Bioprospecting for bioactives from seaweeds: potential, obstacles and alternatives

Pereira, Renato Crespo; Costa-Lotufo, Letı́cia V.

doi:10.1590/s0102-695x2012005000077

Cited by 49 publications

(32 citation statements)

References 122 publications

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“…This contrasted with a previous study by Quinderé et al (2013) who formerly reported the A. muscoides SPs physical and chemical characterization by agarose gel when Am-1 did not appear on gel and Am-3 had an intense metachromasia, as well as differing from other studied algae species SPs (Athukorala et al, 2006;Rodrigues et al, 2009;Rodrigues et al, 2011;Araújo et al, 2012).Thus, it was speculated that this algal species would perhaps biochemically change its Acta Scientiarum. Technology Maringá, v. 38, n. 3, p. 273-282, July-Sept., 2016 matrix polysaccharide composition according to the collection period (Zvyagintseva et al, 2003;Cardozo et al, 2007;Pereira & Costa-Lotufo, 2012). Regarding the PAGE procedure, there was no electrophoretic migration of the SPs fractions during the performance of three consecutive extractions, for any standard glycosaminoglycan observed, as a result of their high molecular masses (> 100 kDa) (Pomin, 2012;Fidelis et al, 2014;Mourão, 2015), except the 0.5 NaCl fraction (Am-1) that presented polydispersion as chondroitin-6-sulfate.…”

Section: Physical and Chemical Features Would Also Reflect The A Musmentioning

confidence: 99%

“…Overall, our combined observations could reflect important biochemical aspects in the cell wall architecture polysaccharide composition of A. muscoides. However, further studies on the composition of these biomaterials in different periods of the year with possible impacts on their bioactivities should be conducted (Pereira & Costa-Lotufo, 2012).…”

Section: Sps From a Muscoides Discretely Delay The Apttmentioning

confidence: 99%

“…Marine macroalgae (seaweeds) contain structurally unique metabolites (e.g., carbohydrates, lectins and lipids) (Mayer, Rodriguez, Berlinck, & Hamann, 2007;Miguel et al, 2014) recognized to have a broad spectrum of functionalities for scientific studies (e.g., pharmaceutics) (Cardozo et al, 2007;Fidelis et al, 2014;Wu, Shiu, Hsieh, & Tsai, 2016), industrial applications (e.g., foods and cosmetics) (Cardozo et al, 2007;Prajapati, Maheriya, Jani, & Solanki, 2014), and in biotechnological field (e.g., tissue engineering and drug delivery) (Pereira & Costa-Lotufo, 2012) due to their pronounced physical (e.g., gelling and stabilizing) and biological (e.g., anticoagulation and anti-inflammation) abilities of considerable interest toward polymer industry worldwide (Cardozo et al, 2007;Rodrigues, Vanderlei, Quinderé, Fontes, & Benevides, 2010;Pomin, 2012;Prajapati et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

“…Anticoagulation (Rodrigues et al, 2009;Rodrigues et al, 2013;Mourão, 2015), antinociception and anti-inflammation Rodrigues et al, 2012;Wu et al, 2016) are some of their most important pharmacological properties. Although also occurring in other living organisms (Aquino, Landeira-Fernandez, Valente, Andrade, & Mourão, 2005;Dantas-Santos et al, 2012;Chang, Lur, Lu, & Cheng, 2013), sulfated galactans (mainly carrageenan and agar) (Rhodophyceae) (Estevez et al, 2008;Mourão, 2015), fucan or fuicodan (Phaeophyceae) (Leite et al, 1998;Pereira & Costa-Lotufo, 2012) and other structurally diverse SPs found in Chlorophyceae Rodrigues et al, 2014) are the main classes of these biomolecules present in nature. Yield and physical-chemical and biological properties of SPs depend 1) on the morphology of the thallus; 2) the tissue under study (Estevez et al, 2008;Miguel et al, 2014); 3) the use of different protocols and algal species for extraction (Rodrigues et al, 2009;Rodrigues et al, 2011;Araújo et al, 2012); 4) climatic factors; and 5) growth and/or the reproducible cycle of the algae (Zvyagintseva et al, 2003;Cardozo et al, 2007;Pereira & Costa-Lotufo, 2012).…”

Section: Introductionmentioning

confidence: 99%

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Extraction and structural properties of Acanthophora muscoides (Rhodophyceae) extracellular matrix sulfated polysaccharides and their effects on coagulation

et al. 2016

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ABSTRACT. Acanthophora muscoides (Rhodophyta) contains structurally heterogeneous sulfated polysaccharides (Am-SPs) with pharmacological importance; however, its matrix SPs composition has not been still extensively investigated. This study sequentially extracted and compared the structural features and the in vitro anticoagulant effects of the Am-SPs. Papain-extraction sequence yielded Am.E-1, Am.E-2 and Am.E-3 containing differences among the relative proportions of sulfate (26.18-33%) and hexoses (42.02-60.67%) based on chemical analyses. One-( 1 H) and two-dimensions ( 1 H/ 13 C) nuclear magnetic resonance experiments showed very complex Am-SPs composed of alternating 4-linked-α-galactopyranosyl units and 3-linked-β-galactopyranosyl units presenting variable sulfation, CH 3 substitutions and 3,6-anhydro-α-L-galactose units and pyruvated-D-galactose residues, respectively, typical of agarocolloids. Different chromatographic profiles (DEAE-cellulose) were observed, with fractions (Am I, Am II and Am III eluted with 0.5, 0.75 and/or 1 M of NaCl, respectively) revealing charge density patterns and distinct mobility to heparin by agaroseelectrophoresis and, when analyzed by polyacrylamide-electrophoresis, a dispersive migration and similar mobility as chondroitin-6-sulfate for Am I fractions were noted. Regarding the activated partial thromboplastin time test, fractions had no virtually anticoagulation (1.47→3.07 IU mg heparin. Therefore, Am-SPs show significantly lower anticoagulation than heparin.Keywords: Rhodophyceae, cell-wall, polyanionics, structural chemistry, clotting.Extração e propriedades estruturais de polissacarídeos sulfatados de matriz extracelular de Acanthophora muscoides (Rhodophyceae) e seus efeitos na coagulação RESUMO. Acanthophora muscoides (Rhodophyta) contém polissacarídeos-sulfatados (Am-PSs) heterogêneos estruturalmente com importância farmacológica. Entretanto, ainda carece de investigação quanto à composição de PSs da sua matriz. Os Am-PSs foram extraídos sequencialmente e comparados às características estruturais e aos efeitos anticoagulantes in vitro. A sequência de extração com papaína rendeu Am.E-1, Am.E-2 e Am.E-3 contendo diferenças entre as proporções relativas de sulfato (26,18-33%) e hexoses (42,02-60,67%) baseadas nas análises químicas. Experimentos de ressonância magnética nuclear uni-/bi-dimensionais mostraram Am-PSs muito complexos compostos de unidades alternantes de α-galactopiranosil 4-ligada e de unidades β-galactopiranosil 3-ligada, apresentando sulfatação variável, substituições de CH 3 e de unidades de 3,6-anidro-α-L-galactose e de resíduos de D-galactose-piruvatada, respectivamente, típicos de agarocoloides. Foram observados perfis cromatográficos (DEAE-celulose) diferentes, com frações (Am I, Am II e Am III, eluídas com 0,5; 0,75 e/ou 1 M de NaCl, respectivamente) revelando graus de densidade de carga e mobilidade distinta à heparina por eletroforese em agarose. Eletroforese em poliacrilamida apresentou frações Am I com migração dispersiva e mobilidade similar ao...

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Section: Physical and Chemical Features Would Also Reflect The A Musmentioning

confidence: 99%

Section: Sps From a Muscoides Discretely Delay The Apttmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Extraction and structural properties of Acanthophora muscoides (Rhodophyceae) extracellular matrix sulfated polysaccharides and their effects on coagulation

et al. 2016

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“…caulerpenin produced by green algae, lanosol, vidalol or elatol generated by red seaweeds, or dictyopterene C, pachydictyol A, fucodiphlorethol and epitaondiol produced by brown algae have attracted the attention of scientists for decades. [1] Except these, also the healthy lipids, i.e., mainly those containing the 'omega-3' long-chain polyunsaturated fatty acids, polar lipids as phospholipids/glycolipids with the positive health impact or healthy sterols can be very promising in terms of further use in food/feed industry. Recently, several papers focusing on the lipidomic characterization of marine resources have discussed this topic.…”

Section: Introductionmentioning

confidence: 99%

Bioprospecting of Turbinaria Macroalgae as a Potential Source of Health Protective Compounds

Stranska-Zachariasova

Kurniatanty

Gbelcová

et al. 2017

Chemistry & Biodiversity

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The present study aims to focus on the bioprospecting of marine macroalgae of Turbinaria species, plenteous biomass of the world ocean. Three types of solvents, i.e., H 2 O, MeOH/H 2 O (80:20, v/v) and hexane/i-PrOH (50:50, v/v), were used for extraction. Both the biological activity and the pattern of present chemicals were characterized. For the cell proliferation assay, the human embryonic kidney 293 cells, cervix/breast/pancreatic adenocarcinoma, and osteosarcoma cells were used. For the antioxidant activity determination, both intracellular assay with human embryonic kidney and cervix adenocarcinoma cells, as well as the biochemical DPPH test, were employed. To complete the information about macroalgae composition, organic compounds were characterized by the liquid chromatography coupled with high resolution tandem mass spectrometry. Attention was concentrated mainly on the lipidomic profile characterization. In spite the fact that any significant antiproliferative effect was not observed for cancer cells, both the Turbinaria species were shown to be good protectors against the oxidative stress of the noncancer cells. Most of the antioxidants were determined in the hexane/i-PrOH extract. As regards the lipids identified, most of them belonged to the triacylglycerols followed by sphingomyelins, diacylglycerols, and polar (lyso) phospholipids. Additionally to fatty acids with 14, 16 and 18 carbons, also those with odd carbon numbers were frequently present.

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Marine Polysaccharides: Properties and Applications

et al. 2021

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Bioprospecting for bioactives from seaweeds: potential, obstacles and alternatives

Cited by 49 publications

References 122 publications

<b>Extraction and structural properties of <i>Acanthophora muscoides </i>(Rhodophyceae) extracellular matrix sulfated polysaccharides and their effects on coagulation

<b>Extraction and structural properties of <i>Acanthophora muscoides </i>(Rhodophyceae) extracellular matrix sulfated polysaccharides and their effects on coagulation

Bioprospecting of Turbinaria Macroalgae as a Potential Source of Health Protective Compounds

Marine Polysaccharides: Properties and Applications

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