Potentially probiotic Limosilactobacillus reuteri from human milk strengthens the gut barrier in T84 cells and a murine enteroid model.

AIMS: At conception, the infant gut barrier is immature, gradually developing with regular intake of maternal milk. This study addressed whether the barrier-strengthening effect of breast feeding might be attributable, at least in part, to autochthonous beneficial human milk bacteria. METHODS AND RESULTS: Twelve bacterial strains from the breast milk of Pakistani mothers who underwent cesarean delivery (NPL-88, NPL-157, NPL-179, NPL-181, NPL-388 (Limosilactobacillus reuteri), NPL-76, NPL-495, NPL-504 (Limosilactobacillus fermentum), NPL-415 (Lactobacillus pentosus), NPL-412, NPL-416 (Lactiplantibacilllus plantarum) and NPL-374 (Bifidobacterium longum) were shortlisted based on their tolerance to acidic pH (2.8-4.2) and bile (0.1-0.3%). The effect of these bacteria on gut barrier function in the presence and absence of pathogens was assessed as changes in transepithelial electrical resistance (TEER) in the human T84 colonic epithelial cell line and in murine enteroid-derived monolayers (EDMs). The TEER of T84 cells monolayers rose in the presence of most of the human milk strains, being most pronounced in case of L. reuteri NPL-88 (34% within five h), exceeding the effect of the well-known probiotic L. acidophilus (20%). qRT-PCR, western blot and immunofluorescent staining associated the increase in TEER with enhanced expression of tight junction proteins. Pretreatment of murine EDMs with NPL-88 also largely prevented the ability of the pathogen, Salmonella, to decrease TEER (87 ± 1.50%; P < 0.0001, n = 4). CONCLUSIONS: Human milk lactic acid bacteria are potential probiotics that can strengthen gut barrier function and protect breastfed neonates against enteric infections.

A potentially probiotic strain of Enterococcus faecalis from human milk that is avirulent, antibiotic sensitive, and nonbreaching of the gut barrier.

Human milk is a key source of promising probiotic lactic acid bacteria. The Enterococcus species, because of their dual commensal and pathogenic nature, demand critical safety analysis to establish them as probiotic candidates. In this study, eighteen E. faecalis strains from human milk of mothers living in Pakistan were typed at the strain level by riboprinting. The typed strains were then evaluated in vitro for physiological safety and the presence of transmissible antibiotic resistance genes, adhesion genes, biogenic amines, and virulence factors. Selected strains were then checked for tolerance to gastrointestinal acid and bile as criteria for probiotic efficacy. Molecular typing revealed that the strains fell into five distinct clusters or ribotypes. Testing revealed that they were non-hemolytic; however, all strains had gelatinase activity except NPL-493. The isolates were susceptible to most clinically important antibiotics except streptomycin. Molecular screening for antibiotic resistance genes, adhesion genes, biogenic amines, and virulence factors indicated that none of the strains possessed resistance genes for aminoglycosides, vancomycin, bacitracin, tetracycline, or clindamycin. Most virulence factors were absent except for the genes gelE and efaAs associated with gut adhesion and translocation, which were present in all except NPL-493. Strain NPL-493 was the most promising probiotic candidate demonstrating significant tolerance to the acid, bile, and digestive enzymes in the human GIT and antibacterial activity against multiple pathogens. The study concluded that E. faecalis NPL-493 from human milk was safe among all the strains and could be considered a potential probiotic.

Lactobacillus commensals autochthonous to human milk have the hallmarks of potent probiotics.

Maternal milk is an important source of essential nutrients for the optimal growth of infants. Breastfeeding provides a continuous supply of beneficial bacteria to colonize the infant gastrointestinal tract (GIT) and offers health benefits for disease prevention and immunity. The purpose of this study was to isolate novel probiotic strains from the breast milk of native Pakistani mothers and to evaluate their probiotic potential. We isolated 21 strains of bacteria from the colostrum and mature milk of 20 healthy mothers, who had vaginal deliveries and were not taking antibiotics. After phenotypic and genotypic characterization, these isolates were tested for survival in the GIT using in vitro acid and bile tests. Nine strains showing good acid tolerance were assessed for their growth rate, bile resistance and ability to hydrolyze bile salts. Out of the four Lactobacillus isolates adjudged to be most promising as probiotics, three were Lactobacillus fermentum strains and one was a strain of Lactobacillus oris. This study demonstrates that human milk is a viable source of commensal bacteria beneficial to both adults and babies.