Live probiotic cultures and the gastrointestinal tract: symbiotic preservation of tolerance whilst attenuating pathogenicity

Vitetta, Luis; Hall, Sean; Linnane, Anthony W.

doi:10.3389/fcimb.2014.00143

Cited by 12 publications

(13 citation statements)

References 43 publications

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“…3,4 Microbial interactions in the intestines provide the necessary cues for the development of regulated signals in part by reactive oxygen species that promote immunological tolerance, metabolic regulation and stability, and other factors, which may then help control local and extra-intestinal end-organ physiology. 5 We have posited that the resident intestinal commensal cohort of micro-organisms adapt to the local environment/milieu conditions of the human host and establish a complex ecosystem in which hostmicrobe, milieu-microbe and microbe-microbe interactions oversee the composition and dynamics of the intestinal microbial and host cell communities. 5,6 A safety, tolerability and pilot exploratory study is proposed to reduce chemotherapy induced mucositis with the administration of a standardised multistrain probiotic formulation.…”

Section: Sydney Medical School the University Of Sydney Sydney Newmentioning

confidence: 99%

“…4-6 Supporting age-appropriate conversations about end-of-life topics, at the right times, is critical. [4][5][6] There is currently no best-practise guidance for communication of endof-life topics with Australian AYAs with cancer, and evidence indicates that current practises could be improved. 3,[7][8][9] We explored the perspectives of healthcare professionals (HCPs) caring for AYAs with cancer, to better understand and improve the quality of current end-of-life communication practises.Methods: Semi-structured interviews were conducted with a range of HCPs from pediatric and adult sectors, including medical, nursing, and allied health staff who had cared for at least one AYA with cancer who had died.…”

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confidence: 99%

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Oral Abstracts

2017

Asia-Pac J Clncl Oncology

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Although surgery, radiation therapy and chemotherapy dominated cancer medicine during the 20th century, one of the first systematically applied systemic therapies for cancer was a crude immunotherapeutic, developed in the 1880s by New York surgeon William Coley. Many years later his observations led to the identification of key cytokine mediators of inflammation including TNF . Subsequently, interferons and interleukins were identified and tested as anticancer agents with modest success for a limited range of cancer types. Although the fashion for immune-directed approaches ebbed and flowed, the science underpinning immuno-oncology evolved and the cellular and humoral mediators of immune rejection were identified and an understanding of their functions grew. Australia's Nobel laureate Macfarlane Burnet described immunosurveillance in the 1960s, and although popular culture embraced the importance of immunity in cancer control, this was equally questioned by the clinical establishment as a broadly relevant mechanism. Organ transplant registries and the HIV epidemic nonetheless pointed to a clear association; at least in cases of virusassociated cancers. Key laboratory observations included Doherty and Zinkernagel's description of MHC and T-cell recognition and the identification of dendritic cells by Steinman in the 1970s. In the early 1990s, the first human cancer antigens were characterised by scientists at the Ludwig Institute and NCI. From the late 1950s, Donnell Thomas pioneered allogeneic marrow transplantation, arguably the first widely applied immunotherapy in the modern era. Later, BCG administered intralesionally in melanoma and intravesically in bladder cancer re-established a role for bacterial products as anticancer agents via immune stimulation. During the 1980s, the roll-out of global vaccination programmes for Hepatitis B has impacted on liver cancer, and the principle of vaccination to prevent virus-associated cancers was further extended more recently with vaccination against human papilloma virus. Contemporary excitement exploded with the demonstration that immune regulation often plays a critical role constraining anticancer immunity and that the simple intervention of blocking molecular immune checkpoints can unleash potent anticancer effects. Jim Alli-Editorial material and organisation c son's demonstration by blocking CTLA4 and the subsequent observation that blocking PD1 can have even greater impact heralded a decade of extraordinary progress. The recognition of an expanding range of mechanisms, the identification of numerous additional molecular immune targets and the extraordinary investment by industry in the field, all point to an even more exciting decade of discovery as biomarkers are identified, combinations are developed and approaches are optimised. We will see more effectively targeted immunotherapy, greater personalisation and substantial societal challenges as we grapple with the costs of highly effective and increasingly costly anticancer immunotherapies. Aims: Pembrolizumab i...

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Section: Sydney Medical School the University Of Sydney Sydney Newmentioning

confidence: 99%

mentioning

confidence: 99%

Oral Abstracts

2017

Asia-Pac J Clncl Oncology

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“…Modulation of the intestinal environment by probiotic bacteria can also serve as a trigger for controlling the proliferation of intestinal microbes and induces competition for the occupancy of a common biotope [28]. For example, Lactobacilli can limit nutrient availability.…”

Section: Intestinal Environment Interactions Between the Microbiotmentioning

confidence: 99%

“…For example, probiotic therapy using a multi-species probiotic formulation increased the total number of intestinal bacteria and restored the microbiota’s diversity in patients diagnosed with pouchitis [32]. Bifidobacteria shows efficacy in the allevation of gastrointestinal symptoms including constipation, abdominal discomfort, and flatulence through rebalancing of the gut microbiota [28]. Probiotic bacteria also exerts influence on the biotic environment by regulating the secretion of mucus and intestinal motility [28].…”

Section: Intestinal Environment Interactions Between the Microbiotmentioning

confidence: 99%

“…Bifidobacteria shows efficacy in the allevation of gastrointestinal symptoms including constipation, abdominal discomfort, and flatulence through rebalancing of the gut microbiota [28]. Probiotic bacteria also exerts influence on the biotic environment by regulating the secretion of mucus and intestinal motility [28]. Probiotic bacteria can also secrete active molecules (i.e., bacteriocins, antibiotics, free fatty acids, and hydrogen peroxide [33]) that can control growth and/or survival of micro-organisms inhabiting the local intestinal areas [33].…”

Section: Intestinal Environment Interactions Between the Microbiotmentioning

confidence: 99%

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Modulating the Gut Micro-Environment in the Treatment of Intestinal Parasites

Vitetta

Saltzman

Nikov

et al. 2016

JCM

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The interactions of micro-organisms cohabitating with Homo sapiens spans millennia, with microbial communities living in a symbiotic relationship with the host. Interacting to regulate and maintain physiological functions and immunological tolerance, the microbial community is able to exert an influence on host health. An example of micro-organisms contributing to an intestinal disease state is exhibited by a biodiverse range of protozoan and bacterial species that damage the intestinal epithelia and are therefore implicated in the symptoms of diarrhea. As a contentious exemplar, Blastocystis hominis is a ubiquitous enteric protist that can adversely affect the intestines. The symptoms experienced are a consequence of the responses of the innate immune system triggered by the disruption of the intestinal barrier. The infiltration of the intestinal epithelial barrier involves a host of immune receptors, including toll like receptors and IgM/IgG/IgA antibodies as well as CD8+ T cells, macrophages, and neutrophils. Whilst the mechanisms of interactions between the intestinal microbiome and protozoan parasites remain incompletely understood, it is acknowledged that the intestinal microbiota is a key factor in the pathophysiology of parasitic infections. Modulating the intestinal environment through the administration of probiotics has been postulated as a possible therapeutic agent to control the proliferation of intestinal microbes through their capacity to induce competition for occupation of a common biotype. The ultimate goal of this mechanism is to prevent infections of the like of giardiasis and eliminate its symptoms. The differing types of probiotics (i.e., bacteria and yeast) modulate immunity by stimulating the host immune system. Early animal studies support the potential benefits of probiotic administration to prevent intestinal infections, with human clinical studies showing probiotics can reduce the number of parasites and the severity of symptoms. The early clinical indications endorse probiotics as adjuncts in the pharmaceutical treatment of protozoan infections. Currently, the bar is set low for the conduct of well-designed clinical studies that will translate the use of probiotics to ameliorate protozoan infections, therefore the requisite is for further clinical research.

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Probiotics Supplemented with Omega-3 Fatty Acids are More Effective for Hepatic Steatosis Reduction in an Animal Model of Obesity

Kobyliak

Falalyeyeva

Bodnar

et al. 2016

Probiotics & Antimicro. Prot.

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Today probiotics have been suggested as a treatment for the prevention of NAFLD. Omega-3 fatty acid supplementation may have beneficial effects in regulating hepatic lipid metabolism, adipose tissue function and inflammation. The present study was designed to determine whether probiotics plus omega-3 are superior to probiotics alone on the monosodium glutamate (MSG)-induced NAFLD model in rats. We included 60 rats divided into four groups, 15 animals in each. Rats of group I were intact. Newborn rats of groups II-IV were injected with MSG. The III (Symbiter) group received 2.5 ml/kg of multiprobiotic "Symbiter" containing concentrated biomass of 14 probiotic bacteria genera. The IV (Symbiter-Omega) groups received "Symbiter-Omega" combination of probiotic biomass supplemented with flax and wheat germ oil (250 mg of each, concentration of omega-3 fatty acids 1-5 %). In both interventional groups reduction in total NAS score was observed. Supplementation of alive probiotic mixture with omega-3 fatty acids lead to 20 % higher decrease in steatosis score (0.73 ± 0.11 vs 0.93 ± 0.22, p = 0.848) and reduction by 16.6 % of triglycerides content in liver as compared to probiotic alone. Our study demonstrated more pronounced reduction in hepatic steatosis and hepatic lipid accumulation after treatment with combination of alive probiotics and omega-3 as compared to probiotics alone.

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Live probiotic cultures and the gastrointestinal tract: symbiotic preservation of tolerance whilst attenuating pathogenicity

Cited by 12 publications

References 43 publications

Oral Abstracts

Oral Abstracts

Modulating the Gut Micro-Environment in the Treatment of Intestinal Parasites

Probiotics Supplemented with Omega-3 Fatty Acids are More Effective for Hepatic Steatosis Reduction in an Animal Model of Obesity

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