Silvana Saker-Sampaio

The amino acid sequence of the agglutinin isolated from the red marine alga Bryothamnion triquetrum defines a novel lectin structure

Abstract. The primary structure of a lectin isolated from the red alga Bryothamnion triquetrum was established by combination of Edman degradation of sets of overlapping peptides and mass spectrometry. It contains 91 amino acids and two disulphide bonds. The primary structure of the B. triquetrum lectin does not show amino acid sequence similarity with known plant and animal lectin structures. Hence, this protein may be the paradigm of a novel lectin family.

HCA and HML isolated from the red marine algae Hypnea cervicornis and Hypnea musciformis define a novel lectin family

HCA and HML represent lectins isolated from the red marine algae Hypnea cervicornis and Hypnea musciformis, respectively. Hemagglutination inhibition assays suggest that HML binds GalNAc/Gal substituted with a neutral sugar through 1–3, 1–4, or 1–2 linkages in O‐linked mucin‐type glycans, and Fuc(α1–6)GlcNAc of N‐linked glycoproteins. The specificity of HCA includes the epitopes recognized by HML, although the glycoproteins inhibited distinctly HML and HCA. The agglutinating activity of HCA was inhibited by GalNAc, highlighting the different fine sugar epitope‐recognizing specificity of each algal lectin. The primary structures of HCA (9193±3 Da) and HML (9357±1 Da) were determined by Edman degradation and tandem mass spectrometry of the N‐terminally blocked fragments. Both lectins consist of a mixture of a 90‐residue polypeptide containing seven intrachain disulfide bonds and two disulfide‐bonded subunits generated by cleavage at the bond T50–E51 (HCA) and R50–E51 (HML). The amino acid sequences of HCA and HML display 55% sequence identity (80% similarity) between themselves, but do not show discernible sequence and cysteine spacing pattern similarities with any other known protein structure, indicating that HCA and HML belong to a novel lectin family. Alignment of the amino acid sequence of the two lectins revealed the existence of internal domain duplication, with residues 1–47 and 48–90 corresponding to the N‐ and C‐terminal domains, respectively. The six conserved cysteines in each domain may form three intrachain cysteine linkages, and the unique cysteine residues of the N‐terminal (Cys46) and the C‐terminal (Cys71) domains may form an intersubunit disulfide bond.

A new isolation procedure and further characterisation of the lectin from the red marine alga Ptilota serrata

Ptilota serrata has been shown previously to contain a lectin (PSL) which is non-specific for human blood groups. We report here a new isolation procedure for PSL using a single step affinity chromatography technique on cross-linked guar gum and further characterisation studies. PSL was inhibited by galactose and its derivatives. The carbohydrates o-nitrophenyl-N-acetyl-α-D-galactoside, p-nitrophenyl-N-acetyl-β-D-galactoside and lactose were strong inhibitors. The glycoproteins porcine stomach mucin, asialo bovine mucin and asialofetuin were also inhibitory. The Mr of PSL, determined by gel filtration, was 55,470. SDS-PAGE revealed one single protein band with Mr of 18,390, indicating the native protein to be a trimer of apparently identical subunits. PSL was shown to contain large amounts of acidic and hydroxyl amino acids but low in basic amino acids.

New affinity procedure for the isolation and further characterization of the blood group B specific lectin from the red marine alga Ptilota plumosa

The red marine alga Ptilota plumosa has been shownto contain an anti-human blood group B lectin. We report here a new isolationprocedure by affinity chromatography on Sephadex G-200 and characterisation ofthe isolated lectin. The Mr, determined by gelfiltration, was 52,500. SDS-PAGE revealed a single protein band withMr 17,440, indicating the native lectin was atrimer of subunits with the same Mr, as reported for the lectinsfromtwo other Ptilota species, P.filicinaand P. serrata. Analysis of amino acid composition showedslightly more basic than acidic amino acids. This was in contrast to theP. filicina and P. serrata lectinspreviously found to contain a higher proportion of acidic than basic aminoacids. Haemagglutination inhibition tests showed the P.plumosa lectin was inhibited by galactose, glucose and theirderivatives with p-nitrophenyl-α-D-galactoside moststrongly inhibitory. All glycoproteins tested failed to inhibit the lectin. Theamino acid composition, human blood group-B specificity and lack of inhibitionby glycoproteins indicate the lectin from P. plumosapossesses unique characteristics among marine algal lectins.

α-, β-caroteno e α-tocoferol em algas marinhas in natura

The aim of this work was to evaluate the potential of 32 marine macro algae species, members of Chlorophyta, Rhodophyta and Phaeophyta, as sources of a-carotene, b-carotene and a-tocopherol. Both b-carotene and a-carotene were found in all species of green macroalgae analyzed. The maximum content of a-carotene was detected in algae belonging to Caulerpa genus and the minimum in Codium decorticatum. The amount of b-carotene found was minimum in Caulerpa mexicana and maximum in Ulva fasciata. Among the Rhodophyta species, eleven contain a-carotene, the maximum content was found in Botryocladia occidentalis. b-Carotene was found in all red macroalgae analyzed presenting the lowest and highest values in Gracilaria caudata and Bryothamnion triquetrum, respectively. Species of Phaeophyta contained b-carotene but no a-carotene. The lowest value for b-carotene was found in Dictyopteris delicatula and the highest in Padina gymnospora. In Chlorophyta, the amount of a-tocopherol was maximum in Codium decorticatum and minimum in Caulerpa prolifera. In Rhodophyta, twelve species contained a-tocopherol, the highest value was found in Enantiocladia duperreyi. a-Tocopherol was detected in all Phaeophyta species analyzed. The highest and lowest values were found in Lobophora varigata and Dictyota dichotoma, respectively.

Halilectin 1 (H-1) and Halilectin 2 (H-2): two new lectins isolated from the marine sponge Haliclona caerulea.

Two new lectins named Halilectin 1 (H‐1) and Halilectin 2 (H‐2) were isolated from the marine sponge Haliclona caerulea using a combination of affinity chromatography on stroma fixed onto Sephadex G‐25 and cation and anion exchange chromatography. H‐1 is a monomeric protein with a molecular mass of 40 kDa estimated using sodium dodecyl sulfate polyacrylamide gel electrophoresis and 15 kDa estimated using a TSK gel. Conversely, H‐2 is a homodimeric protein with 15 kDa monomers linked via weak interactions. H‐1 more effectively agglutinates trypsinized rabbit erythrocytes, whereas H‐2 more effectively agglutinates native rabbit erythrocytes. The hemagglutinating activity of H‐1 could be not inhibited by any tested sugars, but H‐2 was inhibited by orosomucoid and porcine stomach mucin. Neither lectin was dependent on divalent ions. H‐1 was stable at basic pH range and temperatures up to 50 °C, whereas H‐2 was stable at acid pH range and temperatures up to 80 °C. The H. caerulea lectins exhibited dose‐dependent toxicity against Artemia nauplii. Additionally, 76% of the primary structure of H‐2 was determined using tandem mass spectrometry to contain a unique amino acid sequence with no similarity to any members of the animal lectin family. Copyright

HGA-2, a novel galactoside-binding lectin from the sea cucumber Holothuria grisea binds to bacterial cells.

A novel lectin, HGA-2, was isolated from the sea cucumber Holothuria grisea. The protein was isolated by a single chromatographic step using a column of Guar Gum as affinity. HGA-2 showed an apparent molecular mass of 17 kDa and 34 kDa under reducing and nonreducing conditions, respectively. The hemagglutinating activity was specific for rabbit erythrocytes, showing no activity for human blood A, B and O. Its hemagglutinating activity was inhibited by carbohydrates containing galactose, with higher affinity for GalNAc and glycoprotein porcine stomach mucin (PSM). HGA-2 was stable at pH 6-10, significantly declining at pH 5 and a temperature of 40°C, with its activity being abolished at 100 °C. The HGA-2 protein was found to be Ca(2+)-dependent; it was highly toxic against Artemia nauplii and able to recognize and agglutinate cells of Escherichia coli. Amino acid sequences of tryptic peptides of HGA-2 strongly suggest that HGA-2 is a member of the C-type lectin family.

Characterization of Isoforms of the Lectin Isolated from the Red Algae Bryothamnion seaforthii and Its Pro-Healing Effect

Lectins are a structurally heterogeneous group of proteins that have specific binding sites for carbohydrates and glycoconjugates. Because of their biotechnological potential, lectins are widely used in biomedical research. The present study aimed to evaluate the healing potential of the lectin isolated from the marine red alga Bryothamnion seaforthii (BSL). The lectin was purified using ion exchange chromatography with DEAE cellulose and characterized using tandem mass spectrometry. For healing tests, skin wounds were induced in the dorsal thoracic region of mice. These animals were randomly divided into three groups and subjected to topical treatment for 12 days with BSL, bovine serum albumin and 150 mM NaCl. To evaluate the potential of each treatment, the animals were anesthetized and sacrificed on days 2, 7 and 12, respectively. The parameters evaluated included the wound area, the proportion of wound closure and the histological diagnosis. The wound closure was more effective with BSL (Postoperative Day 7 and 12) than controls. The luminal epithelium was completely restructured; the presence of collagen in the dermis and the strongly active presence of young skin annexes demonstrate the potential of treatment with BSL compared with controls. Our findings suggest that BSL has pro-healing properties and can be a potential medical process in the treatment of acute wounds.

Antioxidant potential and cytotoxic activity of two red seaweed species, Amansia multifida and Meristiella echinocarpa, from the coast of Northeastern Brazil

Natural antioxidants found in marine macroalgae are bioactive compounds known to play an important role in the prevention of diseases associated with aging cells protecting them against the oxidative damage. The purpose of this study was to evaluate the antioxidant and cytotoxic activity of ethanolic extracts of two species of red seaweeds, Amansia multifida and Meristiella echinocarpa. In vitro antioxidant activity was determined by DPPH radical scavenging assay, ferric-reducing antioxidant power (FRAP) assay, ferrous ion chelating (FIC) assay, β-carotene bleaching (BCB) assay and total phenolic content (TPC) quantification. Cytotoxicity was evaluated with the brine shrimp Artemia sp. lethality test. The TPC values observed in the present study indicated that both species A. multifida and M. echinocarpa are rich in phenolic compounds, reaching values of 45.40 and 28.46 mg gallic acid equivalent (GAE) g-1 of ethanolic extract, respectively. DPPH radical scavenging and ferrous ion chelating showed values of 60% and 17%, respectively. Both seaweed extracts inhibited β-carotene oxidation by approximately 40%. None of the algal extracts were potentially cytotoxic. The results have showed that extracts of both species of marine red algae exhibit antioxidant potential and low toxicity. They are sources of natural antioxidant compounds.

Seasonal changes of α-tocopherol in green marine algae (Caulerpa genus).

Marine algae are a promising source of beneficial compounds for human use. Among these, pro-vitamin A carotenoids and vitamins B, C, and E stand out. The objective of this study was to investigate seasonal variation of α-tocopherol levels in 5 species of green marine algae of the Caulerpa genus. This research was carried out with both fresh and dry specimens; and, in addition, differences arising as a result of the drying process were examined. Analyses were carried out by high-performance liquid chromatography (HPLC) using an isocratic system and a reversed-phase C-18 column. The distribution of α-tocopherol throughout the year in Caulerpa genus was variable. All samples of both fresh and dried algae contained α-tocopherol, except for the dried C. racemosa from March 2006. The drying process was responsible for losses of α-tocopherol ranging from 21% to 93%.