Bacterial diversity, bioactive peptides, and enhanced immunomodulatory effects in raw milk kefir made with defined starter cultures versus backslopping

Ton Baars; Betty van Esch; Mara Diks; Luuk van Ooijen; Zuomin Zhang; Pieter Dekker; Sjef Boeren; Johan Garssen; Kasper Hettinga; Remco Kort

doi:10.1016/j.idairyj.2025.106202

Bacterial diversity, bioactive peptides, and enhanced immunomodulatory effects in raw milk kefir made with defined starter cultures versus backslopping

Ton Baars^*, Betty van Esch, Mara Diks, Luuk van Ooijen, Zuomin Zhang, Pieter Dekker, Sjef Boeren, Johan Garssen, Kasper Hettinga, Remco Kort^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

This study compared the microbial composition, peptide profiles, and immunomodulatory effects of raw milk kefir produced using a defined starter culture (RMK-S) versus backslopping (RMK-B). RMK-B exhibited significantly higher microbial loads, with a 10-fold increase in total plate counts and 35-fold increase in lactic acid bacteria compared to RMK-S. This correlated with higher peptide content in RMK-B kefir, though RMK-S displayed higher bacterial diversity and a more diverse, bioactive peptide pool. Microbial analysis revealed RMK-S retained the starter culture's profile, while RMK-B was dominated by Lactococcus lactis and consistent yeast species, including Kazachstania, Klyveromyces, and Galactomyces. In a murine food allergy model, RMK-S kefir significantly reduced the allergic skin response and increased IFN-γ production, demonstrating enhanced immune modulation. RMK-B did not exhibit these protective effects. These findings point towards the role of bacterial diversity and peptide composition in kefir's health benefits, favoring defined starter cultures over backslopping.

Original language	English
Article number	106202
Journal	International Dairy Journal
Volume	164
DOIs	https://doi.org/10.1016/j.idairyj.2025.106202
Publication status	Published - May 2025

Keywords

Backslopping
Bioactive peptides
Immunomodulation
Kefir using starter cultures
Microbial composition
Raw milk kefir

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10.1016/j.idairyj.2025.106202Licence: CC BY

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Baars, T., van Esch, B., Diks, M., van Ooijen, L., Zhang, Z., Dekker, P., Boeren, S., Garssen, J., Hettinga, K., & Kort, R. (2025). Bacterial diversity, bioactive peptides, and enhanced immunomodulatory effects in raw milk kefir made with defined starter cultures versus backslopping. International Dairy Journal, 164, Article 106202. https://doi.org/10.1016/j.idairyj.2025.106202

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title = "Bacterial diversity, bioactive peptides, and enhanced immunomodulatory effects in raw milk kefir made with defined starter cultures versus backslopping",

abstract = "This study compared the microbial composition, peptide profiles, and immunomodulatory effects of raw milk kefir produced using a defined starter culture (RMK-S) versus backslopping (RMK-B). RMK-B exhibited significantly higher microbial loads, with a 10-fold increase in total plate counts and 35-fold increase in lactic acid bacteria compared to RMK-S. This correlated with higher peptide content in RMK-B kefir, though RMK-S displayed higher bacterial diversity and a more diverse, bioactive peptide pool. Microbial analysis revealed RMK-S retained the starter culture's profile, while RMK-B was dominated by Lactococcus lactis and consistent yeast species, including Kazachstania, Klyveromyces, and Galactomyces. In a murine food allergy model, RMK-S kefir significantly reduced the allergic skin response and increased IFN-γ production, demonstrating enhanced immune modulation. RMK-B did not exhibit these protective effects. These findings point towards the role of bacterial diversity and peptide composition in kefir's health benefits, favoring defined starter cultures over backslopping.",

keywords = "Backslopping, Bioactive peptides, Immunomodulation, Kefir using starter cultures, Microbial composition, Raw milk kefir",

author = "Ton Baars and {van Esch}, Betty and Mara Diks and {van Ooijen}, Luuk and Zuomin Zhang and Pieter Dekker and Sjef Boeren and Johan Garssen and Kasper Hettinga and Remco Kort",

year = "2025",

month = may,

doi = "10.1016/j.idairyj.2025.106202",

language = "English",

volume = "164",

journal = "International Dairy Journal",

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AU - Baars, Ton

AU - van Esch, Betty

AU - Diks, Mara

AU - van Ooijen, Luuk

AU - Zhang, Zuomin

AU - Dekker, Pieter

AU - Boeren, Sjef

AU - Garssen, Johan

AU - Hettinga, Kasper

AU - Kort, Remco

PY - 2025/5

Y1 - 2025/5

N2 - This study compared the microbial composition, peptide profiles, and immunomodulatory effects of raw milk kefir produced using a defined starter culture (RMK-S) versus backslopping (RMK-B). RMK-B exhibited significantly higher microbial loads, with a 10-fold increase in total plate counts and 35-fold increase in lactic acid bacteria compared to RMK-S. This correlated with higher peptide content in RMK-B kefir, though RMK-S displayed higher bacterial diversity and a more diverse, bioactive peptide pool. Microbial analysis revealed RMK-S retained the starter culture's profile, while RMK-B was dominated by Lactococcus lactis and consistent yeast species, including Kazachstania, Klyveromyces, and Galactomyces. In a murine food allergy model, RMK-S kefir significantly reduced the allergic skin response and increased IFN-γ production, demonstrating enhanced immune modulation. RMK-B did not exhibit these protective effects. These findings point towards the role of bacterial diversity and peptide composition in kefir's health benefits, favoring defined starter cultures over backslopping.

AB - This study compared the microbial composition, peptide profiles, and immunomodulatory effects of raw milk kefir produced using a defined starter culture (RMK-S) versus backslopping (RMK-B). RMK-B exhibited significantly higher microbial loads, with a 10-fold increase in total plate counts and 35-fold increase in lactic acid bacteria compared to RMK-S. This correlated with higher peptide content in RMK-B kefir, though RMK-S displayed higher bacterial diversity and a more diverse, bioactive peptide pool. Microbial analysis revealed RMK-S retained the starter culture's profile, while RMK-B was dominated by Lactococcus lactis and consistent yeast species, including Kazachstania, Klyveromyces, and Galactomyces. In a murine food allergy model, RMK-S kefir significantly reduced the allergic skin response and increased IFN-γ production, demonstrating enhanced immune modulation. RMK-B did not exhibit these protective effects. These findings point towards the role of bacterial diversity and peptide composition in kefir's health benefits, favoring defined starter cultures over backslopping.

KW - Backslopping

KW - Bioactive peptides

KW - Immunomodulation

KW - Kefir using starter cultures

KW - Microbial composition

KW - Raw milk kefir

U2 - 10.1016/j.idairyj.2025.106202

DO - 10.1016/j.idairyj.2025.106202

M3 - Article

AN - SCOPUS:85217083297

SN - 0958-6946

VL - 164

JO - International Dairy Journal

JF - International Dairy Journal

M1 - 106202

ER -

Bacterial diversity, bioactive peptides, and enhanced immunomodulatory effects in raw milk kefir made with defined starter cultures versus backslopping

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Keywords

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