Synbiotics as Supplemental Therapy for the Alleviation of Chemotherapy-Associated Symptoms in Patients with Solid Tumours

Chemotherapy is still the first line of treatment for most cancer patients. Patients receiving chemotherapy are generally prone to infections, which result in complications, such as sepsis, mucositis, colitis, and diarrhoea. Several nutritional approaches have been trialled to counter the chemotherapy-associated side effects in cancer patients, but none have yet been approved for routine clinical use. One of the approaches to reduce or avoid chemotherapy-associated complications is to restore the gut microbiota. Gut microbiota is essential for the healthy functioning of the immune system, metabolism, and the regulation of other molecular responses in the body. Chemotherapy erodes the mucosal layer of the gastrointestinal tract and results in the loss of gut microbiota. One of the ways to restore the gut microbiota is through the use of probiotics. Probiotics are the ‘good’ bacteria that may provide health benefits if consumed in appropriate amounts. Some studies have highlighted that the consumption of probiotics in combination with prebiotics, known as synbiotics, may provide better health benefits when compared to probiotics alone. This review discusses the different nutritional approaches that have been studied in an attempt to combat chemotherapy-associated side effects in cancer patients with a particular focus on the use of pre-, pro- and synbiotics.

The gastrointestinal antibiotic resistome in pediatric leukemia and lymphoma patients

Introduction

Most children with leukemia and lymphoma experience febrile neutropenia. These are treated with empiric antibiotics that include β-lactams and/or vancomycin. These are often administered for extended periods, and the effect on the resistome is unknown.

Methods

We examined the impact of repeated courses and duration of antibiotic use on the resistome of 39 pediatric leukemia and lymphoma patients. Shotgun metagenome sequences from 127 stool samples of pediatric oncology patients were examined for abundance of antibiotic resistance genes (ARGs) in each sample. Abundances were grouped by repeated courses (no antibiotics, 1-2 courses, 3+ courses) and duration (no use, short duration, long and/or mixed durationg) of β-lactams, vancomycin and "any antibiotic" use. We assessed changes in both taxonomic composition and prevalence of ARGs among these groups.

Results

We found that Bacteroidetes taxa and β-lactam resistance genes decreased, while opportunistic Firmicutes and Proteobacteria taxa, along with multidrug resistance genes, increased with repeated courses and/or duration of antibiotics. Efflux pump related genes predominated (92%) among the increased multidrug genes. While we found β-lactam ARGs present in the resistome, the taxa that appear to contain them were kept in check by antibiotic treatment. Multidrug ARGs, mostly efflux pumps or regulators of efflux pump genes, were associated with opportunistic pathogens, and both increased in the resistome with repeated antibiotic use and/or increased duration.

Conclusions

Given the strong association between opportunistic pathogens and multidrug-related efflux pumps, we suggest that drug efflux capacity might allow the opportunistic pathogens to persist or increase despite repeated courses and/or duration of antibiotics. While drug efflux is the most direct explanation, other mechanisms that enhance the ability of opportunistic pathogens to handle environmental stress, or other aspects of the treatment environment, could also contribute to their ability to flourish within the gut during treatment. Persistence of opportunistic pathogens in an already dysbiotic and weakened gastrointestinal tract could increase the likelihood of life-threatening blood borne infections. Of the 39 patients, 59% experienced at least one gastrointestinal or blood infection and 60% of bacteremia's were bacteria found in stool samples. Antimicrobial stewardship and appropriate use and duration of antibiotics could help reduce morbidity and mortality in this vulnerable population.

Alterations in intestinal microbiota of colorectal cancer patients receiving radical surgery combined with adjuvant CapeOx therapy

An intricate relationship exists and interactions occur between gut microbiota and colorectal cancer (CRC). Radical surgery combined with adjuvant chemotherapy (AC) serves as the mainstream therapeutic scheme for most CRC patients. The current research was conducted to assess the effect of surgery or chemotherapy on gut microbiota. Forty-three CRC patients who received radical surgery and AC were enrolled. Fecal samples were collected preoperatively, postoperatively, and after the first to fifth cycles of postoperative chemotherapy. The microbial community of each sample was analyzed using high throughput 16S rRNA amplicon sequencing. Compared with preoperative samples, fecal samples collected postoperatively exhibited a significant decrease of obligate anaerobes, tumor-related bacteria, and butyric acid-producing bacteria. However, a significant increase of some conditional pathogens was observed. In addition, the AC regimen (CapeOx) was found to alter intestinal microbiota dramatically. In particular, several changes were observed after chemotherapy including an increase of pathogenic bacteria, the "rebound effect" of chemotherapy-adapted bacteria, the shift of lactate-utilizing microbiota from Veillonella to Butyricimonas and Butyricicoccus, as well as the decrease of probiotics. Both radical surgery and CapeOx chemotherapy exert a non-negligible effect on the gut microbiota of CRC patients. Microbiota-based intervention may be beneficial for patients during postoperative clinical management.

Dietary caffeine and alcohol consumption by rats

The alcohol consumption of malnourished rats increased slowly but substantially during a 4-week period in which caffeine was added to their marginally adequate diet. Consumption fell to precaffeine levels as soon as caffeine was withdrawn.