Microencapsulation of Kluyveromyces marxianus and Plantago ovata in cheese whey particles: Protection of sensitive cells to simulated gastrointestinal conditions

Cheese whey proteins are natural vehicles for biological agents that are used as an inexpensive and effective coating material in the encapsulation of probiotics. In this work, the yeast Kluyveromyces marxianus, of probiotic potential, was associated with the prebiotic Plantago ovata (Psyllium) in p...

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Bibliographic Details
Published in:Food bioscience 2023-04, Vol.52, p.102474, Article 102474
Main Authors: Cerutti Martellet, Mônica, Majolo, Fernanda, Cima, Larissa, Goettert, Márcia Inês, Volken de Souza, Claucia Fernanda
Format: Article
Language:English
Subjects:
adhesion
alginates
bioavailability
Biotechnology
cell viability
Cheese whey
Coencapsulation
digestive tract
extrusion
gastrointestinal system
Kluyveromyces marxianus
microencapsulation
Plantago ovata
Prebiotic
prebiotics
Probiotic
probiotics
psyllium gum
refrigeration
whey
Yeast
yeasts
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Summary:Cheese whey proteins are natural vehicles for biological agents that are used as an inexpensive and effective coating material in the encapsulation of probiotics. In this work, the yeast Kluyveromyces marxianus, of probiotic potential, was associated with the prebiotic Plantago ovata (Psyllium) in particles coated with cheese whey. The efficiency of encapsulation, gastrointestinal tract (GIT) viability, particle morphology, and adhesion to enteral cells were analyzed. K. marxianus was encapsulated in different formulations with alginate (alg), psyllium (psy), and cheese whey (cw) through an extrusion process associated with vibrational technology. Yeasts encapsulated in different wall materials [alginate-psyllium-cheese whey (alg-psy-cw), alginate (alg), alginate-psyllium (alg-psy), and alginate-cheese whey (alg-cw)] were adequately protected, resulting in high cell viability (11.32, 9.77, 9.13, 10.95 log CFU.g−1, respectively). Regarding the bioavailability assay after three months of storage under refrigeration (±4 °C), cells encapsulated in wall material alg-psy-cw demonstrated the best viability (>6 log CFU.g−1). Encapsulated yeasts showed greater resistance to acidic conditions when exposed to simulations of the gastrointestinal tract, demonstrating a lower diffusion rate in the formulation made with wall material alg-psy-cw (10.03 log CFU.g−1). The adhesion rate to Caco-2 cells was high (±3,166 yeasts/100 Caco-2 cells). Finally, the developed product in this study was found to be suitable for incorporation in functional foods, as well as in pharmaceutical products, demonstrating its biotechnological potential. [Display omitted] •Kluyveromyces marxianus and Psyllium were coencapsulated in cheese whey capsules.•Yeast encapsulated with alginate and whey has a high adhesion rate in Caco-2 cells.•Whey, Psyllium, and alginate protect the K. marxianus from the adverse conditions.
ISSN:2212-4292
2212-4306
DOI:10.1016/j.fbio.2023.102474