Guidance on the scientific requirements for health claims related to the immune system, the gastrointestinal tract and defence against pathogenic microorganisms

The worldwide popularity of Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy to treat or prevent the hospital acquired infections (nosocomial infections) arose a great interest in the medical community around the world (Reddy and Reddy, 2016; 2017). The following questions were raised on this subject: Does Multiple Mixed Strain Probiotics directly inhibit the pathogenic bacteria (C. diff) in the gastrointestinal tract or indirectly through modulation of the host immune system or both? To be more specific, what is the exact and/or hypothetical mechanism at molecular level behind the breakthrough discovery of Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy? To answer these questions, the specific immunomodulation regulatory functions of the individual Probiotic strains (on host) have beenresearched, investigated andoutlined in this article. A detailed explanation(s) and hypotheses have been proposed outlining the possible cumulativedirect bacteriological and indirect immunomodulatory effects (at the molecular level) of the Multiple Mixed Strain Probiotics used in Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy to successfully treat C. diff infection. A detailed scientific and research attempts were made to correlate the Probiotic induced immune activities in relation to the reduction of the symptoms associated with the hospital acquired Clostridium difficile infection during and after the Multiple Mixed Strain Probioitc Therapy. Results of the clinical trials, microbiological tests on feces, and the clinical blood tests significantly revealed that the reasons for the success of Dr. Reddy’s Multiple Mixed Strain Probiotic Therapy are multifold. Presumably, it is predominantly due to the immunomodulatory effect they have exerted on the host immune system along with the direct inhibition of C. diff bacteria by multiple Probiotics, due to the production of bacteriocins, lactic acid and nutritional competency.In addition, the size of the individual cells of the Probiotic strains in the Multiple Mixed Strain Probiotics and their significant effect on immunomodulation has been thoroughly discussed. Results clearly proved that if Probiotics are absent in the GI tract during C. diff infection, the chances of patient survival is zero. This is because of the excess immune stimulation and incurable damage to the epithelial cell barrier of the gastrointestinal tract caused by C. diff bacteria. The results also revealed, without any doubt, as of to-datethe latest discovery of Dr. M.S. Reddy’s Multiple Mixed Strain Probiotic Therapy is the best way to cure the deadly hospital acquired infections affecting millions of people around the world, with high degree of mortality. This has been attested by several practicng medical professionals and scientists around the world (Reddy and Reddy, 2017).

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Immunomodulating Effects of Fungal Beta-Glucans: From Traditional Use to Medicine

Nutrients ◽

10.3390/nu13041333 ◽

2021 ◽

Vol 13 (4) ◽

pp. 1333

Author(s):

Hidde P. van Steenwijk ◽

Aalt Bast ◽

Alie de Boer

Keyword(s):

Immune System ◽

Good Health ◽

Evidence Base ◽

Health Claims ◽

Bioactive Molecules ◽

Current Status ◽

Beta Glucan ◽

Traditional Use ◽

Beta Glucans ◽

And Function

The importance of a well-functioning and balanced immune system has become more apparent in recent decades. Various elements have however not yet been uncovered as shown, for example, in the uncertainty on immune system responses to COVID-19. Fungal beta-glucans are bioactive molecules with immunomodulating properties. Insights into the effects and function of beta-glucans, which have been used in traditional Chinese medicine for centuries, advances with the help of modern immunological and biotechnological methods. However, it is still unclear into which area beta-glucans fit best: supplements or medicine? This review has highlighted the potential application of fungal beta-glucans in nutrition and medicine, reviewing their formulation, efficacy, safety profile, and immunomodulating effects. The current status of dietary fungal glucans with respect to the European scientific requirements for health claims related to the immune system and defense against pathogens has been reviewed. Comparing the evidence base of the putative health effects of fungal beta-glucan supplements with the published guidance documents by EFSA on substantiating immune stimulation and pathogen defense by food products shows that fungal beta-glucans could play a role in supporting and maintaining health and, thus, can be seen as a good health-promoting substance from food, which could mean that this effect may also be claimed if approved. In addition to these developments related to food uses of beta-glucan-containing supplements, beta-glucans could also hold a novel position in Western medicine as the concept of trained immunity is relatively new and has not been investigated to a large extent. These innovative concepts, together with the emerging success of modern immunological and biotechnological methods, suggest that fungal glucans may play a promising role in both perspectives, and that there are possibilities for traditional medicine to provide an immunological application in both medicine and nutrition.

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Introducing Murine Microbiome Database (MMDB): A Curated Database with Taxonomic Profiling of the Healthy Mouse Gastrointestinal Microbiome

Microorganisms ◽

10.3390/microorganisms7110480 ◽

2019 ◽

Vol 7 (11) ◽

pp. 480 ◽

Cited By ~ 3

Author(s):

Yang ◽

Park ◽

Baek ◽

Chun

Keyword(s):

Immune System ◽

Gastrointestinal Tract ◽

Gut Microbiota ◽

Mouse Strains ◽

The Internet ◽

Rrna Gene ◽

Healthy Mouse ◽

Gastrointestinal Microbiome ◽

Taxonomic Profiling ◽

Biological Insight

The gut microbiota modulates overall metabolism, the immune system and brain development of the host. The majority of mammalian gut microbiota consists of bacteria. Among various model animals, the mouse has been most widely used in pre-clinical biological experiments. The significant compositional differences in taxonomic profiles among different mouse strains due to gastrointestinal locations, genotypes and vendors have been well documented. However, details of such variations are yet to be elucidated. This study compiled and analyzed 16S rRNA gene-based taxonomic profiles of 554 healthy mouse samples from 14 different projects to construct a comprehensive database of the microbiome of a healthy mouse gastrointestinal tract. The database, named Murine Microbiome Database, should provide researchers with useful taxonomic information and better biological insight about how each taxon, such as genus and species, is associated with locations in the gastrointestinal tract, genotypes and vendors. The database is freely accessible over the Internet at http://leb.snu.ac.kr/mmdb/.

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Original SARS-CoV-2 vaccine model

Experimental and Clinical Gastroenterology ◽

10.31146/1682-8658-ecg-178-6-128-132 ◽

2020 ◽

pp. 128-132

Author(s):

I. E. Khoroshilov

Keyword(s):

Immune System ◽

Gastrointestinal Tract ◽

Respiratory System ◽

Clinical Picture ◽

Viral Infections ◽

Single Case ◽

Viral Rna ◽

Human Gastrointestinal Tract ◽

Oral Transmission ◽

Coronavirus Infection

The new coronavirus infection COVID-19 that appeared at the end of 2019 is signifi cantly different from the viral infections that existed previously. The new SARS-CoV-2 coronavirus combines two transmission routes—aerosol and oral-intestinal. The targets for this virus are both cells of the respiratory system and the human gastrointestinal tract. Along with the classical form of this disease, the so-called “gastrointestinal” form is described, in which the clinical picture is dominated by signs of damage to the gastrointestinal tract (diarrhea, vomiting, anorexia). These symptoms are detected, in general, in 20% of patients with COVID-19. More than 80% of patients have mild forms, a third of these individuals had diarrhea. Although SARSCoV-2 viral RNA is detected in faeces samples of patients with COVID-19, it does not carry an infectious onset, and not a single case of fecal-oral transmission has been confi rmed. Since the intestines are the most powerful organ of our immune system, we can introduce SARS-CoV-2 viral RNA into the gastrointestinal tract to ensure the formation of immunity to this infection.

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Environmental Toxicant and Immune cells: A Review

American Journal of Applied Bio-Technology Research ◽

10.15864/ajabtr.232 ◽

2021 ◽

Vol 2 (3) ◽

pp. 11-34

Author(s):

Aparajita Ray ◽

Chiranjeeb Dey

Keyword(s):

Immune System ◽

Mast Cells ◽

Nk Cells ◽

Immune Cells ◽

Defense Mechanism ◽

Environmental Toxicology ◽

Toxic Substances ◽

Environmental Toxicants ◽

Pathogenic Microorganisms ◽

Environmental Toxicant

Immune system is the adaptive defense mechanism which is evolved in vertebrates to keep them from invading pathogenic microorganisms and cancer. In immune system consists of some specialized cells like: lymphocytes, neutrophils, NK cells, basophils, macrophages, eiosinophils, mast cells, etc.Ecotoxicology is a subdisicipline of environmental toxicology concerd with studing the damaging effects of toxicants at the population and nature. Environmental toxicants are simply toxic substances in the nature. Environmental toxicant which is effect on ecosystem very badly.In this paper we discuss that how environmental toxicant effect on immune system or immune cells.

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Metabolic services of intestinal microbiota of swine: metabolism of carbohydrates and bile salts

10.19103/as.2021.0089.02 ◽

2022 ◽

pp. 37-74

Author(s):

Weilan Wang ◽

◽

Tingting Ju ◽

Michael G. Gänzle ◽

◽

...

Keyword(s):

Immune System ◽

Chronic Disease ◽

Phenolic Compounds ◽

Intestinal Microbiota ◽

Host Defense ◽

Bile Salts ◽

Pathogenic Microorganisms ◽

Metabolic Capacity ◽

Commensal Microbiota ◽

Major Nutrients

Vertebrate animals are holobionts and their physiology and metabolism are influenced by their commensal microbiota. Gut microbiota and their metabolites play a key role in the host defense against pathogenic microorganisms, shape the immune system, and impact the resistance to chronic disease. The metabolic activity of intestinal microbiota contributes significantly to the conversion of diet components to molecules that can be absorbed and metabolized by the host. The metabolic capacity of the intestinal microbiota by far exceeds the metabolic capacity of the hosts. Collectively, gut microbes support the digestion of the major nutrients, i.e. carbohydrates, proteins and lipids, and impact uptake and conversion of micronutrients, e.g. phenolic compounds and minerals. This chapter provides an overview on the metabolism of carbohydrates and bile salts by pig microbiota.

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Chapter 1: General introduction — the gastrointestinal tract, the immune system and the maintenance of health

Intestinal health ◽

10.3920/978-90-8686-792-9_1 ◽

2015 ◽

pp. 15-20

Author(s):

T.A. Niewold

Keyword(s):

Immune System ◽

Gastrointestinal Tract ◽

General Introduction

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An observational study of the microbiome of the maternal pouch and saliva of the tammar wallaby, Macropus eugenii, and of the gastrointestinal tract of the pouch young

Microbiology ◽

10.1099/mic.0.031997-0 ◽

2010 ◽

Vol 156 (3) ◽

pp. 798-808 ◽

Cited By ~ 22

Author(s):

Kim-Ly Chhour ◽

Lyn A. Hinds ◽

Nicholas A. Jacques ◽

Elizabeth M. Deane

Keyword(s):

Immune System ◽

Gastrointestinal Tract ◽

16S Rdna ◽

Young Animal ◽

Tammar Wallaby ◽

Birth Canal ◽

Macropus Eugenii ◽

Rdna Sequences ◽

Model Animal ◽

Study Sites

Marsupial mammals, born in an extremely atricial state with no functional immune system, offer a unique opportunity to investigate both the developing microbiome and its relationship to that of the mother and the potential influence of this microbiome upon the development of the immune system. In this study we used a well-established marsupial model animal, Macropus eugenii, the tammar wallaby, to document the microbiome of three related sites: the maternal pouch and saliva, and the gastrointestinal tract (GIT) of the young animal. We used molecular-based methods, targeting the 16S rDNA gene to determine the bacterial diversity at these study sites. In the maternal pouch, 41 unique phylotypes, predominantly belonging to the phylum Actinobacteria, were detected, while in the saliva, 48 unique phylotypes were found that predominantly belonged to the phylum Proteobacteria. The GIT of the pouch young had a complex microbiome of 53 unique phylotypes, even though the pouch young were still permanently attached to the teat and had only been exposed to the external environment for a few minutes immediately after birth while making their way from the birth canal to the maternal pouch. Of these 53 phylotypes, only nine were detected at maternal sites. Overall, the majority of bacteria isolated were novel species (<97 % identity to known 16S rDNA sequences), and each study site (i.e. maternal pouch and saliva, and the GIT of the pouch young) possessed its own unique microbiome.

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