The Antiviral Activity of Bacterial, Fungal, and Algal Polysaccharides as Bioactive Ingredients: Potential Uses for Enhancing Immune Systems and Preventing Viruses

Chaisuwan, Worraprat; Phimolsiripol, Yuthana; Chaiyaso, Thanongsak; Techapun, Charin; Leksawasdi, Noppol; Jantanasakulwong, Kittisak; Rachtanapun, Pornchai; Wangtueai, Sutee; Sommano, Sarana Rose; You, SangGuan; Regenstein, Joe M.; Barba, Francisco J.; Seesuriyachan, Phisit

doi:10.3389/fnut.2021.772033

Cited by 35 publications

(16 citation statements)

References 119 publications

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“…Sulfated polysaccharides from the red alga Schizymenia pacifica were also reported to be antiviral against HIV reverse transcriptase and viral replication in vitro [64]. In addition, several polysaccharides from algae, bacteria or fungi, including EPSs produced by lactic acid bacteria (LAB), have been considered as GRAS (generally recognized as safe) by the US FDA, opening interesting possibilities for therapeutics or food supplements [65].…”

Section: Antiviral Activity Of Polysaccharides and Epssmentioning

confidence: 99%

“…In general, enveloped viruses are more sensitive to polyanionic antivirals than non-enveloped viruses. On the other hand, in general, the higher the molecular weight, the higher the antiviral activity [59,65,67]. However, although the molecular weight of polysaccharides and EPSs often correlates with their antiviral effect, molecular weight can play a dual role, or even have no influence at all.…”

Section: Antiviral Activity Of Polysaccharides and Epssmentioning

confidence: 99%

“…However, some low-molecular-weight polysaccharides can also generate strong antiviral activity, especially when their sulfate content is high; in addition, low-molecular-weight compounds can inhibit cell-to-cell viral spread more efficiently [59]. Low-molecular-weight compounds can inhibit cell-to-cell spread of viruses more efficiently because polysaccharides with low molecular weight can pass more easily through target cells to act inside them [59,65]. In addition, low-molecular-weight EPSs can stimulate the immune system more effectively [41].…”

Section: Antiviral Activity Of Polysaccharides and Epssmentioning

confidence: 99%

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Extracellular Polymeric Substances: Still Promising Antivirals

Bello-Morales

Andreu

Ruiz-Carpio

et al. 2022

Viruses

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Sulfated polysaccharides and other polyanions have been promising candidates in antiviral research for decades. These substances gained attention as antivirals when they demonstrated a high inhibitory effect in vitro against human immunodeficiency virus (HIV) and other enveloped viruses. However, that initial interest was followed by wide skepticism when in vivo assays refuted the initial results. In this paper we review the use of sulfated polysaccharides, and other polyanions, in antiviral therapy, focusing on extracellular polymeric substances (EPSs). We maintain that, in spite of those early difficulties, the use of polyanions and, specifically, the use of EPSs, in antiviral therapy should be reconsidered. We base our claim in several points. First, early studies showed that the main disadvantage of sulfated polysaccharides and polyanions is their low bioavailability, but this difficulty can be overcome by the use of adequate administration strategies, such as nebulization of aerosols to gain access to respiratory airways. Second, several sulfated polysaccharides and EPSs have demonstrated to be non-toxic in animals. Finally, these macromolecules are non-specific and therefore they might be used against different variants or even different viruses.

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Section: Antiviral Activity Of Polysaccharides and Epssmentioning

confidence: 99%

Section: Antiviral Activity Of Polysaccharides and Epssmentioning

confidence: 99%

Section: Antiviral Activity Of Polysaccharides and Epssmentioning

confidence: 99%

See 1 more Smart Citation

Extracellular Polymeric Substances: Still Promising Antivirals

Bello-Morales

Andreu

Ruiz-Carpio

et al. 2022

Viruses

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“…A further interesting fact is that many microalgae communities are able to produce polysaccharides, which are well known to exert a broad spectrum of biological activities, especially antiviral properties (Chaisuwan et al . 2021 ). These polysaccharides were found among numerous algal microbiomes, including S. quadricauda (IMG ID 3300005759), C. saccharophila (IMG ID 3300008885), C. sorokiniana (IMG ID 3300042370) and M. crux‐melitensis (IMG ID 3300008886) (Table 1 ).…”

Section: Antibacterial Activitymentioning

confidence: 99%

Health benefits of microalgae and their microbiomes

Krohn

Menanteau–Ledouble

Hageskal

et al. 2022

Microbial Biotechnology

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Microalgae comprise a phylogenetically very diverse group of photosynthetic unicellular pro-and eukaryotic organisms growing in marine and other aquatic environments. While they are well explored for the generation of biofuels, their potential as a source of antimicrobial and prebiotic substances have recently received increasing interest. Within this framework, microalgae may offer solutions to the societal challenge we face, concerning the lack of antibiotics treating the growing level of antimicrobial resistant bacteria and fungi in clinical settings. While the vast majority of microalgae and their associated microbiota remain unstudied, they may be a fascinating and rewarding source for novel and more sustainable antimicrobials and alternative molecules and compounds. In this review, we present an overview of the current knowledge on health benefits of microalgae and their associated microbiota. Finally, we describe remaining issues and limitation, and suggest several promising research potentials that should be given attention.

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“…Natural polysaccharides, one of the most the abundant dietary components, are polymeric carbohydrate macromolecules and sources of fermentable dietary fiber that exhibit biological activities with low toxicity, such as, anti-oxidation, anti-inflammatory, anti-tumor, and antiviral ( Chaisuwan et al, 2021 ; Li et al, 2021a ; Mirzadeh et al, 2021 ). Of note, natural polysaccharides are among the most potent modulators of the gut microbiota composition and benefit for human health ( Yin et al, 2020 ; Song et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Targeting Gut Microbiota With Natural Polysaccharides: Effective Interventions Against High-Fat Diet-Induced Metabolic Diseases

et al. 2022

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Unhealthy diet, in particular high-fat diet (HFD) intake, can cause the development of several metabolic disorders, including obesity, hyperlipidemia, type 2 diabetes mellitus (T2DM), non-alcoholic fatty liver disease (NAFLD), and metabolic syndrome (MetS). These popular metabolic diseases reduce the quality of life, and induce premature death worldwide. Evidence is accumulating that the gut microbiota is inextricably associated with HFD-induced metabolic disorders, and dietary intervention of gut microbiota is an effective therapeutic strategy for these metabolic dysfunctions. Polysaccharides are polymeric carbohydrate macromolecules and sources of fermentable dietary fiber that exhibit biological activities in the prevention and treatment of HFD-induced metabolic diseases. Of note, natural polysaccharides are among the most potent modulators of the gut microbiota composition. However, the prebiotics-like effects of polysaccharides in treating HFD-induced metabolic diseases remain elusive. In this review, we introduce the critical role of gut microbiota human health and HFD-induced metabolic disorders. Importantly, we review current knowledge about the role of natural polysaccharides in improving HFD-induced metabolic diseases by regulating gut microbiota.

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The Antiviral Activity of Bacterial, Fungal, and Algal Polysaccharides as Bioactive Ingredients: Potential Uses for Enhancing Immune Systems and Preventing Viruses

Cited by 35 publications

References 119 publications

Extracellular Polymeric Substances: Still Promising Antivirals

Extracellular Polymeric Substances: Still Promising Antivirals

Health benefits of microalgae and their microbiomes

Targeting Gut Microbiota With Natural Polysaccharides: Effective Interventions Against High-Fat Diet-Induced Metabolic Diseases

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