Inflammatory Bowel Diseases and the Efficacy of Probiotics as Functional Foods.

Adverse intestinal microbiome profiles described as a dysbiotic gut are a complicit etiological operative factor that can progress and maintain inflammatory sequelae in the intestines. The disruption of the gut microbiome that ensues with intestinal dysbiosis is, for example, posited by decreases in the alpha-diversity of the gut microbiome, which is characterized by significant reductions in the abundance of bacterial members from the Bacteroidetes and Firmicutes phyla. Proteobacteria have often been recognized as gut microbial signatures of disease. For example, this happens with observed increases in abundance of the phyla Proteobacteria and Gammaproteobacteria, such as the adherent-invasive Escherichia coli strain, which has been significantly linked with maintaining inflammatory bowel diseases. Research on the administration of probiotics, often identified as gut-functional foods, has demonstrated safety, tolerability, and efficacy issues in treating inflammatory bowel diseases (IBDs). In this narrative review, we explore the efficacy of probiotics in treating IBDs with bacterial strain- and dose-specific characteristics and the association with multi-strain administration.

Gut Dysbiosis and the Intestinal Microbiome: Streptococcus thermophilus a Key Probiotic for Reducing Uremia.

In the intestines, probiotics can produce antagonistic effects such as antibiotic-like compounds, bactericidal proteins such as bacteriocins, and encourage the production of metabolic end products that may assist in preventing infections from various pathobionts (capable of pathogenic activity) microbes. Metabolites produced by intestinal bacteria and the adoptions of molecular methods to cross-examine and describe the human microbiome have refreshed interest in the discipline of nephology. As such, the adjunctive administration of probiotics for the treatment of chronic kidney disease (CKD) posits that certain probiotic bacteria can reduce the intestinal burden of uremic toxins. Uremic toxins eventuate from the over manifestation of glucotoxicity and lipotoxicity, increased activity of the hexosamine and polyol biochemical and synthetic pathways. The accumulation of advanced glycation end products that have been regularly associated with a dysbiotic colonic microbiome drives the overproduction of uremic toxins in the colon and the consequent local pro-inflammatory processes. Intestinal dysbiosis associated with significant shifts in abundance and diversity of intestinal bacteria with a resultant and maintained uremia promoting an uncontrolled mucosal pro-inflammatory state. In this narrative review we further address the efficacy of probiotics and highlighted in part the probiotic bacterium Streptococcus thermophilus as an important modulator of uremic toxins in the gut of patients diagnosed with chronic kidney disease. In conjunction with prudent nutritional practices it may be possible to prevent the progression of CKD and significantly downregulate mucosal pro-inflammatory activity with the administration of probiotics that contain S. thermophilus.