Guluronic acid disaccharide inhibits reactive oxygen species production and amyloid-ß oligomer formation.

In general, Cu(II) is the critical factor in catalyzing reactive oxygen species (ROS) production and accelerating amyloid-ß (Aß) oligomer formation in Alzheimer's disease (AD). Natural chelating agents with good biocompatibility and appropriate binding affinity with Cu(II) have emerged as potential candidates for AD therapy. Herein, we tested the capability of guluronic acid disaccharide (Di-GA), a natural chelating agent with the moderate association affinity to Cu(II), in inhibiting ROS production and Aß oligomer formation. The results showed that Di-GA was capable of chelating with Cu(II) and reducing ROS production, even in solutions containing Fe(II), Zn(II), and Aß. In addition, Di-GA can also capture Cu(II) from Cu-Aß complexes and decrease Aß oligomer formation. The cellular results confirmed that Di-GA prevented SH-SY5Y cells from ROS and Aß oligomer damage by reducing the injury of ROS and Aß oligomers on cell membrane and decreasing their intracellular damage on mitochondria. Notably, the slightly higher efficiency of Di-GA in chelating with Cu(I) than Cu(II) can be benefit for its in vivo applications, as Cu(I) is not only the most active but also the special intermediate specie during ROS production process. All of these results proved that Di-GA could be a promising marine drug candidate in reducing copper-related ROS damage and Aß oligomer toxicity associated with AD.

Evaluation of G2013 (α-L-guluronic acid) efficacy on PC-3 cells through inhibiting the expression of inflammatory factors.

Given multiple treatment strategies for prostate cancer, its mortality rate is still high; therefore, novel treatment strategies seem necessary. G2013 or α-L-guluronic acid is a new patented drug with immunomodulatory and anti-inflammatory properties. This study aimed to evaluate the property of G2013 on inflammatory molecules involved in tumorigenesis of prostate cancer. MTT assay was used to assess the effect of the drug on the proliferation of PC-3 cells. Expression of interleukin 8 (IL-8), Nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB), myeloid differentiation factor 88 (MYD-88), cyclooxygenase 2 (COX-2), matrix metalloproteinase-2 (MMP-2), and MMP-9 genes were studied in the PC-3 cells treated with 25 (low dose) or 50 (high dose) µg/mL of G2013 for 24 h using quantitative real-time polymerase chain reaction (qRT-PCR) technique. Protein expression of NF-κB and protein activities of MMP-2 and MMP-9 were assayed using flow cytometry and gelatin zymography, respectively. The expression of COX-2 (p = 0.007 at low dose), MMP-2 (p = 0.023 at low dose, p = 0.002 at high dose), NF-κB (p = 0.004 at low dose) and IL-8 (p < 0.0001 in both doses) genes, NF-κB protein (p < 0.0001 in both doses), and MMP-2 activity (p < 0.0001 in both doses) were significantly reduced in the presence of G2013 as compared to the control group. Cancer cell proliferation was also inhibited under 10-500 µg/mL G2013 treatment. Our results revealed that G2013 has the potential to inhibit PC-3 cell proliferation and reduce the expression of tumour-promoting mediators, COX-2, MMP-2, NF-κB, and IL-8 involved in the progression and metastasis of prostate cancer.

Evaluation of the acute and 28-day sub-acute intravenous toxicity of α-l-guluronic acid (ALG; G2013) in mice.

α-l-Guluronic acid (ALG; G2013) has been previously introduced as a new anti-inflammatory agent with promising therapeutic effects. Thus, in the present study, we aimed to evaluate the acute and sub-acute toxicity of ALG through intravenous (i.v.) administration in Balb/C mice. ALG was administrated i.v. to the mice with doses of 300, 600, and 1000 mg/kg of body weight to investigate acute toxicity (single dose) and with doses of 25, 50, and 100 mg/kg of body weight to sub-acute toxicity study (daily injections for a period of 28 days). The mortality rate, food and water intake, behavior, body weight, gross necropsy, hematological and biochemical parameters as well as histopathological presentations of the vital organs (kidneys, liver, lungs, spleen, and heart) were examined in treated groups and compared to the healthy controls. The results of both acute and sub-acute studies showed that i.v. administrations of ALG did not affect the investigated parameters in both sexes, indicating that the LD50 of ALG was higher than 1000 mg/kg of body weight. As no difference was observed in toxicity profiles of investigated doses, no-observed-adverse-effect-level for i.v. administration of ALG in the sub-acute study was greater than 100 mg/kg body weight in both female and male mice. According to the finding, i.v. administration of ALG did not lead to any clinical sign in abovementioned doses, suggesting that ALG was well tolerated up to 1000 mg/kg. These pre-clinical findings support the application of ALG in the future clinical trials.

The effects of guluronic acid (G2013), a new emerging treatment, on inflammatory factors in nonalcoholic steatohepatitis patients under in vitro conditions.

BACKGROUND: Nonalcoholic Steatohepatitis (NASH) results from the accumulation of fatty acids in the liver. The elevated production of pro-inflammatory factors is the reason for the hyper inflammation in NASH. The α-L-Guluronic acid (G2013), a new member of NSAID family, is a plant-originated agent with immunomodulatory properties. The current study investigated the effects of G2013 on inflammatory factors in PBMCs of NASH patients. METHODS: PBMCs of 14 NASH patients and 14 healthy controls were isolated and cultured. The patient's cells were treated with low (5 µg/mL) and moderate (25 µg/mL) doses of G2013 alongside the diclofenac optimum dose (3 µg/mL). The expression and secretion levels of variables were assessed by real-time PCR and ELISA, respectively. RESULTS: Findings indicated that the expression levels of TLR4 and NF-κB, as well as the secretion levels of TNF-α and IL-6 cytokines, were significantly elevated in NASH patients compared to healthy individuals. The expression levels of TLR4 and NF-κB were strikingly downregulated in treated cells of patients in both low and moderate doses of G2013. A considerable reduction was obtained in the secretion level of IL-6 using both low and moderate doses of G2013 and in the secretion level of TNF-α using the moderate dose of G2013. CONCLUSION: The results indicated that G2013 could meaningfully decrease the expression and secretion levels of evaluated factors (TLR4, NF-κB, TNF-α, and IL-6) in PMBCs of NASH cases. Since there is no effective treatment for NASH patients, we hope that G2013 would be a promising immunomodulatory agent in reducing inflammation and improvement of patients.

Evaluation of the oral administration of α-l-guluronic acid on COX-1 and COX-2 gene expression profile in ankylosing spondylitis patients.

Ankylosing spondylitis (AS) is a chronic autoimmune arthritis disease with a genetic background, affecting the skeletal axis, sacroiliac, and peripheral joints. Nonsteroidal anti-inflammatory drugs (NSAIDs) are the first-line treatment for AS to alleviate the inflammation and pain. Despite the beneficial effect, their use is accompanied by a wide variety of possible side effects in the gastrointestinal and kidneys. The α-l-guluronic acid (G2013) is a new nonsteroidal anti-inflammatory patented (PCT/EP2017/067920) drug, which has shown its anti-inflammatory properties in the previous investigations. The present study revealed the oral administration effect of G2013 on COX-1 and COX-2 gene expression in AS patients. The blood samples of twelve 18-45 years old patients suffering AS and BASDAI >4, and BASFI >4, before and after 12 weeks of treatment with G2013 and 12 blood samples of healthy volunteers were collected and the effect of G2013 on the gene expression of COX-1 and COX-2 enzymes were assessed by Real-Time PCR. The results indicate that G2013 is able to reduce the gene expression level of COX-1 and COX-2 enzymes in treated AS patients compared to healthy control. Statistically significant differences were not observed between the treatment and the healthy control groups. According to the findings, G2013 might be categorized and introduced as a novel NSAID for the treatment of AS.

Effects of guluronic acid, as a new NSAID with immunomodulatory properties on IL-17, RORγt, IL-4 and GATA-3 gene expression in rheumatoid arthritis patients.

Aim: Rheumatoid arthritis (RA) is a prevalent inflammatory, autoimmune diseases characterized by inflammation and destruction of joints. Disease-modifying anti-rheumatic drugs (DMARDs) and biological drugs can have modulatory interference in disease process. In this study, the effect of Guluronic Acid (G2013) as a novel non-steroidal anti-inflammatory drug (NSAID) with immunomodulatory effects was evaluated on IL-17, RORγt, IL-4 and GATA-3 gene expression in RA patients.Methods: Fourteen patients with RA who had an inadequate response to conventional treatments were included in this clinical trial. During this trial, patients were permitted to continue the conventional therapy excluding NSAIDs. G2013 was administered orally at dose of 500 mg twice daily for 12 weeks. The peripheral blood mononuclear cells (PBMCs) were collected before and after treatment to evaluate the gene expression levels of IL-4, GATA-3, IL-17 and RORγt.Results: Primary and secondary efficacy endpoints and Disease Activity Score (DAS) 28 showed an improvement after 12 weeks of treatment. G2013 has a potent efficacy on gene expression of these molecules, so that it could decrease IL-17 and RORγt levels and increase IL-4 and GATA-3 levels after 12 weeks of treatment. Reduction of IL-17 was statistically non-significant whereas for its transcription factor (RORγt) was statistically significant. Moreover, the gene expression results were in accordance with the clinical and preclinical assessments.Conclusion: G2013 as a natural novel drug showed a significant increase on IL-4 and GATA-3 and a significant decrease on RORγt gene expression after 12 weeks oral administration of this drug in RA patients. (Clinical trial identifier: IRCT2016092813739N5).

Pivotal cytokines and their transcription factors are the targets of guluronic acid (G2013) for inhibiting the immunopathogenesis process of multiple sclerosis.

The α-L-guluronic acid (G2013), is a novel immunosuppressive drug (PCT/EP2017/067920). One of the most popular ideas in designing drugs for multiple sclerosis (MS) is to restrict the main inflammation-related lymphocytes and cytokines. The foremost problems with conventional drugs are their side effects and low efficacy. In order to rectify these problems, we examined the effect of two doses of G2013 on the gene expression of IFN-γ, IL-17, IL-22, T-bet, RORC, and AHR, in MS patients PBMCs. RNA was extracted from peripheral blood mononuclear cell (PBMC) of 12 relapsing-remitting MS patients and 12 healthy volunteers and the effect of two doses of G2013 on the gene expression of IFN-γ, IL-17, IL-22, T-bet, RORC, and AHR, were assessed by real-time PCR. Overall, the results show that G2013 is able to significantly reduce the gene expression of IL-22, AHR, RORC, and T-bet. Collectively, G2013 might be considered and studied as a new drug of possible use to MS patients due to its immunosuppressive property on some of the main inflammatory cytokine and transcription factors.

A randomized clinical trial for the assessment of the efficacy and safety of guluronic acid (G2013) in patients with rheumatoid arthritis.

Objective: To evaluate the safety, efficacy and tolerability of guluronic acid (G2013) in order to treat the rheumatoid arthritis patients who had inadequate response to conventional drugs. Methods: A randomized, 12-week clinical trial with two treatment arms: guluronic acid (G2013) and conventional treatment was performed. The diagnosed RA patients according to the ACR/European League against Rheumatism 2010 classification criteria, with an active disease at baseline that had inadequate response to conventional therapy were considered for the study. G2013 was administered orally twice a day with capsules of 500 mg during a period of 12 weeks and the patients were followed up for the safety and efficacy. Results: Our data showed that, the mean changes in the G2013 and control groups were -7.54 and -2.5 for tender joint count; -7.59 and -3.59 for swollen joint count; -30 and -0.9 for physician global assessment; -23.18 and -1.81 for patient global assessment; -14.45 and -1.45 for erythrocyte sedimentation rate, respectively. Improvements seen with G2013 were significantly greater than those with conventional drugs. In total, in 15.3% of G2013-treated patients and 69.2% of conventional-treated patients adverse events (AEs) occurred in this study. Conclusion: These data from routine rheumatology clinical practice highlight the effectivenessof G2013 in combination with conventional therapy with more desirable safety profile compared to the conventional-treated patients. Therefore, G2013 therapy could be an appropriate choice in order to manage the RA disease. (Clinical trial identifier: IRCT2016092813739N5).

Effects of guluronic acid (G2013) on gene expression of TLR2, TLR4, MyD88, TNF-α and CD52 in multiple sclerosis under in vitro conditions.

Context: Multiple sclerosis (MS) is an autoimmune and chronic inflammatory disease of CNS. The α-L-guluronic acid (G2013) as novel NSAID with immunomodulatory effects has shown its positive effects in various investigations.Objective: Present research aimed to study the potency of G2013 on gene expression of TLR2, TLR4, MyD88, TNF-α and CD52 in PBMCs of MS patients under in vitro conditions. Materials and methods: 24 blood samples from MS patients and healthy controls were considered for RT-PCR and flow cytometry techniques under two different doses of G2013.Results: Our research indicated that this drug could significantly decrease the gene expression of TLR2, TLR4 and TNF-α compared to untreated group. Conclusion: Data demonstrated that the guluronic acid is able to modify the expression levels of TLR2, TLR4 and TNF-α genes to less than the pathogenic boarder line level, which it might be recommended for reducing the pathological process in multiple sclerosis.

Structure and Polymannuronate Specificity of a Eukaryotic Member of Polysaccharide Lyase Family 14.

Alginate is an abundant algal polysaccharide, composed of ß-d-mannuronate and its C5 epimer α-l-guluronate, that is a useful biomaterial in cell biology and tissue engineering, with applications in cancer and aging research. The alginate lyase (EC 4.2.2.3) from Aplysia kurodai, AkAly30, is a eukaryotic member of the polysaccharide lyase 14 (PL-14) family and degrades alginate by cleaving the glycosidic bond through a ß-elimination reaction. Here, we present the structural basis for the substrate specificity, with a preference for polymannuronate, of AkAly30. The crystal structure of AkAly30 at a 1.77 Å resolution and the putative substrate-binding model show that the enzyme adopts a ß-jelly roll fold at the core of the structure and that Lys-99, Tyr-140, and Tyr-142 form catalytic residues in the active site. Their arrangements allow the carboxyl group of mannuronate residues at subsite +1 to form ionic bonds with Lys-99. The coupled tyrosine forms a hydrogen bond network with the glycosidic bond, and the hydroxy group of Tyr-140 is located near the C5 atom of the mannuronate residue. These interactions could promote the ß-elimination of the mannuronate residue at subsite +1. More interestingly, Gly-118 and the disulfide bond formed by Cys-115 and Cys-124 control the conformation of an active-site loop, which makes the space suitable for substrate entry into subsite -1. The cleavage efficiency of AkAly30 is enhanced relative to that of mutants lacking either Gly-118 or the Cys-115-Cys-124 disulfide bond. The putative binding model and mutagenesis studies provide a novel substrate recognition mode explaining the polymannuronate specificity of PL-14 alginate lyases.

Preclinical and pharmacotoxicology evaluation of α-l-guluronic acid (G2013) as a non-steroidal anti-inflammatory drug with immunomodulatory property.

CONTEXT: Therapeutic effects of α-l-guluronic acid with the greatest tolerability and efficacy (G2013) have been shown in experimental model of multiple sclerosis and other in vitro and in vivo examinations regarding α-l-guluronic acid; there are no toxicological researches on its safety although the pharmacological impacts have been recorded. OBJECTIVE: This study was designed to determine the acute and sub chronic toxicity of α-l-guluronic acid in healthy male and female BALB/c mice. MATERIALS AND METHODS: For the acute toxicity study, the animals orally received five different single doses of α-l-guluronic acid and were kept under observation for 14 d. In the sub-chronic study, 24 male and female BALB/c mice were divided into four groups and treated daily with test substance preparation at dose levels of 0, 50, 250, and 1250 mg/kg body weight for at least 90 consecutive days. The mortality, body weight changes, clinical signs, hematological and biochemical parameters, gross findings, histopathological, and organs weight determinants were monitored during this study. RESULTS: The results of acute toxicity indicated that the LD50 of α-l-guluronic acid is 4.8 g/kg. We found no mortality or abnormality in clinical signs, body weight, relative organs weight, or necropsy in any of the animals in the subchronic study. Additionally, the results showed no significant difference in hematological, biochemical, and histopathological parameters in rats. CONCLUSIONS: Our results suggest that α-l-guluronic acid has high safety when administered orally in animals.

The Open, Randomized, Positive Control Clinical Trial of Guluronic Acid (G2013) on SARS-CoV-2 Patients.

INTRODUCTION: Recently, the coronavirus disease 2019 (COVID-19) infection, with a vast spectrum of clinical and paraclinical symptoms has been a major health concern worldwide. Therapeutical management of COVID-19 includes antiviral and anti-inflammatory drugs. NSAIDs, as the second-line therapy, are often prescribed to relieve the symptoms of COVID-19. The α-L-guluronic acid (G2013) is a non-steroidal patented (PCT/EP2017/067920) agent with immunomodulatory properties. This study investigated the effect of G2013 on the outcome of COVID-19 in moderate to severe patients. METHODS: The disease's symptoms were followed up during hospitalization and for 4 weeks postdischarge in G2013 and control groups. Paraclinical indices were tested at the time of admission and discharge. Statistical analysis was performed on clinical and paraclinical parameters and ICU admission and death rate. RESULTS: The primary and secondary outcomes indicated the efficiency of G2013 on COVID-19 patients' management. There were significant differences in the duration of improvement of fever, coughing, fatigue/malaise. Also, a comparison of paraclinical indices at the time of admission and discharge showed significant change in prothrombin, D-dimer, and platelet. As the main findings of this study, G2013 significantly decreased the percentage of ICU admission (control:17 patients, G2013:1 patient) and death (control: 7 cases, G2013:0). CONCLUSION: These results conclude that G2013 has sufficient potential to be considered for moderate to severe COVID-19 patients, can significantly reduce the clinical and physical complications of this disease, has a positive effect on modulating the coagulopathy process, and aids in saving lives.

Structure-Activity Relationships of Low Molecular Weight Alginate Oligosaccharide Therapy against Pseudomonas aeruginosa.

Low molecular weight alginate oligosaccharides have been shown to exhibit anti-microbial activity against a range of multi-drug resistant bacteria, including Pseudomonas aeruginosa. Previous studies suggested that the disruption of calcium (Ca2+)-DNA binding within bacterial biofilms and dysregulation of quorum sensing (QS) were key factors in these observed effects. To further investigate the contribution of Ca2+ binding, G-block (OligoG) and M-block alginate oligosaccharides (OligoM) with comparable average size DPn 19 but contrasting Ca2+ binding properties were prepared. Fourier-transform infrared spectroscopy demonstrated prolonged binding of alginate oligosaccharides to the pseudomonal cell membrane even after hydrodynamic shear treatment. Molecular dynamics simulations and isothermal titration calorimetry revealed that OligoG exhibited stronger interactions with bacterial LPS than OligoM, although this difference was not mirrored by differential reductions in bacterial growth. While confocal laser scanning microscopy showed that both agents demonstrated similar dose-dependent reductions in biofilm formation, OligoG exhibited a stronger QS inhibitory effect and increased potentiation of the antibiotic azithromycin in minimum inhibitory concentration and biofilm assays. This study demonstrates that the anti-microbial effects of alginate oligosaccharides are not purely influenced by Ca2+-dependent processes but also by electrostatic interactions that are common to both G-block and M-block structures.

Guluronic acid can inhibit copper(II) and amyloid - ß peptide coordination and reduce copper-related reactive oxygen species formation associated with Alzheimer's disease.

Copper-related reactive oxygen species (ROS) formation can lead to neuropathologic degradation associated with Alzheimer's disease (AD) according to amyloid cascade hypothesis. A complexing agent that can selectively chelate with copper ions and capture copper ions from the complex formed by copper ions and amyloid-ß (Cu - Aß complex) may be available in reducing ROS formation. Herein, we described applications of guluronic acid (GA), a natural oligosaccharide complexing agent obtained from enzymatic hydrolysis of brown algae, in reducing copper-related ROS formation. UV-vis absorption spectra demonstrated the coordination between GA and Cu(II). Ascorbic acid consumption and coumarin-3-carboxylic acid fluorescence assays confirmed the viability of GA in reducing ROS formation in solutions containing other metal ions and Aß. Fluorescence kinetics, DPPH radical clearance and high resolution X - ray photoelectron spectroscopy results revealed the reductivity of GA. Human liver hepatocellular carcinoma (HepG2) cell viability demonstrated the biocompatibility of GA at concentrations lower than 320 µM. Cytotoxic results of human neuroblastoma (SH-SY5Y) cells verified that GA can inhibit copper-related ROS damage in neuronal cells. Our findings, combined with the advantages of marine drugs, make GA a promising candidate in reducing copper-related ROS formation associated with AD therapy.

The Evaluation of Safety Property and Apoptotic Efficacy of α-L-Guluronic Acid (G2013), as a Novel NSAID, Under In Vitro Examination on L929 and Hepatocellular Carcinoma Cell Lines.

BACKGROUND: Many investigations have expanded this concept that liver chronic inflammation has an essential role in persistent cell damages along with altering the liver microenvironment leading to fibrosis, cirrhosis, and finally, hepatocellular carcinoma (HCC). To reduce inflammation and relieve symptoms, Non-Steroidal Anti-Inflammatory Drugs (NSAIDs) are commonly used; however, their long-term usage can lead to severe adverse events on vital organs like the liver. Interestingly, the α-L-Guluronic Acid (G2013), as a novel NSAID with immunomodulatory properties, has shown the inhibitory effects on inflammation and metastasis in experimental models. OBJECTIVE: This study was conducted to determine the effects of G2013 on cytotoxicity and induction of apoptosis, as a new therapeutic target for cancer therapy, in the HepG2 cell line and the mouse fibroblast cell line L929, as a control. METHODS: MTT assay and flow cytometry method were carried out using the different concentrations of G2013 (5, 15, 25, 50, 100, 200 and 400 µg/ml) in 3 distinct incubation times. RESULTS: Our data showed that treatment of HepG2 cells with high concentration (400µg/mL) of G2013 could effectively cause a decrease in cell viability, so that they were statistically different after 72 hours compared to other concentrations (5 to 200 µg/ml) (p<0.05 and p<0.01, respectively). Moreover, the proportion of apoptosis of HepG2 cells at the dose of 200µg/mL considerably increased, suggesting that the induction of apoptosis by G2013 in HepG2 cells is dose- and time-dependent, which could promote its anticancer properties. CONCLUSION: The present study revealed that G2013 could induce apoptosis in the liver cancer model. Therefore, based on these findings, G2013 might be considered as a therapeutic option in cancer therapy.

Enzymatic depolymerization of alginate by two novel thermostable alginate lyases from Rhodothermus marinus.

Alginate (alginic acid) is a linear polysaccharide, wherein (1→4)-linked ß-D-mannuronic acid and its C5 epimer, α-L-guluronic acid, are arranged in varying sequences. Alginate lyases catalyze the depolymerization of alginate, thereby cleaving the (1→4) glycosidic linkages between the monomers by a ß-elimination mechanism, to yield unsaturated 4-deoxy-L-erythro-hex-4-enopyranosyluronic acid (Δ) at the non-reducing end of resulting oligosaccharides (α-L-erythro configuration) or, depending on the enzyme, the unsaturated monosaccharide itself. In solution, the released free unsaturated monomer product is further hydrated in a spontaneous (keto-enol tautomerization) process to form two cyclic stereoisomers. In this study, two alginate lyase genes, designated alyRm3 and alyRm4, from the marine thermophilic bacterium Rhodothermus marinus (strain MAT378), were cloned and expressed in Escherichia coli. The recombinant enzymes were characterized, and their substrate specificity and product structures determined. AlyRm3 (PL39) and AlyRm4 (PL17) are among the most thermophilic and thermostable alginate lyases described to date with temperature optimum of activity at ∼75 and 81°C, respectively. The pH optimum of activity of AlyRm3 is ∼5.5 and AlyRm4 at pH 6.5. Detailed NMR analysis of the incubation products demonstrated that AlyRm3 is an endolytic lyase, while AlyRm4 is an exolytic lyase, cleaving monomers from the non-reducing end of oligo/poly-alginates.

Cocktail polysaccharides isolated from Ecklonia kurome against the SARS-CoV-2 infection.

Previous researches suggested that polysaccharides from brown algae had anti-virus activity. We hypothesized that nature polysaccharide from marine plants might have the effect on anti-SARS-CoV-2 activity. By high throughput screening to target 3CLpro enzyme using polysaccharides library, we discover a crude polysaccharide 375 from seaweed Ecklonia kurome blocked 3CLpro enzymatic activity and shows good anti-SARS-CoV-2 infection activity in cell. Further, we show that homogeneous polysaccharide 37502 from the 375 may bind to 3CLpro well and disturb spike protein binding to ACE2 receptor. The structure characterization uncovers that 37502 is alginate. These results imply that the bioactivities of 375 on SARS-CoV-2 may target multiple key molecules implicated in the virus infection and replication. The above results suggest that 375 may be a potential drug candidate against SARS-CoV-2.

The effect of alginate composition on adsorption to calcium carbonate surfaces.

Bacterial anchoring to limestone rocks is thought to occur by selective adsorption of biomolecules found in the extracellular matrix, such as polysaccharides. Here we study the adsorbed structure of a model matrix polysaccharide, sodium alginate, at the calcite/water interface using neutron reflection (NR). Sodium alginate was found to form highly hydrated layers extending up to 350 Å into solution at concentrations up to 2.5 ppm (the inflection point of the adsorption isotherm). The adsorption of alginate was driven by dissolution of the calcite surface through complexation of free calcium ions. This was shown using two alginates with differing ratios of sugar residues. Alginates with a higher proportion of guluronic acid (G) have a higher affinity for calcium ions and were found to cause the surface to dissolve to a greater extent and to adsorb more at the surface when compared to alginates with a higher proportion of mannuronic acid (M). Adding magnesium to the high G alginate solution reduced dissolution of the surface and the adsorbed amount. In this work, we have shown that polysaccharide adsorption to sparingly soluble calcite interfaces is closely related to polymer conformation and affinity for free calcium ions in solution.

Characterization and gelling properties of a bioactive extract from Ascophyllum nodosum obtained using a chemical-free approach.

The bioactivity and gelling properties of a carbohydrate-rich algal extract obtained from locally harvested Ascophyllum nodosum seaweed using a chemical-free approach were investigated for its potential interest in food applications. Physicochemical characterisation and compositional analysis of the extract, using FTIR, biochemical methods and monosaccharide analysis, confirmed the presence of alginates and fucoidans, although the main polysaccharide present in it was laminarin. Significant amounts of phenolic compounds (~9 â€‹mg phloroglucinol/100 â€‹mg sample) were also detected. As a result, the extract exhibited good antioxidant activity. It also showed promising prebiotic potential, promoting the growth of beneficial Lactobacillus sp. and Bifidobacteria sp. when compared with commercial prebiotics, but not that of pathogenic bacteria such as E. coli or P. aeruginosa. The gelling properties of the raw extract were explored to optimize hydrogel bead formation by external gelation in CaCl2 solutions. This was enhanced at neutral to alkaline pHs and high extract and CaCl2 concentrations. The mechanical strength, nano- and microstructure of the hydrogel beads prepared under optimised conditions were determined using compression tests, synchrotron small- and wide-angle X-ray scattering (SAXS/WAXS) and scanning electron microscopy (SEM). It was concluded that the raw algal extract at neutral pH had potential for use as a gelling agent, although further enrichment with alginate improved the mechanical properties of the obtained gels. The advantages and disadvantages of applying the non-purified algal extract in comparison with purified carbohydrates are discussed.

The Effects of G2013 (α-L-guluronic Acid) in a Pentylenetetrazole-induced Kindling Animal Model of Epilepsy.

Background: Recent studies have reported observing antioxidant, anti-inflammatory, and anti-aging properties of α-L-Guluronic acid (G2013) in animal and human studies. It has been theorized that the antioxidant and anti-inflammatory properties of G2013 might be beneficial in epilepsy treatment. Objective: We sought to determine G2013's effects on epileptic activity in a kindling-induced animal model. Methods: Thirty rats were randomly divided evenly into three groups (10 rats in each group): 1) the G2013 group, which was treated with daily injections of G2013 for five days prior to the start of the study; during the 14-day study period, the G2013 rats were given single, daily injections of G2013 that preceded single daily injections of pentylenetetrazole (PTZ), a compound used to induce seizures; 2) the Normal group, which only received injections of saline during the 14-day study, with no seizure induction; and 3) the Control group, which received PTZ injections alone (for seizure induction) for the 14-day study period. The latency between seizure stages and duration of seizures in the G2013 and Control groups were measured using a 5-stage seizure severity scale. Brain samples were taken from all three groups and analyzed histopathologically for parenchymal and meningeal inflammatory cell infiltration. Additionally, the brain samples were analyzed to determine gene expression levels of interleukin-1-beta (IL-1ß), IL-6, IL-10), tumor necrosis factor (TNF), chemokine (C-C motif) ligand-2 (CCL2), cyclooxygenase-2 (COX-2), and interferon-gamma (IFN-γ). Results: The G2013 group demonstrated lower latency between Stages 2 and 5 seizures, with significantly longer mean duration of Stage 5 seizures, compared to the Control group. No significant differences were observed between the three groups histopathologically nor were there any observed differences in gene expression levels. Conclusion: Our results demonstrated a greater predisposition to PTZ-induced seizures in the rats who received G2013 and PTZ compared to rats who received PTZ alone, suggesting that G2013's epileptogenic property overshadows its anti-inflammatory effects when applied to a kindled animal model of study.