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Lyophilized alginate-based microspheres containing Lactobacillus fermentum D12, an exopolysaccharides producer, contribute to the strain’s functionality in vitro

  • 2021-04-17
  • Microbial Cell Factories 20(1)
    • Katarina Butorac
    • Jasna Novak
    • B. Bellich
    • Lucrecia C. Terán
    • M. Banić
    • Andreja Leboš Pavunc
    • S. Zjalić
    • P. Cescutti
    • J. Šušković
    • B. Kos

Abstract

Lactobacillus (Limosilactobacillus) fermentum D12 is an exopolysaccharide (EPS) producing strain whose genome contains a putative eps operon. Whole-genome analysis of D12 was performed to disclose the essential genes correlated with activation of precursor molecules, elongation and export of the polysaccharide chain, and regulation of EPS synthesis. These included the genes required for EPS biosynthesis such as epsA, B, C, D and E, also gt, wzx, and wzy and those involved in the activation of the precursor molecules galE, galT and galU. Both the biosynthesis and export mechanism of EPS were proposed based on functional annotation. When grown on MRS broth with an additional 2% w/v glucose, L. fermentum D12 secreted up to 200 mg/L of a mixture of EPSs, whose porous structure was visualized by scanning electron microscopy (SEM). Structural information obtained by 1HNMR spectroscopy together with composition and linkage analyses, suggested the presence of at least two different EPSs, a branched heteropolysaccharide containing t-Glcp and 2,6-linked Galf, and glycogen. Since recent reports showed that polysaccharides facilitate the probiotic-host interactions, we at first sought to evaluate the functional potential of L. fermentum D12. Strain D12 survived simulated gastrointestinal tract (GIT) conditions, exhibited antibacterial activity against enteropathogenic bacteria, adhered to Caco-2 cells in vitro, and as such showed potential for in vivo functionality. The EPS crude extract positively influenced D12 strain capacity to survive during freeze-drying and to adhere to extracellular matrix (ECM) proteins but did not interfere Caco-2 and mucin adherence when added at concentrations of 0.2, 0.5, and 1.0 mg/mL. Since the viable bacterial count of free D12 cells was 3 logarithmic units lower after the exposure to simulated GIT conditions than the initial count, the bacterial cells had been loaded into alginate for viability improvement. Microspheres of D12 cells, which were previously analyzed at SEM, significantly influenced their survival during freeze-drying and in simulated GIT conditions. Furthermore, the addition of the prebiotic substrates mannitol and lactulose improved the viability of L. fermentum D12 in freeze-dried alginate microspheres during 1-year storage at 4 °C compared to the control.

Keywords: Eps cluster; Exopolysaccharides; Limosilactobacillus (Lactobacillus) fermentum; Prebiotic; Probiotic.

Research Insights

SupplementHealth OutcomeEffect TypeEffect Size
Lactobacillus fermentumImproved Adherence to Extracellular Matrix ProteinsBeneficial
Moderate
Lactobacillus fermentumImproved Gastrointestinal SurvivalBeneficial
Moderate
Lactobacillus fermentumImproved Storage ViabilityBeneficial
Large
Lactobacillus fermentumIncreased Antibacterial Activity Against Enteropathogenic BacteriaBeneficial
Moderate
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