (Chlorophyta and Euglenophyceae 6-8%, Cyanobacteria 0-3%, and Bacillariophyta 10-16%), suggesting that functioning limitations can be overcome by spectrofluorometer re-calibration with fresh cultures. The monitoring of a natural phytoplankton assemblage dominated by Chlorophyta and Cyanobacteria gave consistent results among spectrofluorometers and with microscopic observations, especially when cell biovolume rather than cell density was considered. In conclusion, multi-wavelength spectrofluorometers were confirmed as valid tools for freshwater monitoring, whereas a major focus on intercalibration procedures is encouraged to improve their reliability and broaden their use as fast monitoring tools to prevent environmental and public health issues related to the presence of harmful cyanobacteria.

Published
2022
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17. Microbial dynamics during harmful dinoflagellate Ostreopsis cf. ovata growth: Bacterial succession and viral abundance pattern.

Author

Guidi F, Pezzolesi L, and Vanucci S

Subjects
Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Biodiversity, Phylogeny, Viruses classification, Viruses genetics, Viruses isolation & purification, Bacteria growth & development, Dinoflagellida growth & development, Harmful Algal Bloom, Viruses growth & development
Abstract

Algal-bacterial interactions play a major role in shaping diversity of algal associated bacterial communities. Temporal variation in bacterial phylogenetic composition reflects changes of these complex interactions which occur during the algal growth cycle as well as throughout the lifetime of algal blooms. Viruses are also known to cause shifts in bacterial community diversity which could affect algal bloom phases. This study investigated on changes of bacterial and viral abundances, bacterial physiological status, and on bacterial successional pattern associated with the harmful benthic dinoflagellate Ostreopsis cf. ovata in batch cultures over the algal growth cycle. Bacterial community phylogenetic structure was assessed by 16S rRNA gene ION torrent sequencing. A comparison between bacterial community retrieved in cultures and that one co-occurring in situ during the development of the O. cf. ovata bloom from where the algal strain was isolated was also reported. Bacterial community growth was characterized by a biphasic pattern with the highest contributions (~60%) of highly active bacteria found at the two bacterial exponential growth steps. An alphaproteobacterial consortium composed by the Rhodobacteraceae Dinoroseobacter (22.2%-35.4%) and Roseovarius (5.7%-18.3%), together with Oceanicaulis (14.2-40.3%), was strongly associated with O. cf. ovata over the algal growth. The Rhodobacteraceae members encompassed phylotypes with an assessed mutualistic-pathogenic bimodal behavior. Fabibacter (0.7%-25.2%), Labrenzia (5.6%-24.3%), and Dietzia (0.04%-1.7%) were relevant at the stationary phase. Overall, the successional pattern and the metabolic and functional traits of the bacterial community retrieved in culture mirror those ones underpinning O. cf. ovata bloom dynamics in field. Viral abundances increased synoptically with bacterial abundances during the first bacterial exponential growth step while being stationary during the second step. Microbial trends also suggest that viruses induced some shifts in bacterial community composition., (© 2018 The Authors. MicrobiologyOpen published by John Wiley & Sons Ltd.)

Published
2018
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18. Inhibitory effect of polyunsaturated aldehydes (PUAs) on the growth of the toxic benthic dinoflagellate Ostreopsis cf. ovata.

Author

Pichierri S, Pezzolesi L, Vanucci S, Totti C, and Pistocchi R

Subjects
Cell Membrane Permeability drug effects, Dinoflagellida growth & development, Dinoflagellida metabolism, Fatty Acids, Unsaturated chemistry, Harmful Algal Bloom, Microalgae metabolism, Microscopy, Fluorescence, Reproduction drug effects, Water Pollutants chemistry, Aldehydes toxicity, Dinoflagellida drug effects, Fatty Acids, Unsaturated toxicity, Water Pollutants toxicity
Abstract

Diatoms have been shown to produce and release a wide range of secondary metabolites that mediate interactions between individuals of different species. Among these compounds, different types of fatty acid derived long-chained polyunsaturated aldehydes (PUAs) have been related to multiple functions such as intra- or interspecific signals and adverse effect on the reproduction of marine organisms. Several studies have reported changes on growth, cell membrane permeability, flow cytometric properties and cell morphology in phytoplankton organisms exposed to PUAs, but little information is available on the effect of these compounds on benthic microalgae. Ostreopsis cf. ovata is a toxic benthic dinoflagellate which causes massive blooms along the Mediterranean coasts typically during the late summer period. In this study the effects of three toxic PUAs known to be produced by several algae (2E,4E-decadienal, 2E,4E-octadienal and 2E,4E-heptadienal) on the growth, cytological features and cell morphology of O. cf. ovata were investigated. Our results show a clear decrease of O. cf. ovata growth with longer-chain molecules than with shorter-chain ones, confirmed also by EC50 values calculated at 48h for 2E,4E-decadienal and 2E,4E-octadienal (6.6±1.5, 17.9±2.6μmolL(-1) respectively) and at 72h for 2E,4E-heptadienal (18.4±0.7μmolL(-1)). Moreover, morphological analysis highlighted up to 79% of abnormal forms of O. cf. ovata at the highest concentrations of 2E,4E-decadienal tested (9, 18 and 36μmolL(-1)), a gradual DNA degradation and an increase of lipid droplets with all tested PUAs. Further studies are needed to better clarify the interactions between diatoms and O. cf. ovata, especially on bloom-forming dynamics., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2016
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19. Modelling the Stoichiometric Regulation of C-Rich Toxins in Marine Dinoflagellates.

Author

Pinna A, Pezzolesi L, Pistocchi R, Vanucci S, Ciavatta S, and Polimene L

Subjects
Biomass, Dinoflagellida growth & development, Dinoflagellida physiology, Harmful Algal Bloom physiology, Marine Toxins analysis, Models, Statistical, Seawater chemistry, Seawater microbiology, Dinoflagellida metabolism, Marine Toxins metabolism
Abstract

Toxin production in marine microalgae was previously shown to be tightly coupled with cellular stoichiometry. The highest values of cellular toxin are in fact mainly associated with a high carbon to nutrient cellular ratio. In particular, the cellular accumulation of C-rich toxins (i.e., with C:N > 6.6) can be stimulated by both N and P deficiency. Dinoflagellates are the main producers of C-rich toxins and may represent a serious threat for human health and the marine ecosystem. As such, the development of a numerical model able to predict how toxin production is stimulated by nutrient supply/deficiency is of primary utility for both scientific and management purposes. In this work we have developed a mechanistic model describing the stoichiometric regulation of C-rich toxins in marine dinoflagellates. To this purpose, a new formulation describing toxin production and fate was embedded in the European Regional Seas Ecosystem Model (ERSEM), here simplified to describe a monospecific batch culture. Toxin production was assumed to be composed by two distinct additive terms; the first is a constant fraction of algal production and is assumed to take place at any physiological conditions. The second term is assumed to be dependent on algal biomass and to be stimulated by internal nutrient deficiency. By using these assumptions, the model reproduced the concentrations and temporal evolution of toxins observed in cultures of Ostreopsis cf. ovata, a benthic/epiphytic dinoflagellate producing C-rich toxins named ovatoxins. The analysis of simulations and their comparison with experimental data provided a conceptual model linking toxin production and nutritional status in this species. The model was also qualitatively validated by using independent literature data, and the results indicate that our formulation can be also used to simulate toxin dynamics in other dinoflagellates. Our model represents an important step towards the simulation and prediction of marine algal toxicity.

Published
2015
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20. Toxin levels and profiles in microalgae from the north-Western Adriatic Sea--15 years of studies on cultured species.

Author

Pistocchi R, Guerrini F, Pezzolesi L, Riccardi M, Vanucci S, Ciminiello P, Dell'Aversano C, Forino M, Fattorusso E, Tartaglione L, Milandri A, Pompei M, Cangini M, Pigozzi S, and Riccardi E

Subjects
Aerosols, Animals, Aquaculture, Bivalvia chemistry, Ecosystem, Humans, Mediterranean Sea, Microalgae growth & development, Microalgae pathogenicity, Mollusk Venoms, Okadaic Acid analysis, Oxocins analysis, Saxitoxin analysis, Shellfish analysis, Time Factors, Marine Toxins analysis, Microalgae chemistry
Abstract

The Northern Adriatic Sea is the area of the Mediterranean Sea where eutrophication and episodes related to harmful algae have occurred most frequently since the 1970s. In this area, which is highly exploited for mollusk farming, the first occurrence of human intoxication due to shellfish consumption occurred in 1989, nearly 10 years later than other countries in Europe and worldwide that had faced similar problems. Until 1997, Adriatic mollusks had been found to be contaminated mostly by diarrhetic shellfish poisoning toxins (i.e., okadaic acid and dinophysistoxins) that, along with paralytic shellfish poisoning toxins (i.e., saxitoxins), constitute the most common marine biotoxins. Only once, in 1994, a toxic outbreak was related to the occurrence of paralytic shellfish poisoning toxins in the Adriatic coastal waters. Moreover, in the past 15 years, the Adriatic Sea has been characterized by the presence of toxic or potentially toxic algae, not highly widespread outside Europe, such as species producing yessotoxins (i.e., Protoceratium reticulatum, Gonyaulax spinifera and Lingulodinium polyedrum), recurrent blooms of the potentially ichthyotoxic species Fibrocapsa japonica and, recently, by blooms of palytoxin-like producing species of the Ostreopsis genus. This review is aimed at integrating monitoring data on toxin spectra and levels in mussels farmed along the coast of the Emilia-Romagna region with laboratory studies performed on the species involved in the production of those toxins; toxicity studies on toxic or potentially toxic species that have recently appeared in this area are also reviewed. Overall, reviewed data are related to: (i) the yessotoxins producing species P. reticulatum, G. spinifera and L. polyedrum, highlighting genetic and toxic characteristics; (ii) Adriatic strains of Alexandrium minutum, Alexandrium ostenfeldii and Prorocentrum lima whose toxic profiles are compared with those of strains of different geographic origins; (iii) F. japonica and Ostreopsis cf. ovata toxicity. Moreover, new data concerning domoic acid production by a Pseudo-nitzschia multistriata strain, toxicity investigations on a Prorocentrum cf. levis, and on presumably ichthyotoxic species, Heterosigma akashiwo and Chattonella cf. subsalsa, are also reported.

Published
2012
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