Assessment of biomedical and pharmacological activities of sea anemones Stichodactyla mertensii and Stichodactyla gigantea from Gulf of Mannar Biosphere Reserve, southeast coast of India

Cnidarians comprise an old and diverse animal phylum, and possess a wide variety of biologically active substances. Sea anemones contain a diversity of interesting biologically active compounds including some potent toxins. In the present work, the sea anemones Stichodactyla mertensii and Stichodactyla gigantea, collected from the Mandapam coast, are characterized biomedically and pharmacologically. The crude protein was obtained by using methanol and aqueous extracts. The respective protein contents of S. mertensii and S. gigantea were found to be 2.10 µg/mL and 1.87 µg/mL. The methanol and aqueous extracts of S. mertensii and S. gigantea yielded six and nine bands by SDS-PAGE on 12 percent gel. In the hemolytic assay, both extracts exhibited hemolytic effect on chicken, goat, cow and human erythrocytes ('A', 'B' and 'O'). The neurotoxic effects of these crude extracts were determined in vivo using the sea shore crab Ocypode macrocera and mortality was observed. The mouse bioassay for lethality was performed on male albino mice. The crude extract of S. mertensii showed higher lethality (58 seconds at 1 mL-dose) than that of S. gigantea (2 minutes and 10 seconds at 0.75 mL-dose). The analgesic activity test was also carried out on albino mice by Eddy's hot plate and tail-flick methods. The extracts showed moderate analgesic effect by both hot-plate and tail-flick methods. These characteristics emphasize the need for the isolation and molecular characterization of new active toxins in S. mertensii and S. gigantea.(AU)

Investigação de mecanismos bioquímicos e fisiológicos em organismos expostos a anatoxina-a(s) / Study of the biochemical and physiologycal mechanisms in organisms exposed to anatoxin-a(s)

A anatoxina-a(s) (antx-a(s)) é uma neurotoxina produzida por cianobactérias, cujo mecanismo de ação conhecido consiste na inibição irreversível da atividade da enzima acetilcolinesterase (AChE). Em razão da instabilidade da molécula e da inexistência de um padrão analítico, as informações referentes a presença dessa toxina nos reservatórios de água doce e, a completa elucidação dos processos envolvidos na sua toxicidade, são escassas. Na última década, a pesquisa referente a capacidade dos inseticidas organofosforados de induzir estresse oxidativo em humanos e animais tem sido bastante importante. Pelo fato da antx-a(s) ser o único organofosforado produzido por cianobactérias conhecido, este trabalho teve como objetivo investigar os mecanismos bioquímicos envolvidos na ação pró-oxidante de extratos aquosos contendo antx-a(s). A atividade das enzimas colinesterásicas AChE e butirilcolinesterase (BuChE) e, das enzimas antioxidantes catalase (CAT), glutationa peroxidase (GPx), glutationa redutase (GR) e superóxido dismutase (SOD) foram avaliadas em dois modelos experimentais: (i) Camundongos Swiss tratados por via intraperitoneal (ip) com uma dose sub-letal (20 mg.kg-1) de extrato contendo antx-a(s) e sacrificados após 24 h, 48 h, 7 e 14 dias e, (ii) sementes de alfafa regadas com extrato contendo antx-a(s) por um período de 7 dias. Também foi avaliado o efeito de extratos contendo antx-a(s) em coração de baratas da espécie Leurolestes circunvagans. A atividade enzimática das colinesterases avaliadas em camundongos tratados com extrato contendo antx-a(s) manteve-se inibida 58% até 48 h após tratamento (n=9, p<0,001), voltando a níveis normais (comparada ao controle) a partir do sétimo dia (n=10, p>0,05). Em contraposição, as alterações na atividade das enzimas antioxidantes avaliadas iniciaram-se após 48 h do tratamento, quando foi observada uma diminuição na atividade das enzimas CAT e GPx (n=9, p<0,001). No sétimo dia, enquanto a atividade das enzimas CAT...

Anatoxin-a(s) (antx-a(s)) is a cyanobacterial neurotoxin whose principal mechanism of action is the irreversible inhibition of the enzymatic activity of acetylcholinesterase (AChE). Because of the molecule´s instability and the lack of an analytical standard, the occurrence of this toxin in freshwater reservoirs and the knowledge of the whole events related to its toxicity are scarce. In the last decade, research related to organophosphates insecticides capability to induce oxidative stress in humans and animals has been profuse. Considering that antx-a(s) is the unique organophosphate produced by cyanobacteria currently known; the main of this work was to investigate the biochemical mechanism related to the pro-oxidant capacity of antx-a(s)-containing extracts. In order to achieve the objective, there was determined the activity of cholinesterasic and antioxidant enzymes such as acetylcholinesterase (AChE), butirylcholinesterase (BuChE), catalase (CAT), glutathione peroxidase (GPx), glutathione reductase (GR) and superoxide dismutase (SOD). Two experimental models were used: (i) Swiss mice were treated intraperitoneally (ip) with 20 mg.kg-1 of antx-a(s)-containing extract and sacrificed after 24 h, 48 h, 7 and 14 days of treatment and, (ii) alfalfa seeds were irrigated with antx-a(s)-containing extract for 7 days. Additionally, the cardiac effect of antx-a(s)-containing extract on Leurolestes circunvagans cockroach was evaluated. The AChE and BuChE activity in mice treated with antx-a(s)-containing extract stayed inhibited more than 55% during 48 h (n=9, p<0,001). Normal activity of both enzymes was observed after seven days of treatment. By the other hand, changes in the antioxidant enzymes activity only began after the second day of treatment. Initially, both CAT and GPx showed lower activity than the control group after 48 h. Among those enzymes, GPx showed the highest decreased activity (n=9, p<0,001). After seven days, while the antx-a(s)- containing...

Partial sequence and toxic effects of granulitoxin, a neurotoxic peptide from the sea anemone Bunodosoma granulifera

A neurotoxic peptide, granulitoxin (GRX), was isolated from the sea anemone Bunodosoma granulifera. The N-terminal amino acid sequence of GRX is AKTGILDSDGPTVAGNSLSGT and its molecular mass is 4958 Da by electrospray mass spectrometry. This sequence presents a partial degree of homology with other toxins from sea anemones such as Bunodosoma caissarum, Anthopleura fuscoviridis and Anemonia sulcata. However, important differences were found: the first six amino acids of the sequence are different, Arg-14 was replaced by Ala and no cysteine residues were present in the partial sequence, while two cysteine residues were present in the first 21 amino acids of other toxins described above. Purified GRX injected ip (800 µg/kg) into mice produced severe neurotoxic effects such as circular movements, aggressive behavior, dyspnea, tonic-clonic convulsion and death. The 2-h LD50 of GRX was 400 ñ 83 µg/kg

Comparison of refolding patterns of erabutoxin b and cardiotoxin 3.10.2 from snake venom.

The refolding patterns of erabutoxin b (a neurotoxin) and cardiotoxin 3.10.2 (from Naja naja siamensis venom) have been studied by reducing both the proteins by treatment with reduced dithiothreitol followed by renaturation by treatment with oxidised dithiothreitol. Isoelectric focusing of the samples trapped at varying time intervals during renaturation of the proteins reveals formation of intermediates in the folding pathway with cardiotoxin 3.10.2. having fewer intermediates than erabutoxin b and faster rate of refolding (1 hr and 3 hr respectively).