The Influence of Applications of Bio-Inputs Derived from Macroalgae and Bacteria on a Phaseolus vulgaris L. Crop.

BACKGROUND: The common bean (Phaseolus vulgaris L.), is one of the most relevant legumes worldwide, as a source of protein, fiber, carbohydrates, and biologically important minerals. In recent decades, bean production increased significantly, especially in developing countries, where the availability of animal protein is often in short supply. However, a large portion of this agricultural production has been achieved in an unsustainable manner, through the intensive use of non-renewable agrochemicals, which in both the short and long term negatively affect soil fertility. To address this problem, the use of sustainable and renewable bio-inputs derived from macroalgae, and microorganisms may be amongst solutions required. Extracts of seaweeds have been shown to be biodegradable and non-toxic both for treated plants and consumers. This study aimed to evaluate the influence of the application of three bio-inputs made from different organisms on a common bean variety (BRSMG Realce) by analysing plant physiology and productivity, pod morphology, nutritional and mineral characterization of the bean. The study also aimed to evaluate the length of BRSMG Realce crop life cycle and compare its nutritional value with other commonly consumed varieties. METHODS: Six treatments were performed: T0 - Control; T1 - Calmar® (soil - 100 kg/ha); T2 - Profertil® (foliar - 0.5%(v/v)); T3 - Albit® (leaf - 0.02%(v/v)); T4 - Calmar® ((100 kg/ha) + Profertil® (0.5%(v/v)); T5 - Calmar® ((100 kg/ha) + Albit® (0.02% (v/v)). RESULTS: The leaf chlorophyll index revealed significant increases for T2, T4 and T5, compared to control. In general, the treatments related to the pods morphology showed significant increases in the length/width ratio. In terms of productivity, significant increases were found with T1, T4 and T5. In the analysis of the nutritional value of dried beans there were significant increases in the contents of fiber in T1, protein in T4 and T5 and carbohydrates for T1, T2 and T3. For mineral composition, there were increases in the phosphorus content of T2, T4 and T5 beans. When the cooked beans were analysed, T4 and T1 produced a greater amount of ash and proteins, as compared to control. CONCLUSIONS: The applications of bio-inputs in the bean crop (Phaseolus vulgaris L.) exerted several positive and significant effects, mainly on the CCI, productivity, pod morphology as well as cooked bean nutritional values. It was verified that BRSMG Reakce has the potential to be included in the Portuguese diet.

Neuroprotective potential of flavonoid rich Ascophyllum nodosum (FRAN) fraction from the brown seaweed on an Aß42 induced Alzheimer's model of Drosophila.

BACKGROUND: In Alzheimer Disease (AD) pathogenesis, aggregation of Aß42 fibrils strongly correlates with memory dysfunction and neurotoxicity. Till date, no promising cures for AD. Report shows that flavonoids contributed anti-oxidant, anti-cancer and neuroprotection activity by regulating the mitochondrial machinery. Here, we first report the identification of flavonoids from Ascophyllum nodosum as having the ability to dissolve Aß42 fibrils in an AD model of Drosophila. FRAN could be superior anti-AD agents for neuroprotection, their underlying mechanism and how they collectively halted amyloidogenesis is currently being investigated. PURPOSE: This study aimed to investigate the neuroprotective role of FRAN in the Aß42 expressing AD model of Drosophila. METHODS: Drosophila stocks: OregonR+, ey-GAL4/CyO, elavc155-GAL4, UAS-mitoGFP, UAS-mcherry.mito.OMM, UAS-Aß42/CyO were used, cultured at 28±1 °C in a BOD incubator. Ascophyllum extract rich in flavonoids as revealed by LC-MS study and employed against the AD flies. The validation of Aß42 expression was done by immunostaining and q-RT PCR. The eye roughness of AD flies was scored in a dose-dependent manner. Further, In vivo and in silico studies of FRAN extract was executed against Aß42 induced neurotoxicity. RESULTS: In order to determine the most effective lethal dose of FRAN extract concentration 1, 2, 5, 10 mg/ml were screened using OregonR+flies. Extract 1 and 2 mg/ml did not show any lethality. Hence, extract 2 mg/ml was employed on AD flies and a ≥ 50% rescue in the eye phenotype was observed using SEM images. This dose had a strong effect on cell apoptosis, viability, longevity, mitochondrial dysfunction and oxidative stress by regulating mitochondrial dynamic markers in comparable to control. Extract also scavenging free radicals in order to maintain in situ cellular ROS and prevent Aß42-induced neurotoxicity in vivo and in silico. Hence, we suggest its great potential as a future therapeutic agent for AD treatment. CONCLUSION: In conclusion, FRAN extract rich in flavonoids as having largest neuroprotective activity against Aß42 aggregation in eye tissue of Drosophila. Extract shows strong effect against Aß42-induced neurotoxicity by altering the various cellular and molecular events. So, it could be considered as strong anti-AD agents for neuroprotection.

On the Health Benefits vs. Risks of Seaweeds and Their Constituents: The Curious Case of the Polymer Paradigm.

To exploit the nutraceutical and biomedical potential of selected seaweed-derived polymers in an economically viable way, it is necessary to analyze and understand their quality and yield fluctuations throughout the seasons. In this study, the seasonal polysaccharide yield and respective quality were evaluated in three selected seaweeds, namely the agarophyte Gracilaria gracilis, the carrageenophyte Calliblepharis jubata (both red seaweeds) and the alginophyte Sargassum muticum (brown seaweed). It was found that the agar synthesis of G. gracilis did not significantly differ with the seasons (27.04% seaweed dry weight (DW)). In contrast, the carrageenan content in C. jubata varied seasonally, being synthesized in higher concentrations during the summer (18.73% DW). Meanwhile, the alginate synthesis of S. muticum exhibited a higher concentration (36.88% DW) during the winter. Therefore, there is a need to assess the threshold at which seaweed-derived polymers may have positive effects or negative impacts on human nutrition. Furthermore, this study highlights the three polymers, along with their known thresholds, at which they can have positive and/or negative health impacts. Such knowledge is key to recognizing the paradigm governing their successful deployment and related beneficial applications in humans.

A Cultivated Form of a Red Seaweed (Chondrus crispus), Suppresses ß-Amyloid-Induced Paralysis in Caenorhabditis elegans.

We report here the protective effects of a methanol extract from a cultivated strain of the red seaweed, Chondrus crispus, against ß-amyloid-induced toxicity, in a transgenic Caenorhabditis elegans, expressing human Aß1-42 gene. The methanol extract of C. crispus (CCE), delayed ß-amyloid-induced paralysis, whereas the water extract (CCW) was not effective. The CCE treatment did not affect the transcript abundance of amy1; however, Western blot analysis revealed a significant decrease of Aß species, as compared to untreated worms. The transcript abundance of stress response genes; sod3, hsp16.2 and skn1 increased in CCE-treated worms. Bioassay guided fractionation of the CCE yielded a fraction enriched in monogalactosyl diacylglycerols (MGDG) that significantly delayed the onset of ß-amyloid-induced paralysis. Taken together, these results suggested that the cultivated strain of C. crispus, whilst providing dietary nutritional value, may also have significant protective effects against ß-amyloid-induced toxicity in C. elegans, partly through reduced ß-amyloid species, up-regulation of stress induced genes and reduced accumulation of reactive oxygen species (ROS).

Prebiotic effects of diet supplemented with the cultivated red seaweed Chondrus crispus or with fructo-oligo-saccharide on host immunity, colonic microbiota and gut microbial metabolites.

BACKGROUND: Gastrointestinal microbial communities are diverse and are composed of both beneficial and pathogenic groups. Prebiotics, such as digestion-resistant fibers, influence the composition of gut microbiota, and can contribute to the improvement of host health. The red seaweed Chondrus crispus is rich in dietary fiber and oligosaccharides, however its prebiotic potential has not been studied to date. METHODS: Prebiotic effects were investigated with weaning rats fed a cultivated C. crispus-supplemented diet. Comparison standards included a fructo-oligo-saccharide (FOS) diet and a basal diet. The colonic microbiome was profiled with a 16S rRNA sequencing-based Phylochip array. Concentrations of short chain fatty acids (SCFAs) in the feacal samples were determined by gas chromatography with a flame ionization detector (GC-FID) analysis. Immunoglobulin levels in the blood plasma were analyzed with an enzyme-linked immunosorbent assay (ELISA). Histo-morphological parameters of the proximal colon tissue were characterized by hematoxylin and eosin (H&E) staining. RESULTS: Phylochip array analysis indicated differing microbiome composition among the diet-supplemented and the control groups, with the C. crispus group (2.5% supplementation) showing larger separation from the control than other treatment groups. In the 2.5% C. crispus group, the population of beneficial bacteria such as Bifidobacterium breve increased (4.9-fold, p=0.001), and the abundance of pathogenic species such as Clostridium septicum and Streptococcus pneumonia decreased. Higher concentrations of short chain fatty acids (i.e., gut microbial metabolites), including acetic, propionic and butyric acids, were found in faecal samples of the C. crispus-fed rats. Furthermore, both C. crispus and FOS supplemented rats showed significant improvements in proximal colon histo-morphology. Higher faecal moisture was noted in the 2.5% C. crispus group, and elevated plasma immunoglobulin (IgA and IgG) levels were observed in the 0.5% C. crispus group, as compared to the basal feed group. CONCLUSIONS: The results suggest multiple prebiotic effects, such as influencing the composition of gut microbial communities, improvement of gut health and immune modulation in rats supplemented with cultivated C. crispus.

Neuroprotective effects of the cultivated Chondrus crispus in a C. elegans model of Parkinson's disease.

Parkinson's disease (PD) is the second most common neurodegenerative disorder in the elderly people, currently with no cure. Its mechanisms are not well understood, thus studies targeting cause-directed therapy or prevention are needed. This study uses the transgenic Caenorhabditis elegans PD model. We demonstrated that dietary supplementation of the worms with an extract from the cultivated red seaweed Chondrus crispus decreased the accumulation of α-synulein and protected the worms from the neuronal toxin-, 6-OHDA, induced dopaminergic neurodegeneration. These effects were associated with a corrected slowness of movement. We also showed that the enhancement of oxidative stress tolerance and an up-regulation of the stress response genes, sod-3 and skn-1, may have served as the molecular mechanism for the C. crispus-extract-mediated protection against PD pathology. Altogether, apart from its potential as a functional food, the tested red seaweed, C. crispus, might find promising pharmaceutical applications for the development of potential novel anti-neurodegenerative drugs for humans.

Components of the cultivated red seaweed Chondrus crispus enhance the immune response of Caenorhabditis elegans to Pseudomonas aeruginosa through the pmk-1, daf-2/daf-16, and skn-1 pathways.

Marine macroalgae are rich in bioactive compounds that can, when consumed, impart beneficial effects on animal and human health. The red seaweed Chondrus crispus has been reported to have a wide range of health-promoting activities, such as antitumor and antiviral activities. Using a Caenorhabditis elegans infection model, we show that C. crispus water extract (CCWE) enhances host immunity and suppresses the expression of quorum sensing (QS) and the virulence factors of Pseudomonas aeruginosa (strain PA14). Supplementation of nematode growth medium with CCWE induced the expression of C. elegans innate immune genes, such as irg-1, irg-2, F49F1.6, hsf-1, K05D8.5, F56D6.2, C29F3.7, F28D1.3, F38A1.5 ZK6.7, lys-1, spp-1, and abf-1, by more than 2-fold, while T20G5.7 was not affected. Additionally, CCWE suppressed the expression of PA14 QS genes and virulence factors, although it did not affect the growth of the bacteria. These effects correlated with a 28% reduction in the PA14-inflicted killing of C. elegans. Kappa-carrageenan (K-CGN), a major component of CCWE, was shown to play an important role in the enhancement of host immunity. Using C. elegans mutants, we identified that pmk-1, daf-2/daf-16, and skn-1 are essential in the K-CGN-induced host immune response. In view of the conservation of innate immune pathways between C. elegans and humans, the results of this study suggest that water-soluble components of C. crispus may also play a health-promoting role in higher animals and humans.