Modulation of the Gut Microbiota by the Plantaricin-Producing Lactiplantibacillus plantarum D13, Analysed in the DSS-Induced Colitis Mouse Model.
Katarina ButoracJasna NovakMartina BanićAndreja Leboš PavuncNina ČuljakNada OršolićDyana OdehJana PericaJagoda ŠuškovićBlaženka KosPublished in: International journal of molecular sciences (2023)
Lactiplantibacillus plantarum D13 shows antistaphylococcal and antilisterial activity, probably due to the synthesis of a presumptive bacteriocin with antibiofilm capacity released in the cell-free supernatant (CFS), whose inhibitory effect is enhanced by cocultivation with susceptible strains. An in silico analysis of the genome of strain D13 confirmed the pln gene cluster. Genes associated with plantaricin biosynthesis, structure, transport, antimicrobial activity, and immunity of strain D13 were identified. Furthermore, the predicted homology-based 3D structures of the cyclic conformation of PlnE, PlnF, PlnJ, and PlnK revealed that PlnE and PlnK contain two helices, while PlnF and PlnJ contain one and two helices, respectively. The potential of the strain to modulate the intestinal microbiota in healthy or dextran sulphate sodium (DSS)-induced colitis mouse models was also investigated. Strain D13 decreased the disease activity index (DAI) and altered the gut microbiota of mice with DSS-induced colitis by increasing the ratio of beneficial microbial species ( Allobaculum, Barnesiella ) and decreasing those associated with inflammatory bowel disease ( Candidatus Saccharimonas ). This suggests that strain D13 helps to restore the gut microbiota after DSS-induced colitis, indicating its potential for further investigation as a probiotic strain for the prevention and treatment of colitis.
Keyphrases
- mouse model
- cell free
- disease activity
- rheumatoid arthritis
- systemic lupus erythematosus
- genome wide
- rheumatoid arthritis patients
- type diabetes
- adipose tissue
- high resolution
- risk assessment
- ankylosing spondylitis
- molecular docking
- gene expression
- molecular dynamics simulations
- climate change
- dna methylation
- mass spectrometry
- single cell
- skeletal muscle
- atomic force microscopy
- insulin resistance