Chemical Modification of Glycosaminoglycan Polysaccharides.

The linear anionic class of polysaccharides, glycosaminoglycans (GAGs), are critical throughout the animal kingdom for developmental processes and the maintenance of healthy tissues. They are also of interest as a means of influencing biochemical processes. One member of the GAG family, heparin, is exploited globally as a major anticoagulant pharmaceutical and there is a growing interest in the potential of other GAGs for diverse applications ranging from skin care to the treatment of neurodegenerative conditions, and from the treatment and prevention of microbial infection to biotechnology. To realize the potential of GAGs, however, it is necessary to develop effective tools that are able to exploit the chemical manipulations to which GAGs are susceptible. Here, the current knowledge concerning the chemical modification of GAGs, one of the principal approaches for the study of the structure-function relationships in these molecules, is reviewed. Some additional methods that were applied successfully to the analysis and/or processing of other carbohydrates, but which could be suitable in GAG chemistry, are also discussed.

Anticoagulant and antithrombotic effects of chemically sulfated guar gum.

Heparin is an extremely important and recognized anticoagulant and antithrombotic agent. Obtained from animal sources and being highly potent, risks of contamination by pathogens and bleeding are some concerns related to heparin use. In the search for alternatives to heparin, several researches have been performed with chemically sulfated polysaccharides obtained from non-animal sources. In this work, studies with guar gum led to a partially hydrolyzed and chemically sulfated derivative (hGGSL) with Mw of 15.6 kDa, DS of 1.91 and promising anticoagulant and antithrombotic properties. In vitro, hGGSL was only 4.5× less potent than unfractionated heparin, acting mainly by inhibiting thrombin via antithrombin, and had its anticoagulant activity inhibited by protamine. In vivo, hGGSL showed potential for subcutaneous use and was effective in reducing venous thrombosis. Collectively, the results provide a basis for the development of a new anticoagulant and antithrombotic agent.

Epigenetic Mechanisms and Posttranslational Modifications in Systemic Lupus Erythematosus.

The complex physiology of eukaryotic cells is regulated through numerous mechanisms, including epigenetic changes and posttranslational modifications. The wide-ranging diversity of these mechanisms constitutes a way of dynamic regulation of the functionality of proteins, their activity, and their subcellular localization as well as modulation of the differential expression of genes in response to external and internal stimuli that allow an organism to respond or adapt to accordingly. However, alterations in these mechanisms have been evidenced in several autoimmune diseases, including systemic lupus erythematosus (SLE). The present review aims to provide an approach to the current knowledge of the implications of these mechanisms in SLE pathophysiology.

The role of SDF1 in prostate epithelial morphogenesis.

Androgens induce rat prostate induction from the urogenital sinus epithelium at embryonic day 17.5. Subsequent morphogenesis, including epithelial cord growth, branching, and canalization, results from concerted paracrine interactions with the stroma. A significant number of paracrine factors bind heparan sulfate (HS). We hypothesized that interfering with overall sulfation could disrupt the signaling mediated by HS-binding factors and that the undersulfated environment would allow investigation of individual exogenous morphogens. First, we investigated whether acinar morphogenesis involved HS-proteoglycan expression and found that syndecans 1 and 3 were upregulated in RWPE1 cells in the transition from two- to three-dimensional (3D) Matrigel, capable of promoting spheroid formation. We then investigated whether sodium chlorate, a general sulfation inhibitor, interfered with spheroid formation by RWPE1 cells and acinar morphogenesis in ex vivo ventral prostate (VP) organ culture. As expected, treatment with sodium chlorate inhibited spheroid formation by RWPE1 cells in 3D culture. Chlorate also inhibited ex vivo VP epithelial branching and canalization, resulting in long branchless epithelial structures. We then investigated whether the HS-binding factors, FGF10, TGFß1, and SDF1, could reverse the effect of sodium chlorate. Although no effect was seen in the FGF10- and TGFß1-treated samples, SDF1 promoted epithelial canalization in the low sulfated environment, highlighting its specific role in lumen formation. Altogether, the results show that sodium chlorate perturbed prostate morphogenesis and allowed investigation of factors involved in branching and/or canalization, implicating SDF1 signaling in epithelial canalization.

In vitro inactivation of thrombin generation by polysulfated fractions isolated from the tropical coenocytic green seaweed Caulerpa racemosa (Caulerpaceae, Bryopsidales) / Inativação in vitro da geração de trombina por frações polissulfatadas isoladas damacroalga verde cenocítica tropical Caulerpa racemosa (Caulerpaceae; Bryopsidales)

Pharmacological efficacy of Caulerpa racemosa (Chlorophyta) sulfated polysaccharidic (SPs) fractions (F IIII) on models of coagulation and inflammation has been demonstrated, but not their effects on thrombin generation (TG). This study examined fractions for composition and physical-chemical characteristics and in vitro inactivation of TG by F I and F II in 60-fold diluted human plasma using continuous method. Papain-extraction yield of 0.7% revealed F IIII by DEAE-cellulose chromatography, with differences among the relative proportions of sulfate (17.37-24.00%), total sugars (30.03-48.34%) and absence of proteins. Charge density patterns and molecular sizes > 100 kDa of the fractions were verified by both agarose/polyacrylamide analyses, respectively. These electrophoreses combined with toluidine blue/Stains-All also indicated nonSPs. Anticoagulant effects of 4.76 (F I), 12.00 (F II) and 2.32 (F II) IU mg-1 by activated partial thromboplastin time test were recorded against heparin (193 IU mg-1), without changes in prothrombin time. Diluted plasma treated with F I and F II reduced concentration-dependent and sulfation pattern TG by both intrinsic and extrinsic pathways, with 50% inactivation by intrinsic pathway of F II even at 4.1 µg. Heparin abolished TG at least 4-fold lower. Therefore, C. racemosa produces SPs with TG inhibition.(AU)

Eficácia farmacológica de frações (F I→III) polissacarídicas sulfatadas (PSs) da Chlorophyta Caulerpa racemosa sobre modelos de coagulação e inflamação tem sido demonstrada, exceto seus efeitos sobre geração de trombina (GT). Examinaram-se frações quanto à composição, características físico-químicas e inativação in vitro de GT por F I e F II, em plasma humano diluído 60 vezes usando método contínuo. Rendimento de extração-papaína (0,7%) revelou, por cromatografia de DEAE-celulose, F I→III com diferenças entre as proporções relativas de sulfato (17,37-24,00%), açúcares totais (30,03-48,34%) e ausência de proteínas. Foram verificados, por ambas as análises agarose/poliacrilamida, graus de densidade de carga e tamanhos moleculares > 100 kDa das frações, respectivamente. Também essas eletroforeses, combinadas com azul de toluidina/Stains-All, indicaram polissacarídeos não sulfatados. Foram registrados, pelo teste do tempo de tromboplastina parcial ativada, efeitos anticoagulantes de 4,76 (F I), 12,00 (F II) e 2,32 (F II) UI mg-1 contra heparina (193 UI mg-1), porém não modificando tempo de protrombina. Plasma diluído tratado com F I e F II reduziu GT por ambas as vias intrinsíca/extrínsica, dependente de concentração e grau de sulfatação, com F II em 4,1 μg apresentando eficácia de 50% pela via intrínsica. Heparina, quatro vezes menos, aboliu GT. Portanto, C. racemosa produz PSs com inibição de GT.(AU)

In vitro inactivation of thrombin generation by polysulfated fractions isolated from the tropical coenocytic green seaweed Caulerpa racemosa (Caulerpaceae, Bryopsidales) / Inativação in vitro da geração de trombina por frações polissulfatadas isoladas da macroalga verde cenocítica tropical Caulerpa racemosa (Caulerpaceae; Bryopsidales)

Pharmacological efficacy of Caulerpa racemosa (Chlorophyta) sulfated polysaccharidic (SPs) fractions (F I→III) on models of coagulation and inflammation has been demonstrated, but not their effects on thrombin generation (TG). This study examined fractions for composition and physical-chemical characteristics and in vitro inactivation of TG by F I and F II in 60-fold diluted human plasma using continuous method. Papain-extraction yield of 0.7% revealed F I→III by DEAE-cellulose chromatography, with differences among the relative proportions of sulfate (17.37-24.00%), total sugars (30.03-48.34%) and absence of proteins. Charge density patterns and molecular sizes > 100 kDa of the fractions were verified by both agarose/polyacrylamide analyses, respectively. These electrophoreses combined with toluidine blue/Stains-All also indicated nonSPs. Anticoagulant effects of 4.76 (F I), 12.00 (F II) and 2.32 (F II) IU mg-1 by activated partial thromboplastin time test were recorded against heparin (193 IU mg-1), without changes in prothrombin time. Diluted plasma treated with F I and F II reduced concentration-dependent and sulfation pattern TG by both intrinsic and extrinsic pathways, with 50% inactivation by intrinsic pathway of F II even at 4.1 µg. Heparin abolished TG at least 4-fold lower. Therefore, C. racemosa produces SPs with TG inhibition.

Eficácia farmacológica de frações (F I→III) polissacarídicas sulfatadas (PSs) da Chlorophyta Caulerpa racemosa sobre modelos de coagulação e inflamação tem sido demonstrada, exceto seus efeitos sobre geração de trombina (GT). Examinaram-se frações quanto à composição, características físico-químicas e inativação in vitro de GT por F I e F II, em plasma humano diluído 60 vezes usando método contínuo. Rendimento de extração-papaína (0,7%) revelou, por cromatografia de DEAE -celulose, F I→III com diferenças entre as proporções relativas de sulfato (17,37-24,00%), açúcares totais (30,03-48,34%) e ausência de proteínas. Foram verificados, por ambas as análises agarose/poliacrilamida, graus de densidade de carga e tamanhos moleculares > 100 kDa das frações, respectivamente. Também essas eletroforeses, combinadas com azul de toluidina/Stains-All, indicaram polissacarídeos não sulfatados. Foram registrados, pelo teste do tempo de tromboplastina parcial ativada, efeitos anticoagulantes de 4,76 (F I), 12,00 (F II) e 2,32 (F II) UI mg-1 contra heparina (193 UI mg- 1), porém não modificando tempo de protrombina. Plasma diluído tratado com F I e F II reduziu GT por ambas as vias intrinsíca/extrínsica, dependente de concentração e grau de sulfatação, com F II em 4,1 µg apresentando eficácia de 50% pela via intrínsica. Heparina, quatro vezes menos, aboliu GT. Portanto, C. racemosa produz PSs com inibição de GT.

Galactomannan from Schizolobium amazonicum seed and its sulfated derivatives impair metabolism in HepG2 cells.

This study evaluated the effects of native galactomannan from Schizolobium amazonicum seeds and its sulfated forms on certain metabolic parameters of HepG2 cells. Aqueous extraction from S. amazonicum seeds furnished galactomannan with 3.2:1 Man:Gal ratio (SAGM) and molar mass of 4.34×105g/mol. The SAGM fraction was subjected to sulfation using chlorosulfonic acid to obtain SAGMS1 and SAGMS2 with DS of 0.4 and 0.6, respectively. Cytotoxicity of SAGM, SAGMS1, and SAGMS2 was evaluated in human hepatocellular carcinoma cells (HepG2). After 72h, SAGM decreased the viability of HepG2 cells by 50% at 250µg/mL, while SAGMS1 reduced it by 30% at the same concentration. SAGM, SAGMS1, and SAGMS2 promoted a reduction in oxygen consumption and an increase in lactate production in non-permeabilized HepG2 cells after 72h of treatment. These results suggest that SAGM, SAGMS1, and SAGMS2 could be recognized by HepG2 cells and might trigger alterations that impair its survival. These effects could be implicated in the modification of the oxidative phosphorylation process in HepG2 cells and activation of the glycolytic pathway.

Sulfation of fucogalactan from Agaricus bisporus: Different patterns in the chemical structure and their effects on anticoagulant activity.

A fucogalactan from Agaricus bisporus was sulfated by two methodologies based on an optimized sulfation method. The direct action of chlorosulfonic acid and SO3-pyridine complex over the sulfation reaction and its effects on anticoagulant activity were evaluated. The products of chemical sulfations were two sulfated fucogalactans named E100 and ESL respectively. Clotting assays (APTT, PT and TT) showed that both sulfated polysaccharides have anticoagulant activity, and that ESL was more potent compared to E100. The FXa, T and FXIIa activities in the presence of the sulfated polysaccharides were determined. The better anticoagulant activity of ESL could be related to anti-FXIIa activity and also probably to its higher bioavailability. The HPSEC analysis showed similar Mw of 1.08×104gmol-1 and 1.00×104gmol-1 for E100 and ESL respectively. NMR and methylation analyses indicated a heterogeneous sulfation pattern for E100, whereas ESL showed conserved unsulfated (1→6)-linked α-d-Galp residues in the main-chain and a more homogeneous sulfation pattern. The DS values of ESL and E100 were 1.0 and 2.8 respectively, indicating that the sulfation pattern is more important for the anticoagulant activity than the amount of sulfate.

Structural characteristics are crucial to the benefits of guar gum in experimental osteoarthritis.

Protein-free guar gum (DGG) was oxidized (DGGOX) or sulfated (DGGSU) by insertion of new groups in C-6 (manose) and C-6 (galactose), for DGGOX and DGGSU, respectively. Rats were subjected to anterior cruciate ligament transection (ACLT) of the knee, joint pain recorded using the articular incapacitation test, and the analgesic effect of intraarticular 100µg DGG, DGGOX or DGGSU solutions at days 4-7 was evaluated. Other groups received DGG or saline weekly, from days 7 to 70 and joint damage assessed using histology and biochemistry as the chondroitin sulfate (CS) content of cartilage. The molar mass of CS samples was obtained by comparing their relative electrophoretic mobility to standard CS. DGG but not DGGOX or DGGSU significantly inhibited joint pain. DGG significantly reversed the increase in CS, its reduced electrophoretic mobility, and histological changes following ACLT, as compared to vehicle. Structural integrity accounts for DGG benefits in experimental osteoarthritis.

Anticoagulant activity of native and partially degraded glycoglucuronomannan after chemical sulfation.

Heparin has great clinical importance as anticoagulant and antithrombotic agent. However, because of its risks of causing bleeding and contamination by animal pathogens, several studies aim to obtain alternatives to heparin. In the search for anticoagulant and antithrombotic agents from a non-animal source, a glycoglucuronomannan from the gum exudate of the plant Vochysia thyrsoidea was partially hydrolyzed, and both native and partially degraded polysaccharides were chemically sulfated, yielding VThS and Ph-VThS respectively. Methylation analysis indicated that sulfation occurred preferentially at the O-5 position of arabinose units in the VThS and at the O-6 position of mannose units in Ph-VThS. In vitro aPTT assay showed that VThS and Ph-VThS have anticoagulant activity, which could be controlled by protamine, and ex vivo aPTT assay demonstrated that Ph-VThS is absorbed by subcutaneous route. Like heparin, they were able to inhibit α-thrombin and factor Xa by a serpin-dependent mechanism. In vivo, VThS and Ph-VThS reduced thrombus formation by approximately 50% at a dose of 40 IU/kg, similarly to heparin. The results demonstrated that the chemically sulfated polysaccharides are promising anticoagulant and antithrombotic agents.

Effects of chlorate on the sulfation process of Trypanosoma cruzi glycoconjugates. Implication of parasite sulfates in cellular invasion.

Sulfation, a post-translational modification which plays a key role in various biological processes, is inhibited by competition with chlorate. In Trypanosoma cruzi, the agent of Chagas' disease, sulfated structures have been described as part of glycolipids and we have reported sulfated high-mannose type oligosaccharides in the C-T domain of the cruzipain (Cz) glycoprotein. However, sulfation pathways have not been described yet in this parasite. Herein, we studied the effect of chlorate treatment on T. cruzi with the aim to gain some knowledge about sulfation metabolism and the role of sulfated molecules in this parasite. In chlorate-treated epimastigotes, immunoblotting with anti-sulfates enriched Cz IgGs (AS-enriched IgGs) showed Cz undersulfation. Accordingly, a Cz mobility shift toward higher isoelectric points was observed in 2D-PAGE probed with anti-Cz antibodies. Ultrastructural membrane abnormalities and a significant decrease of dark lipid reservosomes were shown by electron microscopy and a significant decrease in sulfatide levels was confirmed by TLC/UV-MALDI-TOF-MS analysis. Altogether, these results suggest T. cruzi sulfation occurs via PAPS. Sulfated epitopes in trypomastigote and amastigote forms were evidenced using AS-enriched IgGs by immunoblotting. Their presence on trypomastigotes surface was demonstrated by flow cytometry and IF with Cz/dCz specific antibodies. Interestingly, the percentage of infected cardiac HL-1 cells decreased 40% when using chlorate-treated trypomastigotes, suggesting sulfates are involved in the invasion process. The same effect was observed when cells were pre-incubated with dCz, dC-T or an anti-high mannose receptor (HMR) antibody, suggesting Cz sulfates and HMR are also involved in the infection process by T. cruzi.

Chemically sulfated galactomannan from Dimorphandra gardneriana seed: characterization and toxicity evaluation.

Dimorphandra gardneriana galactomannan (DG) was sulfated in pyridine:formamide using chlorosulfonic acid as the sulfation agent. The degree of substitution was 0.32, determined from the sulfur percentage. Confirmation of sulfation was obtained by FTIR spectroscopy through the presence of an asymmetrical SO stretching vibration at 1,259 cm(-1). NMR data showed that the sulfation occurred on primary hydroxyl groups. NMR and GPC data indicate degradation during reaction with elimination of galactose. At the maximum tested concentration of 1,000 µg/mL, unmodified DG polysaccharide did not show a statistically significant cytotoxicity in Vero cells by the MTT method. Therefore, the CC50>1,000 µg/mL obtained for the sulfated polysaccharides from D. gardneriana in Vero cells point to its lower cytotoxicity than the sulfated galactomannan from Mimosa scabrella.

Atividade anti-HSV-1 in vitro de galactomanana quimicamente sulfatada de sementes de Leucaena leucocephala / In vitro anti-HSV-1 activity of a chemically sulfated galactomannan from Leucaena leucocephala seeds

Obteve-se uma galactomanana quimicamente sulfatada (LLS-2) a partir de polissacarídeo extraído de sementes de Leucaena leucocephala, a qual apresentou 15.2% de sulfato e grau de derivatização de 0,60, e, seu efeito antiviral sobre a replicação do vírus Herpes simplex tipo 1 (HSV-1) em células Vero foi avaliado pela metodologia de redução do número de unidades formadoras de placas. LLS-2 apresentou 93.7% de inibição da replicação viral à concentração de 2,5 ?g/ml, quando adicionado durante as etapas iniciais de replicação, com um índice de seletividade maior que 1.000, sugerindo que LLS-2 inibe a ligação de HSV-1 às células hospedeiras.

A galactomannan extracted from the seeds of Leucaena leucocephala was sulfated chemically, yielding a polymer (LLS-2) with 15.2% sulfate by weight (degree of sulfation 0.60), and its effect on the replication of Herpes simplex virus 1 (HSV-1) in Vero cells was investigated. When added during infection and early replication, LLS-2 showed 93.7% inhibition of HSV-1 replication at a concentration of 2.5 ?g/mL, according to the reduction in the number of viral plaques, and a selectivity index higher than 1,000, suggesting that it inhibits HSV-1 binding to the host cell.

Modificación y aaracterización de una vermiculia Colombiana con especies de tiitanio, zirconio y sulfato / Modifiction and characterization of a Colombian vermiclite with titannium, zirconium and sulfat / Modificção e carracterização do vermiculite Colombian com titânio, zirconiõ e sulfato

El presente trabajo reporta los resultados de la caracterización química, estructural y textural de una vermiculita de origen colombiano modificada con especies simples de Zr y Ti, y el sistema mixto Ti-Zr en relaciones atómicas nominales Zr/(Ti + Zr) = 0,1 y 0,5. Adicionalmente, se evaluó la incidencia de la presencia de sulfato sobre los sistemas mencionados bajo las relaciones nominales sulfato/metal 0; 0,25 y 0,35, incorporando el sulfato ya sea en la solución intercalante, o por impregnación vía húmeda sobre los sólidos modificados y calcinados. Los resultados indican que cuando la sulfatación se lleva a cabo por intercalación, la naturaleza química de la solución intercalante afecta notoriamente la cantidad de metal incorporado, dependiendo de la relación sulfato/metal empleada. De otro lado se estableció que, cuando se lleva a cabo la sulfatación por impregnación, las propiedades texturales, estructurales y morfológicas de los sólidos obtenidos se ven fuertemente afectadas y estan acompañadas de una fijación de azufre significativamente mayor que para los sólidos sulfatados por intercalación.

The present work reports the results of chemical, structural and textural characterization of a Colombian vermiculite modified with simple species of Zr and Ti, and the mixed system of Ti-Zr in nominal atomic relations Zr/(Ti + Zr) = 0,1 and 0,5. Additionally, the incidence of sulfate presence was evaluated under the nominal relations sulfate/metal 0; 0,25 and 0,35, incorporating sulfate either in the intercalation solution, or by impregnation on modified and calcined solids. The results indicate that when the sulfation is carried out by intercalation, the chemical nature of the intercalation solution affects the amount of incorporated metal, depending on the relation used sulfate/metal. When the sulfation by impregnating is carried out, the textural, structural and morphologic properties of the obtained solids are strongly affected and are accompanied of a sulfur fixation significantly greater than for solids sulfated by intercalation.

O trabalho atual relata os resultados do produto químico, caracterização estrutural e textural de um vermiculite Colombian modificado com espécie simples do Zr e o Ti, e o sistema misturado do Ti-Zr no Zr/atômico nominal das relações (Ti + Zr) = 0.1 e 0.5. Adicionalmente, a incidência da presença do sulfato foi avaliada sobre o sulfato das relações/metal nominais 0; 0.25 e 0.35, incorporando sulfato já seja na solução ou do intercalação, ou pelo impregnação em sólidos modificados e calcinados. Os resultados indicam que quando o sulfatação é realizado pelo intercalação, a natureza química da solução do intercalação afeta a quantidade de metal incorporado, dependendo do sulfato/metal usados na relação. Quando o sulfação impregnando é realizado, as propriedades texturaes, as estruturais e as morfologicas de sólidos obtidos fortemente estão afetadas e acompanhadas de uma fixation de enxôfre significativamente mais grande do que para os sólidos sulfatados pelo intercalação.