key: cord-1026959-nlwbkzsx
authors: Ikewaki, Nobunao; Kurosawa, Gene; Kisaka, Tomohiko; Abraham, Samuel J. K.
title: Controlled modulation of all the arms of the immunity including innate immunity by biological response modifier glucans, a simple yet potential nutritional supplement strategy to fight COVID‐19
date: 2022-04-10
journal: J Food Biochem
DOI: 10.1111/jfbc.14156
sha: cfe0240545bd3ed67f665aba1745b6cbe7f64155
doc_id: 1026959
cord_uid: nlwbkzsx

Immune modulation, being one of the potential strategies to combat COVID‐19 infection, emphasis has been laid on enhancing the innate immune response in a balanced manner. Beta (β)‐glucans have been suggested as nonspecific immunostimulatory adjuvants to beneficially boost protective antiviral immunity. Through this article, we wish to emphasize that β‐glucans not only enhance the innate immunity but also possess the capability to modulate all the arms of the immunity viz., innate, adaptive, TRIM at different sites including those postulated to be the entry site of the SARS‐CoV2. Other than immune modulation capabilities, the beneficial metabolic‐ and coagulation‐related effects of β‐glucans, a simple nutritional supplementation strategy, make them be considered for larger clinical studies to validate their prophylactic vaccine adjuvant and nutritional‐based therapeutic supplement activities to effectively fight the COVID‐19 pandemic. PRACTICAL APPLICATIONS: A 360° wholesome protection from viral infections is possible only when all the arms of the immune system function in a balanced and effective manner which is especially important in COVID‐19. Nutritional supplementation using biological response modifier beta (β)‐glucans (BRMGs) is worth considering for large‐scale clinical studies based on their track record of safety and their beneficial regulation of all the arms of the immune system.

Immune modulation, being one of the potential strategies to combat COVID-19 infection, emphasis has been laid on enhancing the innate immune response in a balanced manner. Beta (β)-glucans have been suggested as nonspecific immunostimulatory adjuvants to beneficially boost protective antiviral immunity. Through this article, we wish to emphasize that β-glucans not only enhance the innate immunity but also possess the capability to modulate all the arms of the immunity viz., innate, adaptive, TRIM at different sites including those postulated to be the entry site of the SARS-CoV2. Other than immune modulation capabilities, the beneficial metabolicand coagulation-related effects of β-glucans, a simple nutritional supplementation strategy, make them be considered for larger clinical studies to validate their prophylactic vaccine adjuvant and nutritional-based therapeutic supplement activities to effectively fight the COVID-19 pandemic.

A 360° wholesome protection from viral infections is possible only when all the arms of the immune system function in a balanced and effective manner which is especially important in COVID-19. Nutritional supplementation using biological response modifier beta (β)-glucans (BRMGs) is worth considering for large-scale clinical studies based on their track record of safety and their beneficial regulation of all the arms of the immune system.

antiviral, beta (β)-glucans, COVID-19, immune modulation, innate immunity and safety in bringing down the inflammatory and immune biomarkers associated with cytokine storm and coagulopathy in COVID-19 patients (Pushkala et al., 2021; Raghavan et al., 2022) .

We wish to emphasize that these β-glucans not only promote TRIM and innate immunity but also have capabilities to uniquely modulate all the arms of the immunity viz., innate, adaptive, TRIM at different sites, including those postulated to be the entry site of the SARS-CoV2, the mucosal and gut immunity . Although yeast-based β-glucans have been proven clinically to be safe and effective vaccine adjuvants, especially an AFO-202-derived β-glucans against Avian Influenza virus (Le et al., 2011) , the significance of this β-glucan as a wide-spectrum immune enhancement (β-WIFE) vaccine adjuvant strategy to COVID-19 ) deserves a mention.

Such β-glucans modulate all arms of the immunity in a controlled manner through the following postulated mechanisms:

1. Induce epigenetic reprogramming both at the peripheral and at the central level of bone marrow, leading to cellular activation of trained innate immune cells for antiviral activity, with a long-lasting innate memory (Geller & Yan, 2020) .

ing to stimulation of antigen-specific CD4 and CD8 T cells, and induce IFNγ production (Netea et al., 2020) .

3. Since the β-glucans act akin to pathogen-associated molecular patterns (PAMP), activating mucosal and gut immunity by binding with specific pathogen recognition receptors such as dectin-1, which is also a key receptor for beta (β)-glucan binding, this process induces adaptive and innate immunity in distant lymphoid organs as well (Li et al., 2010) .

the immunoglobulins specifically those in the saliva (sIgM, sIgG, and sIgA), as they can mount effective anti-SARS-CoV2 response at the level of oral entry itself. Orally administered β-glucans also have been reported to stabilize IgG1 levels, maintaining antiinfective immunity (Richter et al., 2016) .

β-glucans with the enhancement of beneficial cytokines such as IL-7, IFNγ, and sFAS while suppression of pro-inflammatory cytokine storm-inducing cytokines such as IL-6 (Netea et al., 2020) .

This balanced immune response is significant in COVID-19 as any immune-modulatory agent can be truly beneficial only if it induces this kind of a balanced response rather than an enhanced antiviral immune response alone.

6. Gut-microbiota alteration with β-glucans to modulate dysbiosis and lead to the enhancement of beneficial microbes has been documented (Jayachandran et al., 2018; Raghavan et al., 2021) . Schijns and Lavelle (2020) have also suggested that aiming for microbiome balance to prevent dangerous immune hyperactivation is essential for an anti-COVID-19 response.

7. Metabolic beneficial effects of these β-glucans become critical in the context of prophylaxis and supportive therapeutics in COVID-19 as higher rate of inflammatory processes occurring in diabetic patients due to constant glucose recognition by C-type lectin receptors and immune-related coagulatory dysfunction pose individuals with these metabolic alterations at heightened risk of severe mortality associated with the disease (Ikewaki, Rao, et al., 2020) .

Thus, by adopting a simple nutritional supplementation strategy based on β-glucans, not only the innate immune response is beneficially enhanced but all arms of the immunity including at the postulated sites of entry of the SARS-CoV2 virus are also modulated in a controlled and effective manner. Therefore, we suggest that this βglucan-based controlled immune modulation strategy be considered for large-scale multicentric clinical trials for validation as a prophylactic vaccine adjuvant and nutritional-based therapeutic supplement strategy to effectively fight the COVID-19 pandemic, in a manner that has minimal adverse effects which are considered the major hurdle for several disease-fighting strategies under development for COVID-19.

Samuel Abraham is a shareholder in GN Corporation, Japan which in turn is a shareholder in the manufacturing company of the AFO 202 Beta Glucan product and an applicant to several patents of relevance.

Conceptualization; writing -review and editing.

Gene Kurosawa: Writing -review and editing. Tomohiko Kisaka:

Writing -review and editing. Samuel JK Abraham: Conceptualization;

writing -original draft.

Data sharing is not applicable to this article as no data sets were generated or analyzed during the current study.

Samuel J. K. Abraham https://orcid.org/0000-0003-2646-2687

Could the induction of trained immunity by β-Glucan serve as a defense against COVID-19?

Biological response modifier glucan through balancing of blood glucose may have a prophylactic potential in COVID-19 patients

β-Glucans: Wide-spectrum immune-balancing food-supplement-based enteric (β-WIFE) vaccine adjuvant approach to COVID-19

Coagulopathy associated with COVID-19-Perspectives & Preventive strategies using a biological response modifier Glucan

A critical review on the impacts of β-glucans on gut microbiota and human health

The adjuvant effect of Sophy β-glucan to the antibody response in poultry immunized by the avian influenza a H5N1 and H5N2 vaccines

Orally administered particulate beta-glucan modulates tumorcapturing dendritic cells and improves antitumor T-cell responses in cancer

Defining trained immunity and its role in health and disease

Efficient control of IL-6, CRP and ferritin in Covid-19 patients with two variants of Beta-1,3-1,6 glucans in combination, within 15 days in an open-label prospective clinical trial. medRxiv

Beneficial effects of novel aureobasidium pullulans strains produced beta-1,3-1,6 glucans on interleukin-6 and D-dimer levels in COVID-19 patients; results of a randomized multiple-arm pilot clinical study

Beneficial reconstitution of gut microbiota and control of alpha-synuclein and curliamyloids-producing enterobacteria, by beta 1,3-1,6 glucans in a clinical pilot study of autism and potentials in neurodegenerative diseases. medRxiv

Effect of β-glucan supplementation on levels of IgM, IgA, IgG and its subclasses IgG1, IgG2, IgG3, and IgG4 in cancer patients

Prevention and treatment of COVID-19 disease by controlled modulation of innate immunity

Sinai immunology review project. Immunology of COVID-19: Current state of the science

The immunology of COVID-19: Is immune modulation an option for treatment?